Login
Create Account
Mechanics & Mechanical Engineering
Book Sub-Categories
All Topics
Energy Efficiency & Reliability
Fluid Mechanics & Rheology
Friction & Wear
Gas & Fluid Transport Systems
General References
Heating, Ventilating, Air-Conditioning & Refrigeration
Machine Design
Strength of Materials
Vibration
Books
15 Most Common Obstacles to World-Class Reliability - A Roadmap for Managers
2006 ASHRAE Handbook - Refrigeration (I-P Edition)
2007 ASHRAE Handbook - Heating, Ventilating, and Air-Conditioning Applications (I-P Edition)
2008 ASHRAE Handbook - Heating, Ventilating, and Air-Conditioning Systems and Equipment (I-P Edition)
2009 ASHRAE Handbook - Fundamentals (I-P Edition)
2009 ASHRAE Handbook - Fundamentals (SI Edition)
2010 ASHRAE Handbook - Refrigeration (I-P Edition)
2010 ASHRAE Handbook - Refrigeration (SI Edition)
2011 ASHRAE Handbook - Heating, Ventilating, and Air-Conditioning Applications (I-P Edition)
2011 ASHRAE Handbook - Heating, Ventilating, and Air-Conditioning Applications (SI Edition)
2012 ASHRAE Handbook - Heating, Ventilating, and Air-Conditioning Systems and Equipment (I-P Edition)
2012 ASHRAE Handbook - Heating, Ventilating, and Air-Conditioning Systems and Equipment (SI Edition)
2013 ASHRAE Handbook - Fundamentals (I-P Edition)
2013 ASHRAE Handbook - Fundamentals (SI Edition)
2014 ASHRAE Handbook - Refrigeration (I-P Edition)
2014 ASHRAE Handbook - Refrigeration (SI Edition)
2015 ASHRAE Handbook - Heating, Ventilating, and Air-Conditioning Applications (I-P Edition)
2015 ASHRAE Handbook - Heating, Ventilating, and Air-Conditioning Applications (SI Edition)
2016 ASHRAE Handbook - Heating, Ventilating, and Air-Conditioning Systems and Equipment (I-P Edition)
2016 ASHRAE Handbook - Heating, Ventilating, and Air-Conditioning Systems and Equipment (SI Edition)
2017 ASHRAE® Handbook - Fundamentals (I-P Edition)
2017 ASHRAE® Handbook - Fundamentals (SI Edition)
A Heat Recovery Anti-Icing System for Stationary Gas Turbines
A.T. Ferrell Transforms around Digital Prototyping
Acoustics, Aeroacoustics and Vibrations
Active Control of Noise and Vibration, 2 Volume Set (2nd Edition)
Adams Golf Tees Off with Integrated CAD and CFD
Advanced Engineering Dynamics
Advanced Engineering Thermodynamics (4th Edition)
Advanced Fracture Mechanics
Advanced Mechanics of Materials
Advanced Mechanics of Materials (6th Edition)
Advanced Mechanics of Materials and Applied Elasticity
Advanced Plumbing Technology II
Advanced Series on Ocean Engineering, Volume 26: Hydrodynamics around Cylindrical Structures (Revised Edition)
Advanced Thermodynamics - Fundamentals - Mathematics - Applications
Advanced Vehicle Technology (2nd Edition)
Advances in Industrial Mixing - A Companion to the Handbook of Industrial Mixing
Air Conditioning and Refrigeration - CIBSE Guide B3 - 2016
Air Distribution Systems - CIBSE Commissioning Code A: 1996 (2006)
Air-Conditioning System Design Manual (2nd Edition)
Air-Cooled Heat Exchangers and Cooling Towers - Thermal-Flow Performance Evaluation and Design, Volume 1
Air-Cooled Heat Exchangers and Cooling Towers - Thermal-Flow Performance Evaluation and Design, Volume 2
Air-Cooled versus Water-Cooled Steam Condensers for Power Boilers
Air-Release, Air/Vacuum and Combination Air Valves - Manual of Water Supply Practices, M51 (1st Edition)
Aircraft Structures for Engineering Students (5th Edition)
An Introduction to Engine Testing and Development
Applications and Activities - HVAC Strategies for Common Building Types - CIBSE Guide B0 - 2016
Applied Drilling Circulation Systems - Hydraulics, Calculations, and Models
Applied Mathematical and Physical Formulas (2nd Edition)
Applied Mathematical and Physical Formulas - Pocket Reference
Applied Structural and Mechanical Vibrations - Theory and Methods (2nd Edition)
ASHRAE Design Guide for Tall, Supertall, and Megatall Building Systems
ASHRAE Laboratory Design Guide
ASHRAE Laboratory Design Guide - Planning and Operation of Laboratory HVAC Systems (2nd Edition)
ASPE Data Book - A Plumbing Engineer's Guide to System Design and Specifications, Volume 2 - Plumbing Systems
ASPE Plumbineering Dictionary - The Comprehensive Resource of Plumbing Engineering Terminology for Engineers, Designers, and Contractors
Asymptotic Perturbation Theory of Waves
Atlas of Material Damage
Atomization and Sprays (2nd Edition)
Augmented Lagrangian and Operator Splitting Methods in Nonlinear Mechanics
Automated/Mechanized Drilling and Countersinking of Airframes
Automobile Mechanical and Electrical Systems (2nd Edition)
Automotive Aerodynamics
Automotive Buzz, Squeak and Rattle - Mechanisms, Analysis, Evaluation and Prevention
Automotive Electricity and Electronics (2nd Edition)
Automotive Embedded Systems Handbook
Automotive Engine Metrology
Automotive Ergonomics - Driver-Vehicle Interaction
Axiomatic Design and Fabrication of Composite Structures - Applications in Robots, Machine Tools, and Automobiles
Ballistics 2011 - 26th International Symposium on Ballistics, Miami, Florida, 12-16 September 2011, Volume 1 and 2
Ballistics 2013 - 27th International Symposium on Ballistics, Freiburg, Germany, 22-26 April 2013, Volume 1 and 2
Ballistics 2014 - 28th International Symposium on Ballistics, Atlanta, Georgia, USA, 22-26 September 2014, Volume 1 and 2
Basic Machining Reference Handbook (2nd Edition)
Bearings - Basic Concepts and Design Applications
Best Practices for Datacom Facility Energy Efficiency (2nd Edition)
Biaxial/Multiaxial Fatigue and Fracture
Boiler Operator's Handbook
Boiler Operator's Handbook (2nd Edition)
Boiling Heat Transfer and Two-Phase Flow (2nd Edition)
Brake Design and Safety (3rd Edition)
Braking of Road Vehicles
Building Scientific Apparatus (4th Edition)
Buried Plastic Pipe Technology, Volume 2: (STP 1222)
Buried Plastic Pipe Technology: (STP 1093)
Butterfly Valves - Torque, Head Loss, and Cavitation Analysis - Manual of Water Supply Practices, M49 (1st Edition)
Butterfly Valves - Torque, Head Loss, and Cavitation Analysis - Manual of Water Supply Practices, M49 (2nd Edition)
Calibration - A Technician's Guide
Case Studies in Mechanical Engineering - Decision Making, Thermodynamics, Fluid Mechanics and Heat Transfer
Centrifugal Pump Handbook (3rd Edition)
CIBSE Guide A - Environmental Design (7th Edition)
CIBSE Guide B - Heating, Ventilating, Air Conditioning and Refrigeration
CIBSE Guide C - Reference Data
CIBSE Guide D - Transportation Systems in Buildings (4th Edition)
CIBSE Guide E - Fire Safety Engineering (3rd Edition)
CIBSE Guide F - Energy Efficiency in Buildings (3rd Edition)
CIBSE Guide G - Public Health Engineering (2nd Edition)
CIBSE Guide H - Building Control Systems
CIBSE Guide K - Electricity in Buildings
CIBSE Guide M - Maintenance Engineering and Management - A Guide for Designers, Maintainers, Building Owners and Operators, and Facilities Managers
Circular Storage Tanks and Silos (3rd Edition)
Combined Heat and Power for Buildings - CIBSE AM12: 2013 (2nd Edition)
Combined Index to Chapters B0 to B4 - CIBSE Guide B - 2016
Combustion Efficiency Tables
Comfort - CIBSE Knowledge Series: KS6
Commissioning Variable Flow Pipework Systems - CIBSE Knowledge Series: KS9
Compact Heat Exchangers - Selection, Design and Operation (2nd Edition)
Compact Heat Exchangers - Selection, Design, and Operation
Complex Behavior in Evolutionary Robotics
Composite Materials - Design and Applications (2nd Edition)
Comprehensive Structural Integrity, Volumes 1-10
Compressibility, Turbulence and High Speed Flow (2nd Edition)
Compressor Handbook - Principles and Practice
Compressors and Modern Process Applications
Computational Fluid Dynamics - A Practical Approach
Computational Fluid Dynamics - A Practical Approach (2nd Edition)
Computational Methods for Multiphase Flows in Porous Media
Computational Rheology for Pipeline and Annular Flow
Computational Thermodynamics of Materials
Computer Modeling of Water Distribution Systems - Manual of Water Supply Practices, M32 (2nd Edition)
Computer Modeling of Water Distribution Systems - Manual of Water Supply Practices, M32 (3rd Edition)
Computerized Engine Controls (9th Edition)
COMSOL® 5 for Engineers
COMSOL® for Engineers
Concrete Pressure Pipe - Manual of Water Supply Practices, M9 (3rd Edition)
Condition Monitoring of Rotating Electrical Machines
Contact Mechanics
Control of Boilers (2nd Edition)
Control Techniques Drives and Controls Handbook
Control Techniques Drives and Controls Handbook (2nd Edition)
Control Theory (2nd Edition)
Convection Heat Transfer (4th Edition)
Convective Heat and Mass Transfer
Conveyance of Residuals from Water and Wastewater Treatment
Correlating Heat Transfer with Pressure Drop for Nonboiling Two-Phase Flow in Horizontal, Inclined, and Vertical Pipes
CRC Handbook of Mechanical Engineering (2nd Edition)
CRC Standard Mathematical Tables and Formulae (32nd Edition)
Critical Metals Handbook
Cryogenic Technology and Applications
Cummins Steers Towards Analysis-Led Design
Cylindrical Gears - Calculation-Materials-Manufacturing
Damage Mechanisms and Life Assessment of High-Temperature Components
Damages on Pumps and Systems - The Handbook for the Operation of Centrifugal Pumps
Datacom Equipment Power Trends and Cooling Applications (2nd Edition)
Design and Control of Automotive Propulsion Systems
Design Considerations for Datacom Equipment Centers (2nd Edition)
Design Engineer's Reference Guide - Mathematics, Mechanics, and Thermodynamics
Design for Manufacturing - A Structured Approach
Design for Reliability - Developing Assets That Meet the Needs of Owners
Design Formulas for Plastics Engineers (2nd Edition)
Design Handbook for Reinforced Concrete Elements (2nd Edition)
Designing Cost-Efficient Mechanisms - Minimum Constraint Design, Designing with Commercial Components, and Topics in Design Engineering
Designing Unmanned Aircraft Systems - A Comprehensive Approach
Dialogues Concerning Two New Sciences
Dictionary of Weights, Measures, and Units
Diesel Engine System Design
Distillation Design and Control Using Aspen™ Simulation (2nd Edition)
Distribution System Requirements for Fire Protection - Manual of Water Supply Practices, M31 (4th Edition)
Distribution Valves - Selection, Installation, Field Testing, and Maintenance - Manual of Water Supply Practices, M44 (2nd Edition)
District Cooling Guide
District Heating Guide
Domestic Water Heating Design Manual (2nd Edition)
Dual-Fuel Diesel Engines
Ductile-Iron Pipe and Fittings - Manual of Water Supply Practices, M41 (3rd Edition)
Elastic Beam Calculations Handbook
Elasticity - Tensor, Dyadic, and Engineering Approaches
Elasticity - Theory, Applications, and Numerics (2nd Edition)
Elasticity in Engineering Mechanics (3rd Edition)
Electric and Hybrid Vehicles - Power Sources, Models, Sustainability, Infrastructure and the Market
Electric Drives and Electromechanical Systems
Electric Motors and Drives - Fundamentals, Types and Applications (3rd Edition)
Electromagnetic Transients in Transformer and Rotating Machine Windings
Elements of Ocean Engineering
Encyclopedia of Vibration, Volumes 1-3
Encyclopedic Dictionary of Pipeline Integrity
Energy Centered Maintenance - A Green Maintenance System
Energy Efficiency - Principles and Practices
Energy Efficiency Manual
Energy Methods in Applied Mechanics
Engine Coolant Testing, Volume 3: (STP 1192)
Engineered Plumbing Design II
Engineered Tribological Composites - The Art of Friction Material Development
Engineering Design Handbook - Analysis and Design of Automotive Brake Systems: (DARCOM-P 706-358)
Engineering Design Handbook - Army Weapon Systems Analysis, Parts One and Two: (DARCOM-P 706-101, 706-102)
Engineering Design Handbook - Automotive Series - Automotive Suspensions: (AMCP 706-356)
Engineering Design Handbook - Automotive Series - The Automotive Assembly: (AMCP 706-355)
Engineering Design Handbook - Helicopter Engineering, Part One - Preliminary Design: (AMCP 706-201)
Engineering Design Handbook - Helicopter Engineering, Part Three - Qualification Assurance: (AMCP 706-203)
