Bending forming of lightweight large diameter thin-walled aluminum alloy aviation tube

Lanfang Jiang; Yichao Zhang; Wei Li; Shuyou Zhang; Heng Li; An Zhu

doi:10.1142/S0217984924420120

Bending forming of lightweight large diameter thin-walled aluminum alloy aviation tube

Lanfang Jiang, Yichao Zhang, Wei Li, Shuyou Zhang, Heng Li, An Zhu

材料学院

科研成果: 期刊稿件 › 文章 › 同行评审

摘要

To improve the forming quality of lightweight aviation tubes, the influence of different tube specifications, forming requirements and process parameters on bending forming of large diameter thin-walled (LDTW) LF2M aluminum alloy tubes (AATs) was studied. A finite element analysis model for LDTW AAT bending was established and verified. The results show that with the increase of mandrel extension length e_m, the wall-thinning ratio tends to increase. With the increase of e_m, the overall wall-thickening ratio decreases. With the increase of e_m, the ovality decreases first and then increases. The bending radius has a great influence on wall thickness variation. It has great significance to guide the bending forming of lightweight LDTW aluminum alloy aviation tube.

源语言	英语
文章编号	2442012
期刊	Modern Physics Letters B
卷	39
期	6
DOI	https://doi.org/10.1142/S0217984924420120
出版状态	已出版 - 28 2月 2025

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abstract = "To improve the forming quality of lightweight aviation tubes, the influence of different tube specifications, forming requirements and process parameters on bending forming of large diameter thin-walled (LDTW) LF2M aluminum alloy tubes (AATs) was studied. A finite element analysis model for LDTW AAT bending was established and verified. The results show that with the increase of mandrel extension length em, the wall-thinning ratio tends to increase. With the increase of em, the overall wall-thickening ratio decreases. With the increase of em, the ovality decreases first and then increases. The bending radius has a great influence on wall thickness variation. It has great significance to guide the bending forming of lightweight LDTW aluminum alloy aviation tube.",

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author = "Lanfang Jiang and Yichao Zhang and Wei Li and Shuyou Zhang and Heng Li and An Zhu",

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T1 - Bending forming of lightweight large diameter thin-walled aluminum alloy aviation tube

AU - Jiang, Lanfang

AU - Zhang, Yichao

AU - Li, Wei

AU - Zhang, Shuyou

AU - Li, Heng

AU - Zhu, An

N1 - Publisher Copyright: © World Scientific Publishing Company.

PY - 2025/2/28

Y1 - 2025/2/28

N2 - To improve the forming quality of lightweight aviation tubes, the influence of different tube specifications, forming requirements and process parameters on bending forming of large diameter thin-walled (LDTW) LF2M aluminum alloy tubes (AATs) was studied. A finite element analysis model for LDTW AAT bending was established and verified. The results show that with the increase of mandrel extension length em, the wall-thinning ratio tends to increase. With the increase of em, the overall wall-thickening ratio decreases. With the increase of em, the ovality decreases first and then increases. The bending radius has a great influence on wall thickness variation. It has great significance to guide the bending forming of lightweight LDTW aluminum alloy aviation tube.

AB - To improve the forming quality of lightweight aviation tubes, the influence of different tube specifications, forming requirements and process parameters on bending forming of large diameter thin-walled (LDTW) LF2M aluminum alloy tubes (AATs) was studied. A finite element analysis model for LDTW AAT bending was established and verified. The results show that with the increase of mandrel extension length em, the wall-thinning ratio tends to increase. With the increase of em, the overall wall-thickening ratio decreases. With the increase of em, the ovality decreases first and then increases. The bending radius has a great influence on wall thickness variation. It has great significance to guide the bending forming of lightweight LDTW aluminum alloy aviation tube.

KW - Large diameter thin-walled tube

KW - mandrel extension

KW - rotary drawing bending

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DO - 10.1142/S0217984924420120

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SN - 0217-9849

VL - 39

JO - Modern Physics Letters B

JF - Modern Physics Letters B

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M1 - 2442012

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Bending forming of lightweight large diameter thin-walled aluminum alloy aviation tube

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