A Three-Dimensional Finite Element Analysis of the Double-Torsion Test

A. A. Tseng; J. T. Berry

Source: Journal of Pressure Vessel Technology:;1979:;volume( 101 ):;issue: 004::page 328

Author:

A. A. Tseng

J. T. Berry

DOI: 10.1115/1.3454641

Publisher: The American Society of Mechanical Engineers (ASME)

Abstract: A special three-dimensional crack-tip element has been developed to investigate a simple and widely applicable fracture toughness test method. Previous experimental work with the double-torsion method has shown that the use of a relatively thin sectioned specimen may be permitted. The section concerned is considerably thinner than that used in conventional techniques, while the technique also simplifies the determination of the fracture toughness parameter. K IC values, which are independent of the crack length, have been obtained for glasses, ceramics, polymers, and a variety of metals and alloys. The numerical solution presented is supportive of many experimental observations made during testing. Excellent correlation between the finite element and experimental results has been obtained. The maximum stress intensity factor is shown to be almost independent of crack length over a considerable range.

keyword(s): Torsion , Finite element analysis , Fracture (Materials) , Fracture toughness , Polymers , Testing , Metals , Alloys , Ceramics , Glass AND Stress ,

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A Three-Dimensional Finite Element Analysis of the Double-Torsion Test

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contributor author	A. A. Tseng
contributor author	J. T. Berry
date accessioned	2017-05-08T23:07:30Z
date available	2017-05-08T23:07:30Z
date copyright	November, 1979
date issued	1979
identifier issn	0094-9930
identifier other	JPVTAS-28178#328_1.pdf
identifier uri	http://yetl.yabesh.ir/yetl/handle/yetl/92565
description abstract	A special three-dimensional crack-tip element has been developed to investigate a simple and widely applicable fracture toughness test method. Previous experimental work with the double-torsion method has shown that the use of a relatively thin sectioned specimen may be permitted. The section concerned is considerably thinner than that used in conventional techniques, while the technique also simplifies the determination of the fracture toughness parameter. K IC values, which are independent of the crack length, have been obtained for glasses, ceramics, polymers, and a variety of metals and alloys. The numerical solution presented is supportive of many experimental observations made during testing. Excellent correlation between the finite element and experimental results has been obtained. The maximum stress intensity factor is shown to be almost independent of crack length over a considerable range.
publisher	The American Society of Mechanical Engineers (ASME)
title	A Three-Dimensional Finite Element Analysis of the Double-Torsion Test
type	Journal Paper
journal volume	101
journal issue	4
journal title	Journal of Pressure Vessel Technology
identifier doi	10.1115/1.3454641
journal fristpage	328
journal lastpage	335
identifier eissn	1528-8978
keywords	Torsion
keywords	Finite element analysis
keywords	Fracture (Materials)
keywords	Fracture toughness
keywords	Polymers
keywords	Testing
keywords	Metals
keywords	Alloys
keywords	Ceramics
keywords	Glass AND Stress
tree	Journal of Pressure Vessel Technology:;1979:;volume( 101 ):;issue: 004
contenttype	Fulltext

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