Engineering Design Handbook - Helicopter Engineering, Part Two - Detail Design: (AMCP 706-202)
Engineering Design Handbook - Hydraulic Fluids: (AMCP 706-123)
Engineering Design Handbook - Military Vehicle Power Plant Cooling: (AMCP 706-361)
Engineering Dynamics - A Comprehensive Introduction
Engineering Flow Dynamics: Incompressible Fluids
Engineering Materials 1 - An Introduction to Properties, Applications, and Design (4th Edition)
Engineering Measurements - Methods and Intrinsic Errors
Engineering Mechanics (2nd Edition)
Engineering Metrology and Measurements
Engineering Statics (2nd Edition)
Engineering Tribology (3rd Edition)
Engineering Tribology (4th Edition)
Engineering Vibration Analysis with Application to Control Systems
Engineers' Guide to Pressure Equipment - The Pocket Reference
Engineers' Guide to Rotating Equipment - The Pocket Reference
Enhanced Oil Recovery - Resonance Macro- and Micro-Mechanics of Petroleum Reservoirs
Entropy Theory in Hydraulic Engineering - An Introduction
Environmental Design - CIBSE Guide A (8th Edition)
Essentials of Machine Olfaction and Taste
Estimations of Heat Transfer in Nonboiling Two-Phase Flow with a General Correlation
ETG-FB 148 - 9th International Conference on Integrated Power Electronics Systems, Proceedings March, 8-10, 2016, Nuremberg, Germany
Exhaust Waste Heat Recovery From Stationary Engines Using Organic Rankine Cycles
External Corrosion - Introduction to Chemistry and Control - Manual of Water Supply Practices, M27 (2nd Edition)
Facility Manager’s Handbook
Fan Application Guide - CIBSE TM42: 2006
Fans and Ventilation - A Practical Guide
Fatigue and Fracture Mechanics, Volume 34: (STP 1461)
Fatigue and Fracture Mechanics, Volume 35: (STP 1480)
Fatigue and Fracture Mechanics, Volume 37: (STP 1526)
Fatigue and Fracture Mechanics, Volume 38: (STP 1546)
Fatigue Testing and Analysis - Theory and Practice
Fatigue, Stress, and Strain of Rubber Components - A Guide for Design Engineers
Fault Diagnosis of Induction Motors
Ferrohydrodynamics
Fiberglass Pipe Design - Manual of Water Supply Practices, M45 (2nd Edition)
Fiberglass Pipe Design -Manual of Water Supply Practices, M45 (3rd Edition)
Finite Element Analysis for Design Engineers
Finite Element Method (5th Edition) Volume 1 - The Basis
Finite Element Method (5th Edition) Volume 2 - Solid Mechanics
Finite Element Method (5th Edition) Volume 3 - Fluid Dynamics
Finite Element Method - Its Basis and Fundamentals (6th Edition)
Finite Element Method for Fluid Dynamics (6th Edition)
Finite Element Method for Solid and Structural Mechanics (6th Edition)
Fire Protection Systems (2nd Edition)
Flexible Pipes - Advances in Pipes and Pipelines
Flexible Robot Manipulators - Modelling, Simulation and Control (2nd Edition)
Flow-Induced Vibrations - An Engineering Guide
Flowmeters in Water Supply - Manual of Water Supply Practices, M33 (2nd Edition)
Fluid Dynamics and Transport of Droplets and Sprays (2nd Edition)
Fluid Dynamics of Oil and Gas Reservoirs
Fluid Film Lubrication (2nd Edition)
Fluid Flow for Chemical Engineers (2nd Edition)
Fluid Flow Measurement - A Practical Guide to Accurate Flow Measurement (2nd Edition)
Fluid Flow Measurement - A Practical Guide to Accurate Flow Measurement (3rd Edition)
Fluid Mechanics (4th Edition)
Fluid Mechanics - A Short Course for Physicists
Fluid Mechanics and Heat Transfer - Advances in Nonlinear Dynamics Modeling
Fluid Mechanics and Machinery
Fluid Mechanics and Thermodynamics of Turbomachinery (4th Edition)
Fluid Mechanics and Thermodynamics of Turbomachinery (5th Edition)
Fluid Mechanics and Thermodynamics of Turbomachinery (6th Edition)
Fluid Power Dynamics
Fluid-Structure Interactions - Cross-Flow-Induced Instabilities
Fluid-Structure Interactions - Slender Structures and Axial Flow, Volume 1 (2nd Edition)
Fluid-Structure Interactions - Slender Structures and Axial Flow, Volume 2 (2nd Edition)
Formulas for Dynamics, Acoustics and Vibration
Formulas for Stress, Strain, and Structural Matrices (2nd Edition)
Forsthoffer’s Best Practice Handbook for Rotating Machinery
Foundation Vibration Analysis - A Strength of Materials Approach
Fracture and Damage Mechanics for Structural Engineering of Frames - State-of-the-Art Industrial Applications
Fracture and Fatigue Control in Structures - Applications of Fracture Mechanics: (MNL 41)
Fracture Mechanics - Fundamentals and Applications (4th Edition)
Fracture Mechanics - Integration of Mechanics, Materials Science, and Chemistry
Fuels and Lubricants Handbook - Technology, Properties, Performance, and Testing: (MNL 37WCD)
Fundamentals of Dynamics and Analysis of Motion
Fundamentals of Fluid Power Control
Fundamentals of Heat Exchanger Design
Fundamentals of Hydraulic Engineering
Gas Turbine Engineering Handbook (3rd Edition)
Gas Turbine Engineering Handbook (4th Edition)
Gas Turbines - A Handbook of Air, Land and Sea Applications (2nd Edition)
Gas Turbines - A Handbook of Air, Land, and Sea Applications
Gear Cutting Tools - Science and Engineering (2nd Edition)
General Void Fraction Correlation in Two-Phase Flow for Various Pipe Orientations
Generalized Continuum Mechanics and Engineering Applications
Geometrical Dimensioning and Tolerancing for Design, Manufacturing and Inspection - A Handbook for Geometrical Product Specification Using ISO and ASME Standards (2nd Edition)
Geometrical Tolerancing Desk Reference - Creating and Interpreting ISO Standard Technical Drawings
GMM-FB 76 - Innovative Small Drives and Micro-Motor Systems
GMM-FB 85 - Automotive Meets Electronics, Contributions from the 7th GMM-Fachtagung 1 - 2 March 2016 in Dortmund
Ground Source Heat Pumps - CIBSE TM51: 2013
Groundwater Cooling Systems - CIBSE TM45: 2008
Guide to Building Services for Historic Buildings - Sustainable Services for Traditional Buildings
Guide to the Collision Avoidance Rules - International Regulations for Preventing Collisions at Sea (7th Edition)
Guide to the Use of Tables and Formulas in Machinery’s Handbook (30th Edition)
Guidebook for Planning and Implementing Automated People Mover Systems at Airports: (ACRP Report 37)
Handbook for Transversely Finned Tube Heat Exchanger Design
Handbook of Adhesives and Sealants, Volume 1 - Basic Concepts and High Tech Bonding
Handbook of Adhesives and Sealants, Volume 2 - General Knowledge, Application of Adhesives, New Curing Techniques
Handbook of Dimensional Measurement (5th Edition)
Handbook of Energy Engineering (6th Edition)
Handbook of Energy Engineering (7th Edition)
Handbook of Farm, Dairy and Food Machinery Engineering (2nd Edition)
Handbook of Farm, Dairy, and Food Machinery
Handbook of Fluid Dynamics (2nd Edition)
Handbook of Hydraulic Fracturing
Handbook of Hydrothermal Technology (2nd Edition)
Handbook of Hydrothermal Technology - A Technology for Crystal Growth and Materials Processing
Handbook of Lubricants (2nd Edition)
Handbook of Machining with Grinding Wheels (2nd Edition)
Handbook of Materials Failure Analysis with Case Studies from the Aerospace and Automotive Industries
Handbook of PVC Pipe Design and Construction (5th Edition)
Handbook of Railway Vehicle Dynamics
Handbook of Research on Advances and Applications in Refrigeration Systems and Technologies
Handbook of Rheology Modifiers
Handbook of Silicon Based MEMS Materials and Technologies
Handbook of Silicon Based MEMS Materials and Technologies (2nd Edition)
Handbook of Turbomachinery (2nd Edition)
Handbook of Vehicle Suspension Control Systems
Heat and Moisture Transfer between Human Body and Environment
Heat Exchanger Design Guide - A Practical Guide for Planning, Selecting and Designing of Shell and Tube Exchangers
Heat Exchanger Design Handbook (2nd Edition)
Heat Exchanger Equipment Field Manual - Common Operating Problems and Practical Solutions
Heat Transfer (2nd Edition)
Heat Transfer Fluid Flow Data Books
Heat Transfer Textbook (4th Edition)
Heat Transfer to the Environment from Buried Tunnels Containing Heat Sources
Heating - CIBSE Guide B1 - 2016
High Cycle Fatigue - A Mechanics of Materials Perspective
High-Order Methods for Incompressible Fluid Flow
Highly Flexible Structures - Modeling, Computation, and Experimentation
Humidification - CIBSE Knowledge Series: KS19
HVAC - The Handbook of Heating, Ventilation and Air Conditioning for Design and Implementation
HVAC Controls - Operation and Maintenance (3rd Edition)
HVAC Design Manual for Hospitals and Clinics (2nd Edition)
HVAC Strategies for Well-Insulated Airtight Buildings - CIBSE TM29: 2002
Hybrid Electric Vehicle System Modeling and Control (2nd Edition)
Hybrid Vehicle Effort Shifts 3-D Printing into High Gear
Hybrid Vehicle Using Mechanical Energy Storage
Hybrid, Electric and Fuel-Cell Vehicles (2nd Edition)
Hydraulic Fluids
Hydraulic Power System Analysis
Hydraulics and Pneumatics - A Technician's and Engineer's Guide (2nd Edition)
Hydraulics and Pneumatics - A Technician’s and Engineer’s Guide (3rd Edition)
Hydrodynamic Modeling and Optimization of Processes in Flotation Cells with External Air-blow
Hydrodynamics of High-Speed Marine Vehicles
Hydrodynamics of Pumps
Identification and Control of Mechanical Systems
IET Power and Energy Series, Volume 7 - Insulators for High Voltages
IISc Lecture Notes Series, Volume 3 - Noise and Vibration Control
Improving Maintenance and Reliability through Cultural Change
Indoor Air Quality and Ventilation - CIBSE Knowledge Series: KS17
Industrial and Process Furnaces - Principles, Design and Operation
Industrial Engineering, Machine Design and Automation (IEMDA 2014) - Proceedings of the 2014 Congress and Computer Science and Application (CCSA 2014) - Proceedings of the 2nd Congress
Industrial Gas Turbines - Performance and Operability
Industrial Machinery Repair - Best Maintenance Practices Pocket Guide (Plant Engineering)
Industrial Piping and Equipment Estimating Manual
Innovative Graphene Technologies - Developments and Characterisation, Volume 1
Inspection of Air Conditioning Systems - A Guide to EPBD Compliance - CIBSE TM44: 2012 (2nd Edition)
Installation, Field Testing, and Maintenance of Fire Hydrants - Manual of Water Supply Practices, M17 (4th Edition)
Internal Combustion Engine Handbook - Basics, Components, System, and Perspectives (2nd Edition)
Internal-Combustion Engine in Theory and Practice, Volume 1 - Thermodynamics, Fluid Flow, Performance (2nd Edition, Revised)
Internal-Combustion Engine in Theory and Practice, Volume 2 - Combustion, Fuels, Materials, Design (2nd Edition, Revised)
Introduction to Aircraft Structural Analysis
Introduction to Continuum Mechanics (3rd Edition)
Introduction to Continuum Mechanics (4th Edition)
Introduction to Critical Phenomena in Fluids
Introduction to Energy Efficiency - A Companion to CIBSE Guide F
Introduction to Fluid Mechanics (Butterworth-Heineman Edition)
Introduction to Fluid Mechanics (OUP Edition)
Introduction to Marine Engineering (2nd Edition)
Introduction to Mechanical Engineering - Part 1
Introduction to Mechanical Engineering - Part 2
Introduction to Mechatronics
Introduction to Plasmas and Plasma Dynamics - With Reviews of Applications in Space Propulsion, Magnetic Fusion and Space Physics
Introduction to the Design and Behavior of Bolted Joints (4th Edition) - Non-Gasketed Joints
Introduction to the Numerical Analysis of Incompressible Viscous Flows
ISTFA 2015™ - Conference Proceedings from the 41st International Symposium for Testing and Failure Analysis, November 1-5, 2015, Oregon Convention Center, Portland, Oregon, USA
Jet Engine (5th Edition)
John Zink Hamworthy Combustion Handbook, Volume 1 - Fundamentals (2nd Edition)
John Zink Hamworthy Combustion Handbook, Volume 2 - Design and Operations (2nd Edition)
John Zink Hamworthy Combustion Handbook, Volume 3 - Applications (2nd Edition)
Knovel Steam Tables
Lean Combustion - Technology and Control (2nd Edition)
Learning Robotics Using Python - Design, Simulate, Program, and Prototype an Interactive Autonomous Mobile Robot from Scratch with the Help of Python, ROS, and Open-CV!
