Crack prediction for a partially solidified lead-free bronze casting using thermal stress analysis

Akira Matsushita; Tomoaki Nakazawa; Toshimitsu Okane; Makoto Yoshida

doi:10.1016/j.jmatprotec.2017.05.022

Crack prediction for a partially solidified lead-free bronze casting using thermal stress analysis

Akira Matsushita^*, Tomoaki Nakazawa, Toshimitsu Okane, Makoto Yoshida

^*Corresponding author for this work

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

8 Citations (Scopus)

Abstract

For crack prediction in permanent mold casting of lead-free bronze, elasto-viscoplastic and elasto-plastic thermal stress analyses were performed and compared with the casting tests. The elastoviscoplastic model was constructed by the method which enables to determine rheological properties without steady state stress in experiments. Maximum deviatoric principal (only by the elastoviscoplastic analysis) and hydrostatic stress were in reasonable agreement with the locations of cold cracking and hot tearing in the casting tests, respectively. It was suggested that considering the rheological properties of semi-solid alloys was important especially to predict cracks during and after solidification

Original language	English
Pages (from-to)	46-56
Number of pages	11
Journal	Journal of Materials Processing Technology
Volume	249
DOIs	https://doi.org/10.1016/j.jmatprotec.2017.05.022
Publication status	Published - 2017 Nov 1

Keywords

Casting
Cold cracking
Copper
Hot tearing
Semi-solid
Solidification

ASJC Scopus subject areas

Ceramics and Composites
Modelling and Simulation
Computer Science Applications
Metals and Alloys
Industrial and Manufacturing Engineering

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10.1016/j.jmatprotec.2017.05.022

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title = "Crack prediction for a partially solidified lead-free bronze casting using thermal stress analysis",

abstract = "For crack prediction in permanent mold casting of lead-free bronze, elasto-viscoplastic and elasto-plastic thermal stress analyses were performed and compared with the casting tests. The elastoviscoplastic model was constructed by the method which enables to determine rheological properties without steady state stress in experiments. Maximum deviatoric principal (only by the elastoviscoplastic analysis) and hydrostatic stress were in reasonable agreement with the locations of cold cracking and hot tearing in the casting tests, respectively. It was suggested that considering the rheological properties of semi-solid alloys was important especially to predict cracks during and after solidification",

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T1 - Crack prediction for a partially solidified lead-free bronze casting using thermal stress analysis

AU - Matsushita, Akira

AU - Nakazawa, Tomoaki

AU - Okane, Toshimitsu

AU - Yoshida, Makoto

PY - 2017/11/1

Y1 - 2017/11/1

N2 - For crack prediction in permanent mold casting of lead-free bronze, elasto-viscoplastic and elasto-plastic thermal stress analyses were performed and compared with the casting tests. The elastoviscoplastic model was constructed by the method which enables to determine rheological properties without steady state stress in experiments. Maximum deviatoric principal (only by the elastoviscoplastic analysis) and hydrostatic stress were in reasonable agreement with the locations of cold cracking and hot tearing in the casting tests, respectively. It was suggested that considering the rheological properties of semi-solid alloys was important especially to predict cracks during and after solidification

AB - For crack prediction in permanent mold casting of lead-free bronze, elasto-viscoplastic and elasto-plastic thermal stress analyses were performed and compared with the casting tests. The elastoviscoplastic model was constructed by the method which enables to determine rheological properties without steady state stress in experiments. Maximum deviatoric principal (only by the elastoviscoplastic analysis) and hydrostatic stress were in reasonable agreement with the locations of cold cracking and hot tearing in the casting tests, respectively. It was suggested that considering the rheological properties of semi-solid alloys was important especially to predict cracks during and after solidification

KW - Casting

KW - Cold cracking

KW - Copper

KW - Hot tearing

KW - Semi-solid

KW - Solidification

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DO - 10.1016/j.jmatprotec.2017.05.022

M3 - Article

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SP - 46

EP - 56

JO - Journal of Materials Processing Technology

JF - Journal of Materials Processing Technology

ER -

Crack prediction for a partially solidified lead-free bronze casting using thermal stress analysis

Abstract

Keywords

ASJC Scopus subject areas

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