Effect of crystal grain orientation on grain boundary fracture in peak-aged polycrystalline Al-Mg-Si alloys

Kenji Matsuda; Junji Tsukiyama; Yasuhiro Uetani; Susumu Ikeno

doi:10.2464/jilm.58.388

Effect of crystal grain orientation on grain boundary fracture in peak-aged polycrystalline Al-Mg-Si alloys

Kenji Matsuda^*, Junji Tsukiyama, Yasuhiro Uetani, Susumu Ikeno

^*Corresponding author for this work

Materials Design and Engineering

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

3 Scopus citations

Abstract

Grain boundary fracture was studied in tensile test for peak-aged balanced and excess Si Al-Mg₂Si alloys. The route of crack propagation for intergranular fracture in these alloys was considered by Schmid factor (S.F.) and stress transmission factor (N_ij) by crystal orientation to tensile axis. The texture of these alloys before tensile test was recrystallized textures, and there were no significant difference of initial texture between these alloys. Fractured grain boundaries has been classified into the following four groups: • Group A: Larger difference in S.F. than 0.05 and higher N_ij than 0.5. • Group B: Larger difference in S.F. than 0.05 and lower N_ij than 0.5. • Group C: Smaller difference in S.F. than 0.05 and higher N_ij. than 0.5. • Group D: Smaller difference in S.F. than 0.05 and lower N_ij than 0.5. The cracking was influenced by the grain boundary with larger difference in S.F. and lower N_ij in the balanced alloy. The propagation of cracks was influenced by grain boundaries of group B, C, or D with the angles from 60° to 90° to the tensile axis. The cracking and propagation of cracks occurred all together in excess Si alloy at the same time as beginning of tensile test, and grain boundaries in this alloy mostly fractured in the group D with the angle of 30°-90° to the tensile axis.

Original language	English
Pages (from-to)	388-394
Number of pages	7
Journal	Keikinzoku/Journal of Japan Institute of Light Metals
Volume	58
Issue number	8
DOIs	https://doi.org/10.2464/jilm.58.388
State	Published - 2008/08

Keywords

Aluminum-magnesium-silicon alloy
Electron back scattered diffraction patterns
Intergranular fracture
Schmid factor
Transmission factor

ASJC Scopus subject areas

Mechanics of Materials
Mechanical Engineering
Metals and Alloys
Materials Chemistry

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10.2464/jilm.58.388

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@article{d2c8715d83b0472e8df2f0d3b8a6881c,

title = "Effect of crystal grain orientation on grain boundary fracture in peak-aged polycrystalline Al-Mg-Si alloys",

abstract = "Grain boundary fracture was studied in tensile test for peak-aged balanced and excess Si Al-Mg2Si alloys. The route of crack propagation for intergranular fracture in these alloys was considered by Schmid factor (S.F.) and stress transmission factor (Nij) by crystal orientation to tensile axis. The texture of these alloys before tensile test was recrystallized textures, and there were no significant difference of initial texture between these alloys. Fractured grain boundaries has been classified into the following four groups: • Group A: Larger difference in S.F. than 0.05 and higher Nij than 0.5. • Group B: Larger difference in S.F. than 0.05 and lower Nij than 0.5. • Group C: Smaller difference in S.F. than 0.05 and higher Nij. than 0.5. • Group D: Smaller difference in S.F. than 0.05 and lower Nij than 0.5. The cracking was influenced by the grain boundary with larger difference in S.F. and lower Nij in the balanced alloy. The propagation of cracks was influenced by grain boundaries of group B, C, or D with the angles from 60° to 90° to the tensile axis. The cracking and propagation of cracks occurred all together in excess Si alloy at the same time as beginning of tensile test, and grain boundaries in this alloy mostly fractured in the group D with the angle of 30°-90° to the tensile axis.",

keywords = "Aluminum-magnesium-silicon alloy, Electron back scattered diffraction patterns, Intergranular fracture, Schmid factor, Transmission factor",