Liquid Cooling Guidelines for Datacom Equipment Centers
Load Calculation Applications Manual (I-P Edition) (2nd Edition)
Load Calculation Applications Manual (SI Edition) (2nd Edition)
Lubricants and Lubrication, 2 Volume Set (3rd Edition)
Lubrication Fundamentals (3rd Edition) Revised and Expanded
Machine Designers Reference
Machine Tool Reliability
Machinery Failure Analysis and Troubleshooting, Volume 2 - Practical Machinery Management for Process Plants (4th Edition)
Machinery Failure Analysis Handbook - Sustain Your Operations and Maximize Uptime
Machinery's Handbook (26th Edition)
Machinery's Handbook (27th Edition) & Guide to Machinery's Handbook
Machinery's Handbook (28th Edition) & Guide to Machinery's Handbook
Machinery's Handbook (29th Edition) & Guide to Machinery's Handbook
Machinery's Handbook (30th Edition)
Machinery's Handbook Made Easy
Machinery's Handbook Pocket Companion (Revised 1st Edition)
Maintenance and Reliability Best Practices
Maintenance and Reliability Best Practices (2nd Edition)
Maintenance Engineering and Management - A Guide for Designers, Maintainers, Building Owners and Operators, and Facilities Managers - CIBSE Guide M (2nd Edition)
Make It! - Engineering the Manufacturing Solution
Manual on Selection and Use of Engine Coolants and Cooling System Chemicals: (MNL 6)
Marine Propellers and Propulsion (2nd Edition)
Marine Propellers and Propulsion (3rd Edition)
Materials Damage Prognosis
Materials for Automobile Bodies
Materials in Mechanical Extremes - Fundamentals and Applications
Materials Selection and Applications in Mechanical Engineering
Materials Selection in Mechanical Design (2nd Edition)
Materials Selection in Mechanical Design (3rd Edition)
Materials Selection in Mechanical Design (4th Edition)
Materials, Design and Manufacturing for Lightweight Vehicles
Mathematical Analysis of Viscoelastic Flows
Measurement and Control Basics (4th Edition)
Measurement and Control Basics (5th Edition)
Mechanical Assemblies - Their Design, Manufacture, and Role in Product Development
Mechanical Design (2nd Edition)
Mechanical Design Engineering Handbook
Mechanical Design of Machine Components (2nd Edition)
Mechanical Engineer's Handbook
Mechanical Engineer's Reference Book (12th Edition)
Mechanical Engineering and Applied Mechanics - Selected, Peer Reviewed Papers from the 13th Indonesia Conference of Mechanical Engineering, October 15-16, 2014, Depok, Indonesia
Mechanical Engineering, Industrial Materials and Industrial Technologies - Selected, Peer Reviewed Papers from the 2015 2nd International Conference on Mechanical Engineering, Industrial Materials and Industrial Electronics, March 14-15, 2015, London, UK
Mechanical Estimating Manual - Sheet Metal, Piping and Plumbing
Mechanical Properties of Ceramics (2nd Edition)
Mechanical Vibration - Analysis, Uncertainties, and Control (4th Edition)
Mechanical Vibration Analysis and Computation
Mechanical Vibration and Shock Analysis, Volume 1 - Sinusoidal Vibration (3rd Edition)
Mechanical Vibration and Shock Analysis, Volume 2 - Mechanical Shock (3rd Edition)
Mechanical Vibration and Shock Analysis, Volume 3 - Random Vibration (3rd Edition)
Mechanical Vibration and Shock Analysis, Volume 4 - Fatigue Damage (3rd Edition)
Mechanical Vibration and Shock Analysis, Volume 5 - Specification Development (3rd Edition)
Mechanical Vibrations
Mechanics and Calculations of Textile Machinery
Mechanics and Mechanisms of Fracture - An Introduction
Mechanics of Materials
Mechanics of Materials, Volume 1 - An Introduction to the Mechanics of Elastic and Plastic Deformation of Solids and Structural Materials (3rd Edition)
Mechanics of Materials, Volume 2 - An Introduction to the Mechanics of Elastic and Plastic Deformation of Solids and Structural Materials (3rd Edition)
Mechanics of Solids
Mechatronic Hands - Prosthetic and Robotic Design
Mechatronics - Fundamentals and Applications
Medical Devices and Systems
Metal Machining - Theory and Applications
Metallic Materials Properties Development and Standardization (MMPDS-01)
Metallic Materials Properties Development and Standardization (MMPDS-04) - Includes Change Notice 1
Metallic Materials Properties Development and Standardization (MMPDS-05)
Metallic Materials Properties Development and Standardization (MMPDS-06)
Metallic Materials Properties Development and Standardization (MMPDS-07)
Metallic Materials Properties Development and Standardization (MMPDS-08)
Metallic Materials Properties Development and Standardization (MMPDS-09)
Metallic Materials Properties Development and Standardization (MMPDS-10)
Metallic Materials Properties Development and Standardization (MMPDS-11)
Metallic Materials Properties Development and Standardization (MMPDS-12)
Metalworking Sink or Swim - Tips and Tricks for Machinists, Welders, and Fabricators
Metering Pump Handbook
Metrology and Theory of Measurement
Micro-Drops and Digital Microfluidics (2nd Edition)
Microdrops and Digital Microfluidics
Microfabrication for Microfluidics
Military Handbook - MIL-HDBK-5H: Metallic Materials and Elements for Aerospace Vehicle Structures (Knovel Interactive Edition)
Minimising Pollution at Air Intakes - CIBSE Technical Memoranda TM21: 1999
Mitigation of Firearm Recoil
Modeling of Chemical Wear - Relevance to Practice
Molecular Gas Dynamics and the Direct Simulation of Gas Flows
Equation Sub-Categories
Deformation
Fluid Dynamics
Forms of Work
Machine Design
Mass Transfer
Strength of Materials
Thermodynamics
Equations
1: Ends Pinned to Rigid Supports; Concentrated Center Load W (Imperial Units)
1a: Concentrated Intermediate Load: Left End Free, Right End Fixed (Cantilever) (Imperial Units)
1b: Concentrated Intermediate Load: Left End Guided, Right End Fixed (Imperial Units)
1c: Concentrated Intermediate Load: Left End Simply Supported, Right End Fixed (Imperial Units)
1d: Concentrated Intermediate Load: Left End Fixed, Right End Fixed (Imperial Units)
1e: Concentrated Intermediate Load: Left End Simply Supported, Right End Simply Supported (Imperial Units)
1f: Concentrated Intermediate Load: Left End Guided, Right End Simply Supported (Imperial Units)
2: Ends Pinned to Rigid Supports; Concentrated Center Load W (Imperial Units)
2a: Distributed Load: Left End Free, Right End Fixed (Cantilever) (Imperial Units)
2b: Distributed Load: Left End Guided, Right End Fixed (Imperial Units)
2c: Distributed Load: Left End Simply Supported, Right End Fixed (Imperial Units)
2d: Distributed Load: Left End Fixed, Right End Fixed (Imperial Units)
2e: Distributed Load: Left End Simply Supported, Right End Simply Supported (Imperial Units)
2f: Distributed Load: Left End Guided, Right End Simply Supported (Imperial Units)
3: Ends Pinned to Rigid Supports; Uniform Distributed Transverse Load w on entire span (Imperial Units)
3a: Concentrated Moment: Left End Free, Right End Fixed (Cantilever) (Imperial Units)
3b: Concentrated Moment: Left End Guided, Right End Fixed (Imperial Units)
3c: Concentrated Moment: Left End Simply Supported, Right End Fixed (Imperial Units)
3d: Concentrated Moment: Left End Fixed, Right End Fixed (Imperial Units)
3e: Concentrated Moment: Left End Simply Supported, Right End Simply Supported (Imperial Units)
3f: Concentrated Moment: Left End Guided, Right End Simply Supported (Imperial Units)
4: Ends Fixed to Rigid Supports; Uniform Distributed Transverse Load w on entire span (Imperial Units)
5: Ends Pinned to Rigid Supports; Concentrated Center Load W; Beam is Perfectly Flexible like a Cable or Chain and has an Unstretched length l (Imperial Units)
6: Ends Pinned to Rigid Supports; Uniform Distributed Transverse Load w on entire span Beam is Perfectly Flexible like a Cable or Chain and has an Unstretched length l (Imperial Units)
Absolute Humidity
Actuating Force in a Cone Clutch or Brake
Analysis of a Flat Plate under Pressure: Rectangular Plate (Straight Boundary, Constant Thickness) with All Edges Fixed: Uniform Decrease Parallel to Side B
Analysis of a Flat Plate under Pressure: Rectangular Plate (Straight Boundary, Constant Thickness) with All Edges Simply Supported: Uniform Loading over a Central Rectangular Area
Analysis of a Flat Plate under Pressure: Rectangular Plate (Straight Boundary, Constant Thickness) with All Edges Simply Supported: Uniform over Entire Plate plus Uniform Tension or Compression P Applied to Short Edges
Analysis of a Flat Plate under Pressure: Rectangular Plate (Straight Boundary, Constant Thickness) with All Edges Simply Supported: Uniformly Increasing Loading along Length
Analysis of a Flat Plate under Pressure: Rectangular Plate (Straight Boundary, Constant Thickness) with One Edge Fixed, Opposite Edge Free, Remaining Edges Simply Supported: Distributed Line Load w along Free Edge
Analysis of a Flat Plate under Pressure: Rectangular Plate (Straight Boundary, Constant Thickness) with One Edge Fixed, Opposite Edge Free, Remaining Edges Simply Supported: Uniformly Decreasing Load from Fixed Edge to Zero to 1b/3
Analysis of a Flat Plate under Pressure: Rectangular Plate (Straight Boundary, Constant Thickness) with Three Edges Fixed, One Edge (a) Simply Supported: Uniform Load over Two-Thirds of Plate from Fixed Edge
Analysis of a Flat Plate under Pressure: Rectangular Plate (Straight Boundary, Constant Thickness) with Three Edges Simply Supported, One Edge (b) Free: Uniform Load over Entire Plate
Analysis of a Flat Plate under Pressure: Rectangular Plate (Straight Boundary, Constant Thickness) with Three Edges Simply Supported, One Edge (b) Free: Load Uniformly Increasing along the a Side
Analysis of a Flat Plate under Pressure: Rectangular Plate (Straight Boundary, Constant Thickness) with Three Edges Simply Supported, One Long Edge (a) Fixed: Uniform Load over Entire Plate
Analysis of a Flat Plate under Pressure: Rectangular Plate (Straight Boundary, Constant Thickness) with All Edges Fixed: Uniform Load over a Small Concentric Circle of Radius ro
Analysis of a Flat Plate under Pressure: Rectangular Plate (Straight Boundary, Constant Thickness) with All Edges Fixed: Uniform Load over the Entire Plate
Analysis of a Flat Plate under Pressure: Rectangular Plate (Straight Boundary, Constant Thickness) with All Edges Simply Supported: Uniform over Entire Plate plus Uniform Tension or Compression P Applied to Short Edges
