Investigation of dynamic fracture behavior in functionally graded materials using the interaction integral method

Seong Hyeok Song; Glaucio H. Paulino

doi:10.1063/1.2896786

Investigation of dynamic fracture behavior in functionally graded materials using the interaction integral method

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

Abstract

Dynamic stress intensity factor (DSIF) is an important fracture parameter in understanding and predicting dynamic fracture behavior of a cracked body. To evaluate DSIFs for functionally graded materials (FGMs), the interaction integral originally proposed to evaluate SIFs for a static homogeneous medium is extended to incorporate dynamic effects and material nonhomogeneity, and is implemented in conjunction with the finite element method (FEM). To verify numerical implementations and to explore various dynamic fracture behaviors, both homogeneous and nonhomogeneous cracked bodies under dynamic loading are employed.

Original language	English (US)
Title of host publication	Multiscale and Functionally Graded Materials - Proceedings of the International Conference, FGM IX
Pages	254-260
Number of pages	7
DOIs	https://doi.org/10.1063/1.2896786
State	Published - 2008
Externally published	Yes
Event	9th International Conference on Multiscale and Functionally Graded Materials, FGM IX - Oahu Island, HI, United States Duration: Oct 15 2006 → Oct 18 2006

Publication series

Name	AIP Conference Proceedings
Volume	973
ISSN (Print)	0094-243X
ISSN (Electronic)	1551-7616

Conference

Conference	9th International Conference on Multiscale and Functionally Graded Materials, FGM IX
Country/Territory	United States
City	Oahu Island, HI
Period	10/15/06 → 10/18/06

All Science Journal Classification (ASJC) codes

Physics and Astronomy(all)

Keywords

Dynamic stress intensity factors (DSIFs)
Fracture
Functionally graded materials
Interaction integral

Access to Document

10.1063/1.2896786

Cite this

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title = "Investigation of dynamic fracture behavior in functionally graded materials using the interaction integral method",

abstract = "Dynamic stress intensity factor (DSIF) is an important fracture parameter in understanding and predicting dynamic fracture behavior of a cracked body. To evaluate DSIFs for functionally graded materials (FGMs), the interaction integral originally proposed to evaluate SIFs for a static homogeneous medium is extended to incorporate dynamic effects and material nonhomogeneity, and is implemented in conjunction with the finite element method (FEM). To verify numerical implementations and to explore various dynamic fracture behaviors, both homogeneous and nonhomogeneous cracked bodies under dynamic loading are employed.",

keywords = "Dynamic stress intensity factors (DSIFs), Fracture, Functionally graded materials, Interaction integral",

author = "Song, {Seong Hyeok} and Paulino, {Glaucio H.}",

year = "2008",

doi = "10.1063/1.2896786",

language = "English (US)",

isbn = "9780735404922",

series = "AIP Conference Proceedings",

pages = "254--260",

booktitle = "Multiscale and Functionally Graded Materials - Proceedings of the International Conference, FGM IX",

note = "9th International Conference on Multiscale and Functionally Graded Materials, FGM IX ; Conference date: 15-10-2006 Through 18-10-2006",

}

Song, SH & Paulino, GH 2008, Investigation of dynamic fracture behavior in functionally graded materials using the interaction integral method. in Multiscale and Functionally Graded Materials - Proceedings of the International Conference, FGM IX. AIP Conference Proceedings, vol. 973, pp. 254-260, 9th International Conference on Multiscale and Functionally Graded Materials, FGM IX, Oahu Island, HI, United States, 10/15/06. https://doi.org/10.1063/1.2896786

Investigation of dynamic fracture behavior in functionally graded materials using the interaction integral method. / Song, Seong Hyeok; Paulino, Glaucio H.
Multiscale and Functionally Graded Materials - Proceedings of the International Conference, FGM IX. 2008. p. 254-260 (AIP Conference Proceedings; Vol. 973).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

TY - GEN

T1 - Investigation of dynamic fracture behavior in functionally graded materials using the interaction integral method

AU - Song, Seong Hyeok

AU - Paulino, Glaucio H.

PY - 2008

Y1 - 2008

N2 - Dynamic stress intensity factor (DSIF) is an important fracture parameter in understanding and predicting dynamic fracture behavior of a cracked body. To evaluate DSIFs for functionally graded materials (FGMs), the interaction integral originally proposed to evaluate SIFs for a static homogeneous medium is extended to incorporate dynamic effects and material nonhomogeneity, and is implemented in conjunction with the finite element method (FEM). To verify numerical implementations and to explore various dynamic fracture behaviors, both homogeneous and nonhomogeneous cracked bodies under dynamic loading are employed.

AB - Dynamic stress intensity factor (DSIF) is an important fracture parameter in understanding and predicting dynamic fracture behavior of a cracked body. To evaluate DSIFs for functionally graded materials (FGMs), the interaction integral originally proposed to evaluate SIFs for a static homogeneous medium is extended to incorporate dynamic effects and material nonhomogeneity, and is implemented in conjunction with the finite element method (FEM). To verify numerical implementations and to explore various dynamic fracture behaviors, both homogeneous and nonhomogeneous cracked bodies under dynamic loading are employed.

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KW - Fracture

KW - Functionally graded materials

KW - Interaction integral

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DO - 10.1063/1.2896786

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T3 - AIP Conference Proceedings

SP - 254

EP - 260

BT - Multiscale and Functionally Graded Materials - Proceedings of the International Conference, FGM IX

T2 - 9th International Conference on Multiscale and Functionally Graded Materials, FGM IX

Y2 - 15 October 2006 through 18 October 2006

ER -

Investigation of dynamic fracture behavior in functionally graded materials using the interaction integral method

Abstract

Publication series

Conference

All Science Journal Classification (ASJC) codes

Keywords

Access to Document

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