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Grain size and loading effects on steel
Yield strength of low carbon steel is determined as function of grain size and loading rate; theoretical expressions, based on dislocation model, are developed to predict yield strength, taking these variables into consideration; proposed theory is found to be effective in predicting yield strength values for low carbon steel treated to produce various grain sizes and subjected to loading rates varying from 484 to 8×108 psi/sec.
Grain size and loading effects on steel
Yield strength of low carbon steel is determined as function of grain size and loading rate; theoretical expressions, based on dislocation model, are developed to predict yield strength, taking these variables into consideration; proposed theory is found to be effective in predicting yield strength values for low carbon steel treated to produce various grain sizes and subjected to loading rates varying from 484 to 8×108 psi/sec.
Grain size and loading effects on steel
ASCE -- Proc (J Eng Mechanics Div)
Jones, R.C. (author) / Hribar, J.A. (author)
1964
27 pages
Article (Journal)
English
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Bibliography on grain size in steel
| Engineering Index Backfile | 1941
Grain Size of Commercial High Speed Steel
| British Library Online Contents | 2006
Effect of grain size on grain boundary strengthening of copper bicrystals under cyclic loading
| British Library Online Contents | 2000
Methods of measuring grain size of steel
| Engineering Index Backfile | 1952
Grain Size Distribution on Annealed Silicon Steel
| British Library Online Contents | 2013