Analysis of a Flat Plate under Pressure: Rectangular Plate (Straight Boundary, Constant Thickness) with All Edges Simply Supported: Uniformly Increasing Loading along Width
Analysis of a Flat Plate under Pressure: Rectangular Plate (Straight Boundary, Constant Thickness) with One Edge Fixed, Opposite Edge Free, Remaining Edges Simply Supported: Uniform Load over One-Third of Plate from Fixed Edge
Analysis of a Flat Plate under Pressure: Rectangular Plate (Straight Boundary, Constant Thickness) with One Edge Fixed, Opposite Edge Free, Remaining Edges Simply Supported: Uniform Load over Two-Thirds of Plate from Fixed Edge
Analysis of a Flat Plate under Pressure: Rectangular Plate (Straight Boundary, Constant Thickness) with One Edge Fixed, Opposite Edge Free, Remaining Edges Simply Supported: Uniformly Decreasing Load from Fixed Edge to Free Edge
Analysis of a Flat Plate under Pressure: Rectangular Plate (Straight Boundary, Constant Thickness) with One Edge Fixed, Opposite Edge Free, Remaining Edges Simply Supported: Uniform Load over Entire Plate
Analysis of a Flat Plate under Pressure: Rectangular Plate (Straight Boundary, Constant Thickness) with One Edge Fixed, Opposite Edge Free, Remaining Edges Simply Supported: Uniformly Decreasing Load from Fixed Edge to Zero to 2b/3
Analysis of a Flat Plate under Pressure: Rectangular Plate (Straight Boundary, Constant Thickness) with Three Edges Fixed, One Edge (a) Free: Uniform Load over Entire Plate
Analysis of a Flat Plate under Pressure: Rectangular Plate (Straight Boundary, Constant Thickness) with Three Edges Fixed, One Edge (a) Free: Uniform Load over One-Third of Plate from Fixed Edge
Analysis of a Flat Plate under Pressure: Rectangular Plate (Straight Boundary, Constant Thickness) with Three Edges Fixed, One Edge (a) Free: Uniform Load over Two-Thirds of Plate from Fixed Edge
Analysis of a Flat Plate under Pressure: Rectangular Plate (Straight Boundary, Constant Thickness) with Three Edges Fixed, One Edge (a) Free: Uniformly Decreasing Load from Fixed Edge to Zero at (1/3)b
Analysis of a Flat Plate under Pressure: Rectangular Plate (Straight Boundary, Constant Thickness) with Three Edges Fixed, One Edge (a) Free: Uniformly Decreasing Load from Fixed Edge to Zero at (2/3)b
Analysis of a Flat Plate under Pressure: Rectangular Plate (Straight Boundary, Constant Thickness) with Three Edges Fixed, One Edge (a) Free: Uniformly Decreasing Load from Fixed Edge to Zero at Free Edge)
Analysis of a Flat Plate under Pressure: Rectangular Plate (Straight Boundary, Constant Thickness) with Three Edges Fixed, One Edge (a) Simply Supported: Uniform Load over Entire Plate
Analysis of a Flat Plate under Pressure: Rectangular Plate (Straight Boundary, Constant Thickness) with Three Edges Fixed, One Edge (a) Simply Supported: Uniform Load over One-Third of Plate from Fixed Edge
Analysis of a Flat Plate under Pressure: Rectangular Plate (Straight Boundary, Constant Thickness) with Three Edges Fixed, One Edge (a) Simply Supported: Uniformly Decreasing Load from the Fixed Edge to Zero at (1/3)b
Analysis of a Flat Plate under Pressure: Rectangular Plate (Straight Boundary, Constant Thickness) with Three Edges Fixed, One Edge (a) Simply Supported: Uniformly Decreasing Load from the Fixed Edge to Zero at (2/3)b
Analysis of a Flat Plate under Pressure: Rectangular Plate (Straight Boundary, Constant Thickness) with Three Edges Simply Supported, One Short Edge (b) Fixed: Uniform Load Over Entire Plate
Analysis of a Flat Plate under Pressure: Rectangular Plate (Straight Boundary, Constant Thickness) with Two Adjacent Edges Fixed, Two Remaining Edges Free: Uniform Load over Entire Plate
Analysis of a Flat Plate under Pressure: Rectangular Plate (Straight Boundary, Constant Thickness) with Two Long Edges Fixed, Two Short Edges Simply Supported: Uniform Load over Entire Plate
Analysis of a Flat Plate under Pressure: Rectangular Plate (Straight Boundary, Constant Thickness) with Two Long Edges Simply Supported, Two Short Edges Fixed: Uniform Load over Entire Plate
Analysis of a Flat Plate under Pressure: Rectangular Plate; All Edges Simply Supported: Uniform Loading over a Small Concentric Circle
Analysis of a Flat Plate under Pressure: Rectangular Plate; All Edges Simply Supported: Uniform Loading over Entire Plate
Analysis of Flat Plate under Pressure: Continuous Plate (Straight Boundary, Constant Thickness) Supported Continuously on an Elastic Foundation of Modulus k: Uniform Load over a Small Circle of Radius r.o, Remote from Edges
Analysis of Flat Plate under Pressure: Continuous Plate (Straight Boundary, Constant Thickness) Supported Continuously on an Elastic Foundation of Modulus k: Uniform Load over a Small Circle of Radius r.o, Adjacent to a Corner
Analysis of Flat Plate under Pressure: Continuous Plate (Straight Boundary, Constant Thickness) Supported Continuously on an Elastic Foundation of Modulus k: Uniform Load over a Small Circle of Radius r.o, Adjacent to Edge but Remote from Corner
Analysis of Flat Plate under Pressure: Continuous Plate (Straight Boundary, Constant Thickness): Equilateral Triangle with All Edges Simply Supported: Uniform Load over Entire Plate
Analysis of Flat Plate under Pressure: Continuous Plate (Straight Boundary, Constant Thickness): Equilateral Triangle with All Edges Simply Supported: Uniform Load over Small Circle of Radius r.o
Analysis of Flat Plate under Pressure: Continuous Plate (Straight Boundary, Constant Thickness): Right-Angle Isosceles Triangle with All Edges Simply Supported: Uniform Load over Entire Plate
Analysis of Flat Plate under Pressure: Continuous Rectangular Plate (Straight Boundary, Constant Thickness) Plate Supported at Equal Intervals a on Circular Supports of Radius r.o: Uniform Load over Entire Surface
Analysis of Flat Plate under Pressure: Parallelogram Plate (Straight Boundary, Constant Thickness) with All Edges Fixed: Uniform Load over Entire Plate
Analysis of Flat Plate under Pressure: Parallelogram Plate (Straight Boundary, Constant Thickness) with All Edges Simply Supported: Uniform Load over Entire Plate
Analysis of Flat Plate under Pressure: Parallelogram Plate (Straight Boundary, Constant Thickness) with Shorter Edges Simply Supported, Longer Edges Free: Uniform Load over Entire Plate
Analysis of Flat Plate under Pressure: Rectangular Plate (Straight Boundary, Constant Thickness) with Two Adjacent Edges Fixed, Two Remaining Edges Free: Uniformly Decreasing Load from z = 0 to z = (2/3)b
Analysis of Flat Plate under Pressure: Rectangular Plate (Straight Boundary, Constant Thickness) with Two Adjacent Edges Fixed, Two Remaining Edges Free: Uniformly Decreasing Load from z = 0 to z = b
Analysis of Flat Plate under Pressure: Rectangular Plate (Straight Boundary, Constant Thickness) with Three Edges Fixed, One Edge (a) Simply Supported: Uniformly Decreasing Load from Fixed Edge to Simply Supported Edge
Analysis of Flat Plate under Pressure: Rectangular Plate (Straight Boundary, Constant Thickness) with Two Adjacent Edges Fixed, Two Remaining Edges Free: Uniform Load over Entire Plate from z = 0 to z = (1/3)b
Analysis of Flat Plate under Pressure: Rectangular Plate (Straight Boundary, Constant Thickness) with Two Adjacent Edges Fixed, Two Remaining Edges Free: Uniform Load over Entire Plate from z = 0 to z = (2/3)b
Analysis of Flat Plate under Pressure: Rectangular Plate (Straight Boundary, Constant Thickness) with Two Adjacent Edges Fixed, Two Remaining Edges Free: Uniformly Decreasing Load from z = 0 to z = (1/3)b
Analysis of Flat Plate under Pressure: Regular Polygon Plate (Straight Boundary, Constant Thickness) with All Edges Fixed: Uniform Load over Entire Plate
Analysis of Flat Plate under Pressure: Regular Polygon Plate (Straight Boundary, Constant Thickness) with All Edges Simply Supported: Uniform Load over Entire Plate
Angular Velocity for Plastic Collapse of a Rotating Annular Disk
Angular Velocity for Plastic Collapse of a Rotating Solid Disk
Angular Velocity for Plastic Collapse of Rotating Rings
Annular Plate with a Distributed Pressure Increasing Linearly from 0 at r.o to q at a, 3A Outer Edge Simply Supported, Inner Edge Free (Imperial Units)
Annular Plate with a Distributed Pressure Increasing Linearly from 0 at r.o to q at a, 3B Outer Edge Simply Supported, Inner Edge Guided (Imperial Units)
Annular Plate with a Distributed Pressure Increasing Linearly from 0 at r.o to q at a, 3C Outer Edge Simply Supported, Inner Edge Simply Supported (Imperial Units)
Annular Plate with a Distributed Pressure Increasing Linearly from 0 at r.o to q at a, 3E Outer Edge Fixed, Inner Edge Free (Imperial Units)
Annular Plate with a Distributed Pressure Increasing Linearly from 0 at r.o to q at a, 3F Outer Edge Fixed, Inner Edge Guided (Imperial Units)
Annular Plate with a Distributed Pressure Increasing Linearly from 0 at r.o to q at a, 3G Outer Edge Fixed, Inner Edge Simply Supported (Imperial Units)
Annular Plate with a Distributed Pressure Increasing Linearly from 0 at r.o to q at a, 3H Outer Edge Fixed, Inner Edge Fixed (Imperial Units)
Annular Plate with a Distributed Pressure Increasing Linearly from 0 at r.o to q at a, 3I Outer Edge Guided, Inner Edge Simply Supported (Imperial Units)
Annular Plate with a Distributed Pressure Increasing Linearly from 0 at r.o to q at a, 3J Outer Edge Guided, Inner Edge Fixed (Imperial Units)
Annular Plate with a Distributed Pressure Increasing Linearly from 0 at r.o to q at a, 3K Outer Edge Free, Inner Edge Simply Supported (Imperial Units)
Annular Plate with a Distributed Pressure Increasing Linearly from 0 at r.o to q at a, 3L Outer Edge Free, Inner Edge Fixed (Imperial Units)
Annular Plate with a Uniform Annular Line Load w at a Radius r.o, 1A Outer Edge Simply Supported, Inner Edge Free (Imperial Units)
Annular Plate with a Uniform Annular Line Load w at a Radius r.o, 1B Outer Edge Simply Supported, Inner Edge Guided (Imperial Units)
Annular Plate with a Uniform Annular Line Load w at a Radius r.o, 1C Outer Edge Simply Supported, Inner Edge Simply Supported (Imperial Units)
Annular Plate with a Uniform Annular Line Load w at a Radius r.o, 1D Outer Edge Simply Supported, Inner Edge Fixed (Imperial Units)
Annular Plate with a Uniform Annular Line Load w at a Radius r.o, 1E Outer Edge Fixed, Inner Edge Free (Imperial Units)
Annular Plate with a Uniform Annular Line Load w at a Radius r.o, 1F Outer Edge Fixed, Inner Edge Guided (Imperial Units)
