Stress Distributions in Soft Metals Due to Static and Dynamic Loading by a Steel Sphere

Ching-Hsie Yew; Werner Goldsmith

Source: Journal of Applied Mechanics:;1964:;volume( 031 ):;issue: 004::page 635

Author:

Ching-Hsie Yew

Werner Goldsmith

DOI: 10.1115/1.3629725

Publisher: The American Society of Mechanical Engineers (ASME)

Abstract: The quasi-static and dynamic indentation of a hard steel sphere into a massive lead block, considered to represent a rigid perfectly-plastic half-space, has been investigated experimentally. The technique of visioplasticity was employed to calculate the stress pattern from which an empirical relation delineating the variation of hydrostatic pressure with depth of indentation was constructed. This expression was utilized in conjunction with a model of the surface-deformation process to describe the growth of the crater analytically. The force-indentation relation obtained in this manner agrees with that determined by direct observation to within 6 percent, while the predicted permanent crater depth was found to be 10.8 percent lower than that measured under dynamic conditions. The results of the present investigation have also been compared with solutions based upon the Haar-Karman criterion of yielding and upon the hypothesis of a constant flow pressure.

keyword(s): Metals , Steel , Stress , Dynamic testing (Materials) , Elastic half space , Hydrostatic pressure , Surface deformation , Force , Pressure AND Flow (Dynamics) ,

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Stress Distributions in Soft Metals Due to Static and Dynamic Loading by a Steel Sphere

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Journal of Applied Mechanics

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contributor author	Ching-Hsie Yew
contributor author	Werner Goldsmith
date accessioned	2017-05-08T23:15:45Z
date available	2017-05-08T23:15:45Z
date copyright	December, 1964
date issued	1964
identifier issn	0021-8936
identifier other	JAMCAV-25791#635_1.pdf
identifier uri	http://yetl.yabesh.ir/yetl/handle/yetl/97245
description abstract	The quasi-static and dynamic indentation of a hard steel sphere into a massive lead block, considered to represent a rigid perfectly-plastic half-space, has been investigated experimentally. The technique of visioplasticity was employed to calculate the stress pattern from which an empirical relation delineating the variation of hydrostatic pressure with depth of indentation was constructed. This expression was utilized in conjunction with a model of the surface-deformation process to describe the growth of the crater analytically. The force-indentation relation obtained in this manner agrees with that determined by direct observation to within 6 percent, while the predicted permanent crater depth was found to be 10.8 percent lower than that measured under dynamic conditions. The results of the present investigation have also been compared with solutions based upon the Haar-Karman criterion of yielding and upon the hypothesis of a constant flow pressure.
publisher	The American Society of Mechanical Engineers (ASME)
title	Stress Distributions in Soft Metals Due to Static and Dynamic Loading by a Steel Sphere
type	Journal Paper
journal volume	31
journal issue	4
journal title	Journal of Applied Mechanics
identifier doi	10.1115/1.3629725
journal fristpage	635
journal lastpage	646
identifier eissn	1528-9036
keywords	Metals
keywords	Steel
keywords	Stress
keywords	Dynamic testing (Materials)
keywords	Elastic half space
keywords	Hydrostatic pressure
keywords	Surface deformation
keywords	Force
keywords	Pressure AND Flow (Dynamics)
tree	Journal of Applied Mechanics:;1964:;volume( 031 ):;issue: 004
contenttype	Fulltext

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