author = "Kenji Matsuda and Junji Tsukiyama and Yasuhiro Uetani and Susumu Ikeno",

year = "2008",

month = aug,

doi = "10.2464/jilm.58.388",

language = "英語",

volume = "58",

pages = "388--394",

journal = "Keikinzoku/Journal of Japan Institute of Light Metals",

issn = "0451-5994",

publisher = "Keikinzoku Gakkai/Japan Institute of Light Metals",

number = "8",

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TY - JOUR

T1 - Effect of crystal grain orientation on grain boundary fracture in peak-aged polycrystalline Al-Mg-Si alloys

AU - Matsuda, Kenji

AU - Tsukiyama, Junji

AU - Uetani, Yasuhiro

AU - Ikeno, Susumu

PY - 2008/8

Y1 - 2008/8

N2 - Grain boundary fracture was studied in tensile test for peak-aged balanced and excess Si Al-Mg2Si alloys. The route of crack propagation for intergranular fracture in these alloys was considered by Schmid factor (S.F.) and stress transmission factor (Nij) by crystal orientation to tensile axis. The texture of these alloys before tensile test was recrystallized textures, and there were no significant difference of initial texture between these alloys. Fractured grain boundaries has been classified into the following four groups: • Group A: Larger difference in S.F. than 0.05 and higher Nij than 0.5. • Group B: Larger difference in S.F. than 0.05 and lower Nij than 0.5. • Group C: Smaller difference in S.F. than 0.05 and higher Nij. than 0.5. • Group D: Smaller difference in S.F. than 0.05 and lower Nij than 0.5. The cracking was influenced by the grain boundary with larger difference in S.F. and lower Nij in the balanced alloy. The propagation of cracks was influenced by grain boundaries of group B, C, or D with the angles from 60° to 90° to the tensile axis. The cracking and propagation of cracks occurred all together in excess Si alloy at the same time as beginning of tensile test, and grain boundaries in this alloy mostly fractured in the group D with the angle of 30°-90° to the tensile axis.

AB - Grain boundary fracture was studied in tensile test for peak-aged balanced and excess Si Al-Mg2Si alloys. The route of crack propagation for intergranular fracture in these alloys was considered by Schmid factor (S.F.) and stress transmission factor (Nij) by crystal orientation to tensile axis. The texture of these alloys before tensile test was recrystallized textures, and there were no significant difference of initial texture between these alloys. Fractured grain boundaries has been classified into the following four groups: • Group A: Larger difference in S.F. than 0.05 and higher Nij than 0.5. • Group B: Larger difference in S.F. than 0.05 and lower Nij than 0.5. • Group C: Smaller difference in S.F. than 0.05 and higher Nij. than 0.5. • Group D: Smaller difference in S.F. than 0.05 and lower Nij than 0.5. The cracking was influenced by the grain boundary with larger difference in S.F. and lower Nij in the balanced alloy. The propagation of cracks was influenced by grain boundaries of group B, C, or D with the angles from 60° to 90° to the tensile axis. The cracking and propagation of cracks occurred all together in excess Si alloy at the same time as beginning of tensile test, and grain boundaries in this alloy mostly fractured in the group D with the angle of 30°-90° to the tensile axis.

KW - Aluminum-magnesium-silicon alloy

KW - Electron back scattered diffraction patterns

KW - Intergranular fracture

KW - Schmid factor

KW - Transmission factor

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U2 - 10.2464/jilm.58.388

DO - 10.2464/jilm.58.388

M3 - 学術論文

AN - SCOPUS:54349109328

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VL - 58

SP - 388

EP - 394

JO - Keikinzoku/Journal of Japan Institute of Light Metals

JF - Keikinzoku/Journal of Japan Institute of Light Metals

IS - 8

ER -

Effect of crystal grain orientation on grain boundary fracture in peak-aged polycrystalline Al-Mg-Si alloys

Abstract

Keywords

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