Annular Plate with a Uniform Annular Line Load w at a Radius r.o, 1G Outer Edge Fixed, Inner Edge Simply Supported (Imperial Units)
Annular Plate with a Uniform Annular Line Load w at a Radius r.o, 1H Outer Edge Fixed, Inner Edge Fixed (Imperial Units)
Annular Plate with a Uniform Annular Line Load w at a Radius r.o, 1I Outer Edge Guided, Inner Edge Simply Supported (Imperial Units)
Annular Plate with a Uniform Annular Line Load w at a Radius r.o, 1J Outer Edge Guided, Inner Edge Fixed (Imperial Units)
Annular Plate with a Uniform Annular Line Load w at a Radius r.o, 1K Outer Edge Free, Inner Edge Simply Supported (Imperial Units)
Annular Plate with a Uniform Annular Line Load w at a Radius r.o, 1L Outer Edge Free, Inner Edge Fixed (Imperial Units)
Annular Plate with a Uniform Temperature Differential ΔT between the Bottom and Top Surface from r.o to a, Outer Edge Simply Supported, Inner Edge Free
Annular Plate with a Uniform Temperature Differential ΔT between the Bottom and Top Surfaces from r.o to a, 8C Outer Edge Simply Supported, Inner Edge Simply Supported
Annular Plate with a Uniform Temperature Differential ΔT between the Bottom and Top Surfaces from r.o to a, 8D Outer Edge Simply Supported, Inner Edge Fixed
Annular Plate with a Uniform Temperature Differential ΔT between the Bottom and Top Surfaces from r.o to a, 8E Outer Edge Fixed, Inner Edge Free
Annular Plate with a Uniform Temperature Differential ΔT between the Bottom and Top Surfaces from r.o to a, 8F Outer Edge Fixed, Inner Edge Guided
Annular Plate with a Uniform Temperature Differential ΔT between the Bottom and Top Surfaces from r.o to a, 8G Outer Edge Fixed, Inner Edge Simply Supported
Annular Plate with a Uniform Temperature Differential ΔT between the Bottom and Top Surfaces from r.o to a, 8H Outer Edge Fixed, Inner Edge Fixed
Annular Plate with a Uniform Temperature Differential ΔT between the Bottom and Top Surfaces from r.o to a, Outer Edge Simply Supported, Inner Edge Guided
Annular Plate with a Uniformly Distributed Pressure q over a Portion from r.o to a, 2A Outer Edge Simply Supported, Inner Edge Free (Imperial Units)
Annular Plate with a Uniformly Distributed Pressure q over a Portion from r.o to a, 2B Outer Edge Simply Supported, Inner Edge Guided (Imperial Units)
Annular Plate with a Uniformly Distributed Pressure q over a Portion from r.o to a, 2C Outer Edge Simply Supported, Inner Edge Simply Supported (Imperial Units)
Annular Plate with a Uniformly Distributed Pressure q over a Portion from r.o to a, 2E Outer Edge Fixed, Inner Edge Free (Imperial Units)
Annular Plate with a Uniformly Distributed Pressure q over Portion from r.o to a, 2F Outer Edge Fixed, Inner Edge Guided (Imperial Units)
Annular Plate with a Uniformly Distributed Pressure q over Portion from r.o to a, 2G Outer Edge Fixed, Inner Edge Simply Supported (Imperial Units)
Annular Plate with a Uniformly Distributed Pressure q over Portion from r.o to a, 2H Outer Edge Fixed, Inner Edge Fixed (Imperial Units)
Annular Plate with a Uniformly Distributed Pressure q over Portion from r.o to a, 2I Outer Edge Guided, Inner Edge Simply Supported (Imperial Units)
Annular Plate with a Uniformly Distributed Pressure q over Portion from r.o to a, 2J Outer Edge Guided, Inner Edge Fixed (Imperial Units)
Annular Plate with a Uniformly Distributed Pressure q over Portion from r.o to a, 2K Outer Edge Free, Inner Edge Simply Supported (Imperial Units)
Annular Plate with a Uniformly Distributed Pressure q over Portion from r.o to a, 2L Outer Edge Free, Inner Edge Fixed (Imperial Units)
Annular Plate with a Uniformly Distributed Pressure q over Portion r.o to a, 2D Outer Edge Simply Supported, Inner Edge Fixed (Imperial Units)
Annular Plate with Distributed Pressure Increasing Parabolically from 0 at r.o to q at a, 4A Outer Edge Simply Supported, Inner Edge Free (Imperial Units)
Annular Plate with Distributed Pressure Increasing Parabolically from 0 at r.o to q at a, 4B Outer Edge Simply Supported, Inner Edge Guided (Imperial Units)
Annular Plate with Distributed Pressure Increasing Parabolically from 0 at r.o to q at a, 4D Outer Edge Simply Supported, Inner Edge Fixed (Imperial Units)
Annular Plate with Distributed Pressure Increasing Parabolically from 0 at r.o to q at a, 4E Outer Edge Fixed, Inner Edge Free (Imperial Units)
Annular Plate with Distributed Pressure Increasing Parabolically from 0 at r.o to q at a, 4F, Outer Edge Fixed, Inner Edge Guided (Imperial Units)
Annular Plate with Distributed Pressure Increasing Parabolically from 0 at r.o to q at a, 4G Outer Edge Fixed, Inner Edge Simply Supported (Imperial Units)
Annular Plate with Distributed Pressure Increasing Parabolically from 0 at r.o to q at a, 4H Outer Edge Fixed, Inner Edge Fixed (Imperial Units)
Annular Plate with Distributed Pressure Increasing Parabolically from 0 at r.o to q at a, 4I Outer Edge Guided, Inner Edge Simply Supported (Imperial Units)
Annular Plate with Distributed Pressure Increasing Parabolically from 0 at r.o to q at a, 4J Outer Edge Guided, Inner Edge Fixed (Imperial Units)
Annular Plate with Distributed Pressure Increasing Parabolically from 0 at r.o to q at a, 4K Outer Edge Free, Inner Edge Simply Supported (Imperial Units)
Annular Plate with Distributed Pressure Increasing Parabolically from 0 at r.o to q at a, 4L Outer Edge Free, Inner Edge Fixed (Imperial Units)
Annular Plate with Distributed Pressure Increasing Parabolically from 0 at r.o to q at a, 4C Outer Edge Simply Supported, Inner Edge Simply Supported (Imperial Units)
Annular Plate with Externally Applied Change in Slope θ.o on an Annulus with a Radius r.o, 6A Outer Edge Simply Supported, Inner Edge Free (Imperial Units)
Annular Plate with Externally Applied Change in Slope θ.o on an Annulus with Radius r.o, 6D Outer Edge Simply Supported, Inner Edge Fixed
Annular Plate with Externally Applied Change in Slope θ.o on an Annulus with Radius r.o, 6B Outer Edge Simply Supported, Inner Edge Guided
Annular Plate with Externally Applied Change in Slope θ.o on an Annulus with Radius r.o, 6C Outer Edge Simply Supported, Inner Edge Simply Supported
Annular Plate with Externally Applied Change in Slope θ.o on an Annulus with Radius r.o, 6E Outer Edge Fixed, Inner Edge Free
Annular Plate with Externally Applied Change in Slope θ.o on an Annulus with Radius r.o, 6F Outer Edge Fixed, Inner Edge Guided
Annular Plate with Externally Applied Change in Slope θ.o on an Annulus with Radius r.o, 6G Outer Edge Fixed, Inner Edge Simply Supported
Annular Plate with Externally Applied Change in Slope θ.o on an Annulus with Radius r.o, 6H Outer Edge Fixed, Inner Edge Fixed
Annular Plate with Externally Applied Vertical Deformation y.o at Radius r.o, 7C Outer Edge Simply Supported, Inner Edge Simply Supported
Annular Plate with Externally Applied Vertical Deformation y.o at Radius r.o, 7D Outer Edge Simply Supported, Inner Edge Fixed
Annular Plate with Externally Applied Vertical Deformation y.o at Radius r.o, 7G Outer Edge Fixed, Inner Edge Simply Supported
Annular Plate with Externally Applied Vertical Deformation y.o at Radius r.o, Outer Edge Fixed, Inner Edge Fixed
Annular Plate with Uniform Line Moment M.o at r.o, 5C Outer Edge Simply Supported, Inner Edge Simply Supported (Imperial Units)
Annular Plate with Uniform Line Moment M.o at r.o, 5A Outer Edge Simply Supported, Inner Edge Free (Imperial Units)
Annular Plate with Uniform Line Moment M.o at r.o, 5B Outer Edge Simply Supported, Inner Edge Guided (Imperial Units)
Annular Plate with Uniform Line Moment M.o at r.o, 5D Outer Edge Simply Supported, Inner Edge Fixed (Imperial Units)
Annular Plate with Uniform Line Moment M.o at r.o, 5E Outer Edge Fixed, Inner Edge Free (Imperial Units)
Annular Plate with Uniform Line Moment M.o at r.o, 5F Outer Edge Fixed, Inner Edge Guided (Imperial Units)
Annular Plate with Uniform Line Moment M.o at r.o, 5G Outer Edge Fixed, Inner Edge Simply Supported (Imperial Units)
Annular Plate with Uniform Line Moment M.o at r.o, 5H Outer Edge Fixed, Inner Edge Fixed (Imperial Units)
API 520 – Pressure Relief Devices – Reaction Forces due to Valve Discharge
ASCE 7 – Determination of Seismic Loads on Pressure Vessels
ASCE 7 – Determination of Wind Loads on Pressure Vessels
ASME BPVC – API 520 – Pressure Relief Devices – Sizing and Selection – Saturated Water Valve Sizing
ASME BPVC – API 520 – Pressure Relief Devices – Sizing and Selection – Sizing for Liquids
ASME BPVC – API 520 – Pressure Relief Devices – Sizing and Selection – Sizing for Mixed Phases
ASME BPVC – API 520 – Pressure Relief Devices – Sizing and Selection – Sizing for Steam
ASME BPVC – API 520 – Pressure Relief Devices – Sizing and Selection – Sizing for Thermal Expansion of Trapped Liquids
ASME BPVC – API 520 – Pressure Relief Devices – Sizing and Selection – Sizing for Vapors and Gases
ASME BPVC – API 520 – Pressure Relief Devices – Sizing and Selection – Sizing Multiple Valves
ASME BPVC – Pressure Relief Devices – Capacity Requirements
ASME BPVX – API 520 – Pressure Relief Devices – Sizing and Selection – Sizing for Air
ASME VIII Div.1 - Bellows Expansion Joints – Toroidal Bellows Expansion Joint
ASME VIII Div.1 - Layered Vessels – Layered Cylindrical Shell
ASME VIII Div.1 – Allowable Stress Calculation
ASME VIII Div.1 – Bellows Expansion Joints – U-Shaped Unreinforced Bellows Expansion Joint
ASME VIII Div.1 – Braced and Stayed Surfaces
ASME VIII Div.1 – Clamped Connections – Flange and Clamp Design Procedure
ASME VIII Div.1 – Evaluation of Vessels Outside of Tolerance – Local Thin Area
ASME VIII Div.1 – Evaluation of Vessels outside of Tolerance – Shell Tolerances
ASME VIII Div.1 – Flanged Joints – Integral Type
ASME VIII Div.1 – Flanged Joints – Loose Type
ASME VIII Div.1 – Flat Unstayed Circular Heads Attached by Bolts
ASME VIII Div.1 – Flat Unstayed Noncircular Heads Attached by Welding
ASME VIII Div.1 – Integral Flat Head with a Centrally Located Opening
ASME VIII Div.1 – Jacketed Vessels – Half-Pipe Jackets
ASME VIII Div.1 – Jacketed Vessels – Partial Jackets
ASME VIII Div.1 – Layered Vessel – Layered Hemispherical Head
ASME VIII Div.1 – Layered Vessels – Maximum Permissible Gap in a Layered Cylindrical Shell
ASME VIII Div.1 – Ligament Efficiency
ASME VIII Div.1 – Noncircular Vessels – Reinforced Vessel of Rectangular Cross Section
