An Overview of Engineering Mechanics required to comprehend ASME Piping and Pressure Vessel Code

Anindya Bhattacharya

Asset Engineer

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English

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90 Min

This course format through pre-recorded video. You can buy and watch it to learn at any time.

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Why do you enroll

1. How elementary and advanced topics of Solid mechanics are applied in development of Piping and Pressure vessel codes and standards.

2. Theoretical background behind design code requirements which helps an engineer understand the strengths, weaknesses and applicability of the code requirements.

3. An insight into the newly introduced codes.

4. Bridging the gap between theoretical knowledge and code requirements.

5. University students who want to take up career in piping engineering or static equipment engineering and wants to learn about the most widely used Industrial standard.

6. Experienced engineers who want to understand the background of code rules and requirements

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Key topics covered

This course is divided into 2 modules and each module has its own importance. In this module, we will cover topics

1. Euler-Bernoulli and Timoshenko Beam theories.

2. Failure theories of Isotropic and some non-isotropic materials.

3. Theory of Plates and Shells.

Do enroll other module to learn more on fundamentals of solid mechanics that are critical for a static equipment engineer.

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Course Details

This course will cover basic and advanced topics from Solid Mechanics required to provide a robust understanding of the background theory behind technical requirements of Piping and Pressure Vessel codes and standards. A refresher course on core and advanced topics of Solid mechanics required to understand technical background of Piping and Pressure Vessel codes and standards.

Course tags

Industry domains :

oilgas , Chemical & Pharmaceutical , Mechanics & Turbomachinery

Engineering Disciplines :

Civil & Structural , Mechanical , Piping & Layout

Course content

Concepts of Stress- Definition, Principal Stress, Octahedral Shear Stress, Deviatoric and Hydrostatic components. :

Concepts of Stress- Definition, Principal Stress, Octahedral Shear Stress, Deviatoric and Hydrostatic components.

Fatigue-stress and strain based approaches, overview of fracture mechanics concepts, rainflow counting, cyclic stress-strain curves, Concept of Ratcheting/alternate plasticity :

Fatigue-stress and strain based approaches, overview of fracture mechanics concepts, rainflow counting, cyclic stress-strain curves, Concept of Ratcheting/alternate plasticity

Theory of plates-basic assumptions, Mindlin and Kirchoff models, circular plates. :

Theory of plates-basic assumptions, Mindlin and Kirchoff models, circular plates.