This overview of Section III, Division 1 will assist technical organizations, utilities, equipment and material manufacturers, installers and insurance companies in understanding the Nuclear Code.

Vibration analysis/design, rotating equipment/foundation, blasts, earthquakes, transportation vibrations, tuned mass dampers, isolators, vibration monitoring and test-analysis correlation are covered.

This course is an in-depth study designed to develop a basic working knowledge in geometric dimensioning and tolerancing (GD&T).

This course outlines the lower design margins of ASME Division 2 Code and compares them to Division 1. Learn how to apply advanced design and analysis rules.

Examine vortex-induced vibration, galloping, flutter, sonic fatigue, and fluid-elastic instability, as well as prevention analysis of vibration in structures exposed to high energy fluid flow.

This course covers all aspects of design and fabrication of pressure vessels focusing on ASME Code Section VIII, Division 1.

This course addresses the needs of non-specialist FEA users and covers different FEA formulations, while also providing tools for error analysis.

Investigate the practical aspects of fastener selection and application. Proper design choices can affect your bottom line by reducing manufacturing costs, factory inventories, and maintenance costs.

The Geometric Tolerancing Stacks Training Program is designed to educate students on how to evaluate, read and interpret geometric tolerances on linear and axial assemblies.

Compare the advantages and disadvantages of composites versus structural and thermal management materials, and learn how to design cost effective products with composites, avoiding common pitfalls.

Learn how to properly interpret and apply geometric tolerancing to parts and assemblies, and gain valuable information on inspection verification techniques and manufacturing concerns.

Learn to design robust products and processes, as well as solve production problems, by reducing performance variations through the Taguchi design improvement technique.

Design and construction of nuclear power plant piping systems to the ASME Boiler and Pressure Vessel Code, Section III, Division 1, Subsection NB

Design and construction of nuclear power plant piping systems to the ASME Boiler and Pressure Vessel Code, Section III, Division 2/3, Subsection NC and ND

This course is a combination of "Section III, Division 1, Class 1 Piping Design" & "Section III, Division 1, Class 2/3 Piping Design"

Understand how Agglomeration is being used to develop and design new products for specific applications.Agglomeration is the sticking together of fine and ultra-fine particles.