ASME VIII Div.1 – Noncircular Vessels – Unreinforced Vessels of Rectangular Cross Section
ASME VIII Div.1 – Openings in Shells and Heads – Hillside Nozzles in Cylindrical Shells
ASME VIII Div.1 – Openings in Shells and Heads – Radial Nozzle in Cylindrical Shell – Nozzle a Neck Abutting the Vessel Wall
ASME VIII Div.1 – Openings in Shells and Heads – Radial Nozzle in Cylindrical Shell – Nozzle a Neck Inserted through the Vessel Wall
ASME VIII Div.1 – Openings in Shells and Heads – Radial Nozzle in Cylindrical Shell – Pad-Reinforced Radial Nozzle
ASME VIII Div.1 – Openings in Shells and Heads – Radial Nozzle in Ellipsoidal Head – Nozzle a Neck Inserted through the Vessel Wall
ASME VIII Div.1 – Openings in Shells and Heads – Radial Nozzle in Ellipsoidal Head – Nozzle with inside Projection
ASME VIII Div.1 – Pressure Testing Requirements – Determination of Hydrostatic Test Pressure
ASME VIII Div.1 – Pressure Testing Requirements – Determination of Pneumatic Test Pressure
ASME VIII Div.1 – Shells under External Pressure – Conical Transitions without a Knuckle
ASME VIII Div.1 – Shells under External Pressure – Cylindrical Shells
ASME VIII Div.1 – Shells under External Pressure – Conical Shells
ASME VIII Div.1 – Shells under External Pressure – Conical Transitions with a Knuckle
ASME VIII Div.1 – Shells under External Pressure – Conical Transitions without a Knuckle
ASME VIII Div.1 – Shells under External Pressure – Elliptical Heads
ASME VIII Div.1 – Shells under External Pressure – Spherical Shells and Hemispherical Heads
ASME VIII Div.1 – Shells under External Pressure – Torispherical Heads
ASME VIII Div.1 – Shells under Internal Pressure – Conical Transitions with a Knuckle
ASME VIII Div.1 – Shells under Internal Pressure – Conical Shells
ASME VIII Div.1 – Shells under Internal Pressure – Cylindrical Shell
ASME VIII Div.1 – Shells under Internal Pressure – Elliptical Head
ASME VIII Div.1 – Shells under Internal Pressure – Spherical Shells
ASME VIII Div.1 – Shells under Internal Pressure – Torispherical Head
ASME VIII Div.1 – Spherically Dished Bolted Covers – Thickness Calculation for a Type D Head
ASME VIII Div.1 – Supports and Attachments – Horizontal Vessel with Zick’s Analysis
ASME VIII Div.1 – Supports and Attachments – Vertical Vessel, Skirt Design
ASME VIII Div.1 – Tube-to-Tubesheet Welds – Full Strength Welds
ASME VIII Div.1 – Tube-to-Tubesheet Welds – Partial Strength Welds
ASME VIII Div.1 – Tubesheets in Shell and Tube Heat Exchangers – Fixed Tubesheet Exchanger (ASME VIII-1, Fig. UHX-13.1, Configuration A)
ASME VIII Div.1 – Tubesheets in Shell and Tube Heat Exchangers – Fixed Tubesheet Exchanger (ASME VIII-1, Fig. UHX-13.1, Configuration B)
ASME VIII Div.1 – Tubesheets in Shell and Tube Heat Exchangers – Fixed Tubesheet Exchanger (ASME VIII-1, Fig. UHX-13.1, Configuration D)
ASME VIII Div.1 – Tubesheets in Shell and Tube Heat Exchangers – Stationary Tubesheet (ASME VIII-1, Fig. UHX-14.2, Configuration A)
ASME VIII Div.1 – Tubesheets in Shell and Tube Heat Exchangers – Stationary Tubesheet (ASME VIII-1, Fig. UHX-14.2, Configuration B)
ASME VIII Div.1 – Tubesheets in Shell and Tube Heat Exchangers – Stationary Tubesheet (ASME VIII-1, Fig. UHX-14.2, Configuration D)
ASME VIII Div.1 – Tubesheets in Shell and Tube Heat Exchangers – Stationary Tubesheet (ASME VIII-1, Fig. UHX-14.2, Configuration E)
ASME VIII Div.1 – Tubesheets in Shell and Tube Heat Exchangers – U-Tube Tubesheet (ASME VIII-1, Fig. UHX-12.1, Configuration B)
ASME VIII Div.1 – Tubesheets in Shell and Tube Heat Exchangers – U-Tube Tubesheet (ASME VIII-1, Fig. UHX-12.1, Configuration A)
ASME VIII Div.1 – Tubesheets in Shell and Tube Heat Exchangers – U-Tube Tubesheet (ASME VIII-1, Fig. UHX-12.1, Configuration D)
ASME VIII Div.1 – Tubesheets in Shell and Tube Heat Exchangers – U-Tube Tubesheet (ASME VIII-1, Fig. UHX-12.1, Configuration E)
Average Shear Stress in the Key of a Rigid Coupling
Axial Compressive Load Plus a Uniform Temperature Variation from Top to Bottom in the Portion from a to l; t is the Thickness of the Beam: 6.A Left End Free, Right End Fixed (Cantilever) (Imperial Units)
Axial Compressive Load Plus a Uniform Temperature Variation from Top to Bottom in the Portion from a to l; t is the Thickness of the Beam: 6.B Left End Guided, Right End Fixed (Imperial Units)
Axial Compressive Load Plus a Uniform Temperature Variation from Top to Bottom in the Portion from a to l; t is the Thickness of the Beam: 6.C Left End Simply Supported, Right End Fixed (Imperial Units)
Axial Compressive Load Plus a Uniform Temperature Variation from Top to Bottom in the Portion from a to l; t is the Thickness of the Beam: 6.D Left End Fixed, Right End Fixed (Imperial Units)
Axial Compressive Load Plus a Uniform Temperature Variation from Top to Bottom in the Portion from a to l; t is the Thickness of the Beam: 6.E Left End Simply Supported, Right End Simply Supported (Imperial Units)
Axial Compressive Load Plus a Uniform Temperature Variation from Top to Bottom in the Portion from a to l; t is the Thickness of the Beam: 6.F Left End Guided, Right End Simply Supported (Imperial Units)
Axial Compressive Load Plus Concentrated Intermediate Lateral Load, 1.A Left End Free, Right End Fixed (Cantilever) (Imperial Units)
Axial Compressive Load Plus Concentrated Intermediate Lateral Load, 1.B Left End Guided, Right End Fixed (Imperial Units)
Axial Compressive Load Plus Concentrated Intermediate Lateral Load, 1.C Left End Simply Supported, Right End Fixed (Imperial Units)
Axial Compressive Load Plus Concentrated Intermediate Lateral Load, 1.D Left End Fixed, Right End Fixed (Imperial Units)
Axial Compressive Load Plus Concentrated Intermediate Lateral Load, 1.E Left End Simply Supported, Right End Simply Supported (Imperial Units)
Axial Compressive Load Plus Concentrated Intermediate Lateral Load, 1.F Left End Guided, Right End Simply Supported (Imperial Units)
Axial Compressive Load Plus Concentrated Intermediate Moment, 3.A Left End Free, Right End Fixed (Cantilever) (Imperial Units)
Axial Compressive Load Plus Concentrated Intermediate Moment, 3.B Left End Guided, Right End Fixed (Imperial Units)
Axial Compressive Load Plus Concentrated Intermediate Moment, 3.C Left End Simply Supported, Right End Fixed (Imperial Units)
Axial Compressive Load Plus Concentrated Intermediate Moment, 3.D Left End Fixed, Right End Fixed (Imperial Units)
Axial Compressive Load Plus Concentrated Intermediate Moment, 3.E Left End Simply Supported, Right End Simply Supported (Imperial Units)
Axial Compressive Load Plus Concentrated Intermediate Moment, 3.F Left End Guided, Right End Simply Supported (Imperial Units)
Axial Compressive Load Plus Distributed Lateral Load, 2.A Left End Free, Right End Fixed (Cantilever) (Imperial Units)
Axial Compressive Load Plus Distributed Lateral Load, 2.B Left End Guided, Right End Fixed (Imperial Units)
Axial Compressive Load Plus Distributed Lateral Load, 2.C Left End Simply Supported, Right End Fixed (Imperial Units)
Axial Compressive Load Plus Distributed Lateral Load, 2.D Left End Fixed, Right End Fixed (Imperial Units)
Axial Compressive Load Plus Distributed Lateral Load, 2.E Left End Simple Supported, Right End Simply Supported (Imperial Units)
Axial Compressive Load Plus Distributed Lateral Load, 2.F Left End Guided, Right End Simply Supported (Imperial Units)
Axial Compressive Load Plus Externally Created Concentrated Angular Displacement, 4.A Left End Free, Right End Fixed (Cantilever) (Imperial Units)
Axial Compressive Load Plus Externally Created Concentrated Angular Displacement, 4.B Left End Guided, Right End Fixed (Imperial Units)
Axial Compressive Load Plus Externally Created Concentrated Angular Displacement, 4.C Left End Simply Supported, Right End Fixed (Imperial Units)
Axial Compressive Load Plus Externally Created Concentrated Angular Displacement, 4.D Left End Fixed, Right End Fixed (Imperial Units)
Axial Compressive Load Plus Externally Created Concentrated Angular Displacement, 4.E Left End Simply Supported, Right End Simply Supported (Imperial Units)
Axial Compressive Load Plus Externally Created Concentrated Angular Displacement, 4.F Left End Guided, Right End Simply Supported (Imperial Units)
Axial Compressive Load Plus Externally Created Concentrated Lateral Displacement, 5.A Left End Free, Right End Fixed (Cantilever) (Imperial Units)
Axial Compressive Load Plus Externally Created Concentrated Lateral Displacement, 5.B Left End Guided, Right End Fixed (Imperial Units)
Axial Compressive Load Plus Externally Created Concentrated Lateral Displacement, 5.C Left End Simply Supported, Right End Fixed (Imperial Units)
Axial Compressive Load Plus Externally Created Concentrated Lateral Displacement, 5.D Left End Fixed, Right End Fixed (Imperial Units)
Axial Compressive Load Plus Externally Created Concentrated Lateral Displacement, 5.E Left End Simply Supported, Right End Simply Supported (Imperial Units)
Axial Compressive Load Plus Externally Created Concentrated Lateral Displacement, 5.F Left End Guided, Right End Simply Supported (Imperial Units)
Axial Force on a Worm Gear
Axial Tensile Load Plus Lateral Loading: 1.A: Concentrated Lateral Load with Left End Free and Right End Fixed (Cantilever) (Imperial Units)
Axial Tensile Load Plus Lateral Loading: 1.B: Concentrated Lateral Load with Left End Guided and Right End Fixed (Imperial Units)
Axial Tensile Load Plus Lateral Loading: 1.C: Concentrated Lateral Load with Left End Simply Supported and Right End Fixed (Imperial Units)
Axial Tensile Load Plus Lateral Loading: 1.D: Concentrated Lateral Load with Left End Fixed and Right End Fixed (Imperial Units)
Axial Tensile Load Plus Lateral Loading: 1.E: Concentrated Lateral Load with Left End Simply Supported and Right End Simply Supported (Imperial Units)
Axial Tensile Load Plus Lateral Loading: 1.F: Concentrated Lateral Load with Left End Guided and Right End Simply Supported (Imperial Units)
Axial Tensile Load Plus Lateral Loading: 2.A: Distributed Lateral Load with Left End Free and Right End Fixed (Cantilever) (Imperial Units)
Axial Tensile Load Plus Lateral Loading: 2.B: Distributed Lateral Load with Left End Guided and Right End Fixed (Imperial Units)
Axial Tensile Load Plus Lateral Loading: 2.C: Distributed Lateral Load with Left End Simply Supported and Right End Fixed (Imperial Units)
