Search all MERLOT
Click here to go to your profile
Select to go to your workspace
Click here to go to your Dashboard Report
Click here to go to your Content Builder
Click here to log out
Search Terms
Enter username
Enter password
Please give at least one keyword of at least three characters for the search to work with. The more keywords you give, the better the search will work for you.
select OK to launch help window
cancel help

MERLOT II




        

Search > Material Results >

22.314J / 1.56J / 2.084J Structural Mechanics in Nuclear Power Technology

        

22.314J / 1.56J / 2.084J Structural Mechanics in Nuclear Power Technology

Logo for 22.314J / 1.56J / 2.084J Structural Mechanics in Nuclear Power Technology
This course deals with structural components in nuclear power plant systems, their functional purposes, operating conditions, and mechanical-structural design requirements. It combines mechanics techniques with models of material behavior to determine adequacy of component design. Considerations include mechanical loading, brittle fracture, in-elastic behavior, elevated temperatures, neutron irradiation, and seismic effects.
Material Type: Online Course
Date Added to MERLOT: October 20, 2011
Date Modified in MERLOT: October 20, 2011
Author:
Submitter: Sorel Reisman

Details

  • Editor Review (not reviewed)
  • User Rating (not rated)
  • Comments (none)
  • Learning Exercises (none)
  • Personal Collections (none)
  • Accessibility Info (none)

About

Primary Audience:
Mobile Compatibility: Not specified at this time
Language: English
Cost Involved: no
Source Code Available: unsure
Accessiblity Information Available: unsure
Creative Commons: Creative Commons License
This work is licensed under a Attribution-NonCommercial-ShareAlike 3.0 United States

Connections



QR Code for this Page

Browse in Categories

Discussion

Discussion for 22.314J / 1.56J / 2.084J Structural Mechanics in Nuclear Power Technology

Log in to participate in the discussions or Register if you are not already a MERLOT member.

Return to Top of Page