A continuous indentation test for metals

D. V. Jaramillo; S. Kuriyama; M. A. Meyers

doi:10.1016/0001-6160(86)90202-6

A continuous indentation test for metals

D. V. Jaramillo, S. Kuriyama, M. A. Meyers

Research output: Contribution to journal › Article › peer-review

7 Scopus citations

Abstract

A penetration test using a continuously increasing load applied on a knife-edge indenter (30° angle) is described. The specific advantage of this method is that the applied load is continuously recorded as a function of the penetration depth. Ni-200 and 70 30 brass with varying plastic deformation responses produced by different cold rolling and annealing schedules were studied. The finite element method was applied to model the plastic deformation process under the indenter and to predict the load versus depth-of-penetration curves. A linear relationship between the applied load and the penetration depth was found experimentally and by computer simulation for all conditions.

Original language	English
Pages (from-to)	313-324
Number of pages	12
Journal	Acta Metallurgica
Volume	34
Issue number	2
DOIs	https://doi.org/10.1016/0001-6160(86)90202-6
State	Published - Feb 1986
Externally published	Yes

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title = "A continuous indentation test for metals",

abstract = "A penetration test using a continuously increasing load applied on a knife-edge indenter (30° angle) is described. The specific advantage of this method is that the applied load is continuously recorded as a function of the penetration depth. Ni-200 and 70 30 brass with varying plastic deformation responses produced by different cold rolling and annealing schedules were studied. The finite element method was applied to model the plastic deformation process under the indenter and to predict the load versus depth-of-penetration curves. A linear relationship between the applied load and the penetration depth was found experimentally and by computer simulation for all conditions.",

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N2 - A penetration test using a continuously increasing load applied on a knife-edge indenter (30° angle) is described. The specific advantage of this method is that the applied load is continuously recorded as a function of the penetration depth. Ni-200 and 70 30 brass with varying plastic deformation responses produced by different cold rolling and annealing schedules were studied. The finite element method was applied to model the plastic deformation process under the indenter and to predict the load versus depth-of-penetration curves. A linear relationship between the applied load and the penetration depth was found experimentally and by computer simulation for all conditions.

AB - A penetration test using a continuously increasing load applied on a knife-edge indenter (30° angle) is described. The specific advantage of this method is that the applied load is continuously recorded as a function of the penetration depth. Ni-200 and 70 30 brass with varying plastic deformation responses produced by different cold rolling and annealing schedules were studied. The finite element method was applied to model the plastic deformation process under the indenter and to predict the load versus depth-of-penetration curves. A linear relationship between the applied load and the penetration depth was found experimentally and by computer simulation for all conditions.

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DO - 10.1016/0001-6160(86)90202-6

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EP - 324

JO - Acta Metallurgica

JF - Acta Metallurgica

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ER -

A continuous indentation test for metals

Abstract

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