Axial Tensile Load Plus Lateral Loading: 2.D: Distributed Lateral Load with Left End Fixed and Right End Fixed (Imperial Units)
Axial Tensile Load Plus Lateral Loading: 2.E: Distributed Lateral Load with Left End Simply Supported and Right End Simply Supported (Imperial Units)
Axial Tensile Load Plus Lateral Loading: 2.F: Distributed Lateral Load with Left End Guided and Right End Simply Supported (Imperial Units)
Axial Tensile Load Plus Lateral Loading: 3.A: Concentrated Moment with Left End Free and Right End Fixed (Cantilever) (Imperial Units)
Axial Tensile Load Plus Lateral Loading: 3.B: Concentrated Moment with Left End Guided and Right End Fixed (Imperial Units)
Axial Tensile Load Plus Lateral Loading: 3.C: Concentrated Moment with Left End Simply Supported and Right End Fixed (Imperial Units)
Axial Tensile Load Plus Lateral Loading: 3.D: Concentrated Moment with Left End Fixed and Right End Fixed (Imperial Units)
Axial Tensile Load Plus Lateral Loading: 3.E: Concentrated Moment with Left End Simply Supported and Right End Simply Supported (Imperial Units)
Axial Tensile Load Plus Lateral Loading: 3.F: Concentrated Moment with Left End Guided and Right End Simply Supported (Imperial Units)
Axial Tensile Load Plus Lateral Loading: 4.A: Concentrated Angular Displacement with Left End Free and Right End Fixed (Cantilever) (Imperial Units)
Axial Tensile Load Plus Lateral Loading: 4.B: Concentrated Angular Displacement with Left End Guided and Right End Fixed (Imperial Units)
Axial Tensile Load Plus Lateral Loading: 4.C: Concentrated Angular Displacement with Left End Simply Supported and Right End Fixed (Imperial Units)
Axial Tensile Load Plus Lateral Loading: 4.D: Concentrated Angular Displacement with Left End Fixed and Right End Fixed (Imperial Units)
Axial Tensile Load Plus Lateral Loading: 4.E: Concentrated Angular Displacement with Left End Simply Supported and Right End Simply Supported (Imperial Units)
Axial Tensile Load Plus Lateral Loading: 4.F: Concentrated Angular Displacement with Left End Guided and Right End Simply Supported (Imperial Units)
Axial Tensile Load Plus Lateral Loading: 5.A: Concentrated Lateral Displacement with Left End Free and Right End Fixed (Cantilever) (Imperial Units)
Axial Tensile Load Plus Lateral Loading: 5.B: Concentrated Lateral Displacement with Left End Guided and Right End Fixed (Imperial Units)
Axial Tensile Load Plus Lateral Loading: 5.C: Concentrated Lateral Displacement with Left End Simply Supported and Right End Fixed (Imperial Units)
Axial Tensile Load Plus Lateral Loading: 5.D: Concentrated Lateral Displacement with Left End Fixed and Right End Fixed (Imperial Units)
Axial Tensile Load Plus Lateral Loading: 5.E: Concentrated Lateral Displacement with Left End Simply Supported and Right End Simply Supported (Imperial Units)
Axial Tensile Load Plus Lateral Loading: 5.F: Concentrated Lateral Displacement with Left End Guided and Right End Simply Supported (Imperial Units)
Axial Tensile Load Plus Lateral Loading: 6.A: Uniform Temperature Variation with Left End Free and Right End Fixed (Imperial Units)
Axial Tensile Load Plus Lateral Loading: 6.B: Uniform Temperature Variation with Left End Guided and Right End Fixed (Imperial Units)
Axial Tensile Load Plus Lateral Loading: 6.C: Uniform Temperature Variation with Left End Simply Supported and Right End Fixed (Imperial Units)
Axial Tensile Load Plus Lateral Loading: 6.D: Uniform Temperature Variation with Left End Fixed and Right End Fixed (Imperial Units)
Axial Tensile Load Plus Lateral Loading: 6.E: Uniform Temperature Variation with Left End Simply Supported and Right End Simply Supported (Imperial Units)
Axial Tensile Load Plus Lateral Loading: 6.F: Uniform Temperature Variation with Left End Guided and Right End Simply Supported (Imperial Units)
Ball Bearing Static Equivalent Load
Base Helix Angle of a Helical Gear
Base Pitch of a Helical Gear
Basic Load Rating for a Ball Bearing with a Diameter Less than 1 Inch
Basic Load Rating for a Ball Bearing with a Diameter More than 1 Inch
Basic Load Rating for a Roller Bearing (Bearing Capacity)
Basic Rating Life of a Ball Bearing in Hours (L10 Life)
Basic Rating Life of a Ball Bearing in Millions of Revolutions (L10 Life)
Bearing Stress in a Rigid Coupling
Bending Moment at Any Section in a Cantilever Beam Carrying a Uniformly Distributed Load
Bending Moment at Any Section in a Simply Supported Beam Carrying a Uniformly Distributed Load
Bending Moment in a Simply Supported Beam Carrying a Concentrated Lateral Load
Bending Moment in a Simply Supported Beam When the Load is Increasing Uniformly from One Support to Another
Bending Moment in a Simply Supported Beam When the Load is Increasing Uniformly from Supports to the Center of the Span
Bending Stress in a Spoke of a Rim-Type Flywheel
Bending Stress in Helical Extension Spring Hooks
Biot Number
Blackbody Emissive Power
Bolted Connections: 2D Bolt Group Analysis
Bolted Connections: Bolt Bending
Bolted Connections: Bolt Preload
Bolted Connections: Bolt Thread Undergoing Pull Through
Bolted Connections: Combined Shear and Tension
Bolted Connections: Effects on Plates
Buckling of Columns with Stable Cross Sections: Beam Column Failure
Buckling of Columns with Stable Cross Sections: Elastic Primary Failure
Buckling of Columns with Stable Cross Sections: Inelastic Primary Failure
Buckling of Curved Plates: Compression Buckling of Long Curved Plates
Buckling of Curved Plates: Interaction of Combined Compression and Shear
Buckling of Curved Plates: Shear Buckling of Long Curved Plates
Buckling of Curved Plates: Shear Buckling of Wide Curved Plates
Buckling of Flange: Compression Buckling with Clamped Edges
Buckling of Flange: Compression Buckling with Simply Supported Edges
Buckling of Flat Plates: Interaction of Combined Compression and Bending Buckling
Buckling of Flat Plates: Interaction of Combined Compression and Shear Buckling
Buckling of Flat Plates: Interaction of Combined Shear and Bending Buckling
Buckling of Flat Plates: Bending Buckling, Simply Supported Edges
Buckling of Flat Plates: Compression Buckling, Clamped Edges
Buckling of Flat Plates: Compression Buckling, Simply Supported Edges
Buckling of Flat Plates: Shear Buckling, Clamped Edges
Buckling of Flat Plates: Shear Buckling, Simply Supported Edges
Carnot Power Requirement
Centroidal Distance of Rigid Coupling
Chilton-Colburn J-Factor
Circumferential Strain in a Thin Spherical Shell under Internal Pressure
Circumferential Stress in the Thin Cylindrical Shell of a Circular Cross Section
Coefficient of Performance
Colburn J-Factor for Turbulent Flow in Conduits
Compression Work
Compressor Power Requirement
Concentrated End Load, 8 Left End Free (Imperial Units)
Concentrated End Moment, 9 Left End Free (Imperial Units)
Concentrated Intermediate Load, 1.A Left End Free (Imperial Units)
Concentrated Intermediate Load, 1.A Left End Free, Right End Free (Imperial Units)
Concentrated Intermediate Load, 1.B Left End Free, Right End Guided (Imperial Units)
Concentrated Intermediate Load, 1.B Left End Guided (Imperial Units)
Concentrated Intermediate Load, 1.C Left End Free, Right End Simply Supported (Imperial Units)
Concentrated Intermediate Load, 1.C Left End Simply Supported (Imperial Units)
Concentrated Intermediate Load, 1.D Left End Fixed (Imperial Units)
Concentrated Intermediate Load, 1.D Left End Free, Right End Fixed (Imperial Units)
Concentrated Intermediate Load, 1.E Left End Guided, Right End Free (Imperial Units)
Concentrated Intermediate Load, 1.F Left End Guided, Right End Guided (Imperial Units)
Concentrated Intermediate Load, 1.G Left End Guided, Right End Simply Supported (Imperial Units)
Concentrated Intermediate Load, 1.H Left End Guided, Right End Fixed (Imperial Units)
Concentrated Intermediate Load, 1.I Left End Simply Supported, Right End Free (Imperial Units)
Concentrated Intermediate Load, 1.J Left End Simply Supported, Right End Guided (Imperial Units)
Concentrated Intermediate Load, 1.K Left End Simply Supported, Right End Simply Supported (Imperial Units)
Concentrated Intermediate Load, 1.L Left End Simply Supported, Right End Fixed (Imperial Units)
Concentrated Intermediate Load, 1.M Left End Fixed, Right End Free (Imperial Units)
Concentrated Intermediate Load, 1.N Left End Fixed, Right End Guided (Imperial Units)
Concentrated Intermediate Load, 1.O Left End Fixed, Right End Simply Supported (Imperial Units)
Concentrated Intermediate Load, 1.P Left End Fixed, Right End Fixed (Imperial Units)
Concentrated Intermediate Moment, 4.A Left End Free (Imperial Units)
Concentrated Intermediate Moment, 4.A Left End Free, Right End Free (Imperial Units)
Concentrated Intermediate Moment, 4.B Left End Free, Right End Guided (Imperial Units)
Concentrated Intermediate Moment, 4.B Left End Guided (Imperial Units)
Concentrated Intermediate Moment, 4.C Left End Free, Right End Simply Supported (Imperial Units)
Concentrated Intermediate Moment, 4.C Left End Simply Supported (Imperial Units)
Concentrated Intermediate Moment, 4.D Left End Fixed (Imperial Units)
Concentrated Intermediate Moment, 4.D Left End Free, Right End Fixed (Imperial Units)
Concentrated Intermediate Moment, 4.E Left End Guided, Right End Free (Imperial Units)
Concentrated Intermediate Moment, 4.F Left End Guided, Right End Guided (Imperial Units)
Concentrated Intermediate Moment, 4.G Left End Guided, Right End Simply Supported (Imperial Units)
Concentrated Intermediate Moment, 4.H Left End Guided, Right End Fixed (Imperial Units)
Concentrated Intermediate Moment, 4.I Left End Simply Supported, Right End Free (Imperial Units)
Concentrated Intermediate Moment, 4.J Left End Simply Supported, Right End Guided (Imperial Units)
Concentrated Intermediate Moment, 4.K Left End Simply Supported, Right End Simply Supported (Imperial Units)
Concentrated Intermediate Moment, 4.L Left End Simply Supported, Right End Fixed (Imperial Units)
Concentrated Intermediate Moment, 4.M Left End Fixed, Right End Free (Imperial Units)
Concentrated Intermediate Moment, 4.N Left End Fixed, Right End Guided (Imperial Units)
Concentrated Intermediate Moment, 4.O Left End Fixed, Right End Simply Supported (Imperial Units)
Concentrated Intermediate Moment, 4.P Left End Fixed, Right End Fixed (Imperial Units)
Concentrated Load, 10 (Imperial Units)
Concentrated Moment, 11 (Imperial Units)
Conduction Heat Flux
