Relation between flange fracture and blankholder force in the process of cylindrical deep drawing of AZ31B rolled magnesium alloy sheets

Masahiro Okawa; Shigeki Mori; Tomohiro Murakami; Akito Takasaki

doi:10.2464/jilm.69.113

Relation between flange fracture and blankholder force in the process of cylindrical deep drawing of AZ31B rolled magnesium alloy sheets

Masahiro Okawa, Shigeki Mori, Tomohiro Murakami, Akito Takasaki

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

Abstract

The fracture occurring at the flange edge in the process of cylindrical deep drawing of AZ31B magnesium alloy sheets was investigated. The fractures were simulated under a uniaxial in-plane compression test to classify the fracture types while the blankholder force of the sheet was varied. Two types of fractures, out-of-plane shear fracture (OPSF), and in-plane shear fracture (IPSF), were observed. The fracture types changed from OPSF to IPSF as the blankholder force increased to a drawing ratio of approximately 1.5-1.6. This implies that the fracture type could be controlled by changing the blankholder force. The transition from OPSF to IPSF increased the fracture strain, because the out of plane buckling of the alloy sheets was suppressed by the blankholder force. The results confirmed that, in cylindrical deep drawing, the limiting drawing ratio could be increased by restraining the flange edge of the alloy sheets with the sufficient blankholder force.

Original language	English
Pages (from-to)	113-119
Number of pages	7
Journal	Keikinzoku/Journal of Japan Institute of Light Metals
Volume	69
Issue number	2
DOIs	https://doi.org/10.2464/jilm.69.113
Publication status	Published - 2019

Keywords

Deep drawing
Flange edge fracture
Magnesium alloy sheet
Uniaxial in-plane compression

ASJC Scopus subject areas

Mechanics of Materials
Mechanical Engineering
Metals and Alloys
Materials Chemistry

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title = "Relation between flange fracture and blankholder force in the process of cylindrical deep drawing of AZ31B rolled magnesium alloy sheets",

abstract = "The fracture occurring at the flange edge in the process of cylindrical deep drawing of AZ31B magnesium alloy sheets was investigated. The fractures were simulated under a uniaxial in-plane compression test to classify the fracture types while the blankholder force of the sheet was varied. Two types of fractures, out-of-plane shear fracture (OPSF), and in-plane shear fracture (IPSF), were observed. The fracture types changed from OPSF to IPSF as the blankholder force increased to a drawing ratio of approximately 1.5-1.6. This implies that the fracture type could be controlled by changing the blankholder force. The transition from OPSF to IPSF increased the fracture strain, because the out of plane buckling of the alloy sheets was suppressed by the blankholder force. The results confirmed that, in cylindrical deep drawing, the limiting drawing ratio could be increased by restraining the flange edge of the alloy sheets with the sufficient blankholder force.",

keywords = "Deep drawing, Flange edge fracture, Magnesium alloy sheet, Uniaxial in-plane compression",

author = "Masahiro Okawa and Shigeki Mori and Tomohiro Murakami and Akito Takasaki",

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year = "2019",

doi = "10.2464/jilm.69.113",

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AU - Okawa, Masahiro

AU - Mori, Shigeki

AU - Murakami, Tomohiro

AU - Takasaki, Akito

PY - 2019

Y1 - 2019

N2 - The fracture occurring at the flange edge in the process of cylindrical deep drawing of AZ31B magnesium alloy sheets was investigated. The fractures were simulated under a uniaxial in-plane compression test to classify the fracture types while the blankholder force of the sheet was varied. Two types of fractures, out-of-plane shear fracture (OPSF), and in-plane shear fracture (IPSF), were observed. The fracture types changed from OPSF to IPSF as the blankholder force increased to a drawing ratio of approximately 1.5-1.6. This implies that the fracture type could be controlled by changing the blankholder force. The transition from OPSF to IPSF increased the fracture strain, because the out of plane buckling of the alloy sheets was suppressed by the blankholder force. The results confirmed that, in cylindrical deep drawing, the limiting drawing ratio could be increased by restraining the flange edge of the alloy sheets with the sufficient blankholder force.

AB - The fracture occurring at the flange edge in the process of cylindrical deep drawing of AZ31B magnesium alloy sheets was investigated. The fractures were simulated under a uniaxial in-plane compression test to classify the fracture types while the blankholder force of the sheet was varied. Two types of fractures, out-of-plane shear fracture (OPSF), and in-plane shear fracture (IPSF), were observed. The fracture types changed from OPSF to IPSF as the blankholder force increased to a drawing ratio of approximately 1.5-1.6. This implies that the fracture type could be controlled by changing the blankholder force. The transition from OPSF to IPSF increased the fracture strain, because the out of plane buckling of the alloy sheets was suppressed by the blankholder force. The results confirmed that, in cylindrical deep drawing, the limiting drawing ratio could be increased by restraining the flange edge of the alloy sheets with the sufficient blankholder force.

KW - Deep drawing

KW - Flange edge fracture

KW - Magnesium alloy sheet

KW - Uniaxial in-plane compression

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Relation between flange fracture and blankholder force in the process of cylindrical deep drawing of AZ31B rolled magnesium alloy sheets

Abstract

Keywords

ASJC Scopus subject areas

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