A. What is a suitable defect tolerance parameter and how can it be used to assess whether a component is likely to fail due to fast fracture or plastic collapse? B. What is the difference between the climb and glide movement of dislocation? C. Discuss briefly, using diagrams, the main differences between high-cycle fatigue failure and low-cycle fatigue failure and their associated life prediction methods.
A. What is a suitable defect tolerance parameter and how can it be used to assess whether a component is likely to fail due to fast fracture or plastic collapse? B. What is the difference between the climb and glide movement of dislocation? C. Discuss briefly, using diagrams, the main differences between high-cycle fatigue failure and low-cycle fatigue failure and their associated life prediction methods.
Elements Of Electromagnetics
7th Edition
ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
ChapterMA: Math Assessment
Section: Chapter Questions
Problem 1.1MA
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![Q4//
A. What is a suitable defect tolerance parameter and how can it be used to assess whether a component is
likely to fail due to fast fracture or plastic collapse?
B. What is the difference between the climb and glide movement of dislocation?
C. Discuss briefly, using diagrams, the main differences between high-cycle fatigue failure and low-cycle
fatigue failure and their associated life prediction methods.
D. Explain, briefly and clearly, the reasons why the unified (e.g. Chaboche types), viscous plasticity models
can be used to represent and predict the thermo-mechanical fatigue behaviour under low cycle fatigue.
E. What is the Bauschinger effect?](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F7f749a52-bed8-4124-ad1e-4ec5f0760a9f%2Fc95b9404-bece-4a99-a279-b6eea285ebb6%2Fvmtiag_processed.jpeg&w=3840&q=75)
Transcribed Image Text:Q4//
A. What is a suitable defect tolerance parameter and how can it be used to assess whether a component is
likely to fail due to fast fracture or plastic collapse?
B. What is the difference between the climb and glide movement of dislocation?
C. Discuss briefly, using diagrams, the main differences between high-cycle fatigue failure and low-cycle
fatigue failure and their associated life prediction methods.
D. Explain, briefly and clearly, the reasons why the unified (e.g. Chaboche types), viscous plasticity models
can be used to represent and predict the thermo-mechanical fatigue behaviour under low cycle fatigue.
E. What is the Bauschinger effect?
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