Influences of material parameters on deep drawing of thin-walled hemispheric surface part

En zhi GAO; Hong wei LI; Hong chao KOU; Hui CHANG; Jin shan LI; Lian ZHOU

doi:10.1016/S1003-6326(08)60291-5

Influences of material parameters on deep drawing of thin-walled hemispheric surface part

En zhi GAO, Hong wei LI, Hong chao KOU, Hui CHANG, Jin shan LI, Lian ZHOU

Northwestern Polytechnical University Xian

科研成果: 期刊稿件 › 文章 › 同行评审

36 引用（Scopus）

摘要

During deep drawing process, the material parameters of blank have a significant effect on the quality of the drawn part and the determination of process parameters. Here, a 3D finite element model is developed for the deep drawing process of a thin-walled hemispheric surface part. Then the influences of material parameters including hardening exponent n, yield stress σ_s and elastic modulus E on the process are investigated by simulation. The results show that the effects of n and σ_s on punch force, thickness variation and equivalent strain are more notable. The maximum equivalent plastic strain occurs outside the die corner. However, when the value of n is 0.03 or σ_s is smaller than 120 MPa, higher equivalent plastic strain occurs at ball top.

源语言	英语
页（从-至）	433-437
页数	5
期刊	Transactions of Nonferrous Metals Society of China (English Edition)
卷	19
期	2
DOI	https://doi.org/10.1016/S1003-6326(08)60291-5
出版状态	已出版 - 4月 2009
已对外发布	是

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title = "Influences of material parameters on deep drawing of thin-walled hemispheric surface part",

abstract = "During deep drawing process, the material parameters of blank have a significant effect on the quality of the drawn part and the determination of process parameters. Here, a 3D finite element model is developed for the deep drawing process of a thin-walled hemispheric surface part. Then the influences of material parameters including hardening exponent n, yield stress σs and elastic modulus E on the process are investigated by simulation. The results show that the effects of n and σs on punch force, thickness variation and equivalent strain are more notable. The maximum equivalent plastic strain occurs outside the die corner. However, when the value of n is 0.03 or σs is smaller than 120 MPa, higher equivalent plastic strain occurs at ball top.",

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T1 - Influences of material parameters on deep drawing of thin-walled hemispheric surface part

AU - GAO, En zhi

AU - LI, Hong wei

AU - KOU, Hong chao

AU - CHANG, Hui

AU - LI, Jin shan

AU - ZHOU, Lian

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N2 - During deep drawing process, the material parameters of blank have a significant effect on the quality of the drawn part and the determination of process parameters. Here, a 3D finite element model is developed for the deep drawing process of a thin-walled hemispheric surface part. Then the influences of material parameters including hardening exponent n, yield stress σs and elastic modulus E on the process are investigated by simulation. The results show that the effects of n and σs on punch force, thickness variation and equivalent strain are more notable. The maximum equivalent plastic strain occurs outside the die corner. However, when the value of n is 0.03 or σs is smaller than 120 MPa, higher equivalent plastic strain occurs at ball top.

AB - During deep drawing process, the material parameters of blank have a significant effect on the quality of the drawn part and the determination of process parameters. Here, a 3D finite element model is developed for the deep drawing process of a thin-walled hemispheric surface part. Then the influences of material parameters including hardening exponent n, yield stress σs and elastic modulus E on the process are investigated by simulation. The results show that the effects of n and σs on punch force, thickness variation and equivalent strain are more notable. The maximum equivalent plastic strain occurs outside the die corner. However, when the value of n is 0.03 or σs is smaller than 120 MPa, higher equivalent plastic strain occurs at ball top.

KW - deep drawing

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Influences of material parameters on deep drawing of thin-walled hemispheric surface part

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