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The effective stress analysis refers to the force that keeps the collection of the particles rigid.
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What is effective stress analysis?
The effective stress analysis refers to the force that keeps the collection of the particles rigid.
What is total and effective stress analysis?
The total and effective stress analysis is used for the short term problems like the temporary evacuations.
What stress to consider in stress analysis. true stress or engineering stress?
We almost always use engineering stress as that is the number reported in strength tests.
Is allowable stress design based on elastic analysis or plastic analysis?
elastic design
How is stress analysis on jib cranes done?
A stress analysis on Jib cranes must be done before they can be placed in usage. The analysis consists of mathematical equations considering the length of the crane and maximum load capacity.
Stress analysis for direct stress condition?
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What has the author Gregg W Baumann written?
Gregg W. Baumann has written: 'Linear structural stress analysis of a hull girder penetration and a short longitudinal bulkhead using finite element modeling' -- subject(s): STRUCTURAL ANALYSIS, SHIP HULLS, STRESS ANALYSIS
What comes under the purview of stress analysis?
Elements subjected to loading or subjected to force.
Gerald is a professional who studies coping and stress management. This field is called?
transactional analysis
What is the definition of R-ratio in fatigue analysis?
When looking a stress vs. time plot of the fluctuating stress diagram (that has the graph of the sine curve. The R ratio is the minimum stress divided by the maximum stress. R = (SIGMAmin/SIGMAmax)
What is the correct definition of a stress function?
A stress function is a mathematical function used in the context of elasticity and structural analysis to describe the distribution of internal forces within a material or structure under load. It helps to simplify the analysis of stress by satisfying equilibrium and compatibility conditions. Common examples include the Airy stress function in two-dimensional problems, which allows for the derivation of stress components from a scalar potential function. By using a stress function, engineers can effectively solve complex problems involving stress distribution in various materials.
Can stress be resolved into horizontal and vertical components?
Force can be resolved into horizontal and vertical components using vector analysis. However stress cannot be resolved into horizontal and vertical components using vector analysis since it is not a vector but a tensor of second order.