Conductive Resistance
Convection
Convection Heat Flux
Convective Resistance
Deflection in a Simply Supported Beam Carrying a Concentrated Lateral Load
Degree of Saturation
Density of a Moist Air Sample, First Equation
Density of a Moist Air Sample, Second Equation
Diameter of a Shaft Subjected to Simple Bending in Static Loading
Diameter of a Shaft Subjected to Simple Torsion in Static Loading
Diameter of Stationary Solid Shaft Subjected to Combined Torsion and Bending
Diffusion Coefficient of Moist Air
Distortion Energy Theory
Efficiency of a Square Threaded Power Screw
Efficiency of a Worm Gear Drive
EN 13445 Additional Nonpressure Loads – Local Loads on Nozzles in Cylindrical Shells
EN 13445 Additional Nonpressure Loads – Local Loads on Nozzles in Spherical Shells
EN 13445 Additional Nonpressure Loads – Vertical Vessels on Bracket Supports
EN 13445 Flanges – Full Face Flanges with Metal-to-Metal Contact
EN 13445 Flanges – Full Face Flanges with Soft Ring-Type Gaskets
EN 13445 Reverse Full Face Flange
EN 13445 Reverse Narrow Face Flanges
EN 13445 Seal Welded Flanges
EN 13445 – Additional Nonpressure Loads – Horizontal Vessels on Ring Supports
EN 13445 – Additional Nonpressure Loads – Horizontal Vessels on Saddle Supports
EN 13445 – Additional Nonpressure Loads – Lifting Lugs
EN 13445 – Additional Nonpressure Loads – Line Loads
EN 13445 – Additional Nonpressure Loads – Vertical Vessels with Ring Supports
EN 13445 – Additional Nonpressure Loads – Vertical Vessels with Skirts
EN 13445 – Additional Nonpressure Loads – Vertical Vessels with Supporting Legs
EN 13445 – Allowable Stress Calculation
EN 13445 – Narrow Face Flange with Gaskets
EN 13445 – Openings in Shells – Isolated Openings
EN 13445 – Openings in Shells – Multiple Openings
EN 13445 – Openings in Shells – Openings Close to a Shell Discontinuity
EN 13445 – Shells under External Pressure – Conical Shell
EN 13445 – Shells under External Pressure – Cylindrical Shells
EN 13445 – Shells under External Pressure – Spherical Shell
EN 13445 – Shells under External Pressure – Vessel Ends
EN 13445 – Shells under Internal Pressure – Cones and Conical Ends
EN 13445 – Shells under Internal Pressure – Cylindrical and Spherical Shells
EN 13445 – Shells under Internal Pressure – Dished Ends
EN 13445 – Shells under Internal Pressure – Nozzles That Encroach into the Knuckle Region
Enthalpy
Estimating Weights of Vessels and Vessel Components
Euler Formula for Calculating a Load Supported by a Column without Buckling
External Hoop Stress for a Thick-Walled Circular Cylinder
Externally Created Concentrated Angular Displacement, 5.A Left End Free (Imperial Units)
Externally Created Concentrated Angular Displacement, 5.A Left End Free, Right End Free (Imperial Units)
Externally Created Concentrated Angular Displacement, 5.B Left End Free, Right End Guided (Imperial Units)
Externally Created Concentrated Angular Displacement, 5.B Left End Guided (Imperial Units)
Externally Created Concentrated Angular Displacement, 5.C Left End Free, Right End Simply Supported (Imperial Units)
Externally Created Concentrated Angular Displacement, 5.C Left End Simply Supported (Imperial Units)
Externally Created Concentrated Angular Displacement, 5.D Left End Fixed (Imperial Units)
Externally Created Concentrated Angular Displacement, 5.D Left End Free, Right End Fixed (Imperial Units)
Externally Created Concentrated Angular Displacement, 5.E Left End Guided, Right End Free (Imperial Units)
Externally Created Concentrated Angular Displacement, 5.F Left End Guided, Right End Guided (Imperial Units)
Externally Created Concentrated Angular Displacement, 5.G Left End Guided, Right End Simply Supported (Imperial Units)
Externally Created Concentrated Angular Displacement, 5.H Left End Guided, Right End Fixed (Imperial Units)
Externally Created Concentrated Angular Displacement, 5.I Left End Simply Supported, Right End Free (Imperial Units)
Externally Created Concentrated Angular Displacement, 5.J Left End Simply Supported, Right End Guided (Imperial Units)
Externally Created Concentrated Angular Displacement, 5.K Left End Simply Supported, Right End Simply Supported (Imperial Units)
Externally Created Concentrated Angular Displacement, 5.L Left End Simply Supported, Right End Fixed (Imperial Units)
Externally Created Concentrated Angular Displacement, 5.M Left End Fixed, Right End Free (Imperial Units)
Externally Created Concentrated Angular Displacement, 5.N Left End Fixed, Right End Guided (Imperial Units)
Externally Created Concentrated Angular Displacement, 5.O Left End Fixed, Right End Simply Supported (Imperial Units)
Externally Created Concentrated Angular Displacement, 5.P Left End Fixed, Right End Fixed (Imperial Units)
Externally Created Concentrated Lateral Displacement, 6.A Left End Free (Imperial Units)
Externally Created Concentrated Lateral Displacement, 6.A Left End Free, Right End Free (Imperial Units)
Externally Created Concentrated Lateral Displacement, 6.B Left End Free, Right End Guided (Imperial Units)
Externally Created Concentrated Lateral Displacement, 6.B Left End Guided (Imperial Units)
Externally Created Concentrated Lateral Displacement, 6.C Left End Free, Right End Simply Supported (Imperial Units)
Externally Created Concentrated Lateral Displacement, 6.C Left End Simply Supported (Imperial Units)
Externally Created Concentrated Lateral Displacement, 6.D Left End Fixed (Imperial Units)
Externally Created Concentrated Lateral Displacement, 6.D Left End Free, Right End Fixed (Imperial Units)
Externally Created Concentrated Lateral Displacement, 6.E Left End Guided, Right End Free (Imperial Units)
Externally Created Concentrated Lateral Displacement, 6.F Left End Guided, Right End Guided (Imperial Units)
Externally Created Concentrated Lateral Displacement, 6.G Left End Guided, Right End Simply Supported (Imperial Units)
Externally Created Concentrated Lateral Displacement, 6.H Left End Guided, Right End Fixed (Imperial Units)
Externally Created Concentrated Lateral Displacement, 6.I Left End Simply Supported, Right End Free (Imperial Units)
Externally Created Concentrated Lateral Displacement, 6.J Left End Simply Supported, Right End Guided (Imperial Units)
Externally Created Concentrated Lateral Displacement, 6.K Left End Simply Supported, Right End Simply Supported (Imperial Units)
Externally Created Concentrated Lateral Displacement, 6.L Left End Simply Supported, Right End Fixed (Imperial Units)
Externally Created Concentrated Lateral Displacement, 6.M Left End Fixed, Right End Free (Imperial Units)
Externally Created Concentrated Lateral Displacement, 6.N Left End Fixed, Right End Guided (Imperial Units)
Externally Created Concentrated Lateral Displacement, 6.O Left End Fixed, Right End Simply Supported (Imperial Units)
Externally Created Concentrated Lateral Displacement, 6.P Left End Fixed, Right End Fixed (Imperial Units)
Face Contact Ratio of a Helical Gear
Fanning Friction Factor, First Equation
Fanning Friction Factor, Second Equation
Fin Efficiency
Finned Surface Resistance
First Law of Thermodynamics
Flow Work
Friction Factor for Mass Transfer, First Equation
Friction Factor for Mass Transfer, Second Equation
Gas Constant
Heat Added to an Evaporator
Heat Added to an Expansion Device
Heat Leaving a Compressor
Heat Leaving a Condenser
Heat Transfer from a Finned Surface, First Equation
Heat Transfer from a Finned Surface, Second Equation
Helix Angle at Operating Pitch Point
Humid Specific Heat, First Equation
Humid Specific Heat, Second Equation
Humidity Ratio, First Equation
Humidity Ratio, Second Equation
Hydraulic Diameter
Ideal Gas Law
Initial Tension of the Garter Spring in a Centrifugal Clutch
Intermediate Externally Created Angular Deformation, 4.A, Left End Free, Right End Fixed (Imperial Units)
Intermediate Externally Created Angular Deformation, 4.B, Left End Guided, Right End Fixed (Imperial Units)
Intermediate Externally Created Angular Deformation, 4.C, Left End Simply Supported, Right End Fixed (Imperial Units)
Intermediate Externally Created Angular Deformation, 4.D Left End Fixed, Right End Fixed (Imperial Units)
Intermediate Externally Created Angular Deformation, 4.E Left End Simply Supported, Right End Simply Supported (Imperial Units)
Intermediate Externally Created Angular Deformation, 4.F Left End Guided, Right End Simply Supported (Imperial Units)
Intermediate Externally Created Lateral Displacement, 5.A Left End Free, Right End Fixed (Imperial Units)
Intermediate Externally Created Lateral Displacement, 5.B Left End Guided, Right End Fixed (Imperial Units)
Intermediate Externally Created Lateral Displacement, 5.C Left End Simply Supported, Right End Fixed (Imperial Units)
Intermediate Externally Created Lateral Displacement, 5.D Left End Fixed, Right End Fixed (Imperial Units)
Intermediate Externally Created Lateral Displacement, 5.E Left End Simply Supported, Right End Simply Supported (Imperial Units)
Intermediate Externally Created Lateral Displacement, 5.F Left End Guided, Right End Simply Supported (Imperial Units)
Internal Hoop Stress for a Thick-Walled Circular Cylinder
Internal Mass Transfer Coefficient
Irreversibility Rate for a Compressor
Irreversibility Rate for a Condenser
Irreversibility Rate for an Evaporator
Irreversibility Rate for an Expansion Device
Kinetic Energy
Lewis Number
Line of Action of a Helical Gear
Local External Mass Transfer Coefficient
Log Mean Temperature Difference for a Heat Exchanger
Longitudinal Strain in the Thin Cylindrical Shell of a Circular Cross Section (Elastic Materials)
Longitudinal Stress in the Thin Cylindrical Shell of a Circular Cross Section
Maximum Deflection in a Cantilever Beam with a Uniformly Distributed Load
Maximum Deflection in a Simply Supported Beam Carrying a Uniformly Distributed Load
Maximum Deflection in a Simply Supported Beam When the Load is Increasing Uniformly from One Support to the other
Maximum Deflection in a Simply Supported Beam When the Load is Increasing Uniformly from Supports to the Center of the Span
Maximum Principal Stress
Maximum Shear Stress
Maximum Shear Stress in Rigid Coupling
Maximum Shear Theory (Guest Theory)
Maximum Strain Theory (Saint Venant’s)
Maximum Stress Theory (Rankine)
Membrane Stresses in a Thin Spherical Shell under Internal Pressure
Minimum Principal Stress
Modulus of Elasticity or Young’s Modulus