Forming-Precision-Driven Structure Design of Hydraulic Press： Methodology and Case Study

The structure stiffness of presses has great effects on the forming precision of workpieces, especially in near-net or net shape forming. Conventionally the stiffness specification of presses is empirically determined, resulting in poor designs with insufficient or over sufficient stiffness of press...

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Published in	Transactions of Tianjin University Vol. 21; no. 6; pp. 541 - 553
Main Author	李艳聪张连洪何柏岩陈永亮张淳
Format	Journal Article
Language	English
Published	Tianjin Tianjin University 01.12.2015
Subjects	Engineering Humanities and Social Sciences Mechanical Engineering multidisciplinary Science 下线服务迁移 conceptual design optimal design hydraulic press prototype design precision forming structure design
Online Access	Get full text
ISSN	1006-4982 1995-8196
DOI	10.1007/s12209-015-2500-2

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Abstract	The structure stiffness of presses has great effects on the forming precision of workpieces, especially in near-net or net shape forming. Conventionally the stiffness specification of presses is empirically determined, resulting in poor designs with insufficient or over sufficient stiffness of press structures. In this paper, an approach for the structure design of hydraulic presses is proposed, which is forming-precision-driven and can make presses costeffective by lightweight optimization. The approach consists of five steps：（1）the determination of the press stiffness specification in terms of the forming precision requirement of workpieces;（2）the conceptual design of the press structures according to the stiffness and workspace specifications, and the structure configuration of the press;（3）the prototype design of the press structures by equivalently converting the conceptual design to prototypes;（4）the selection of key structure parameters by sensitivity analysis of the prototype design; and（5）the optimization of the prototype design. The approach is demonstrated and validated through a case study of the structure design of a 100 MN hydraulic press.
AbstractList	The structure stiffness of presses has great effects on the forming precision of workpieces, especially in near-net or net shape forming. Conventionally the stiffness specification of presses is empirically determined, resulting in poor designs with insufficient or over sufficient stiffness of press structures. In this paper, an approach for the structure design of hydraulic presses is proposed, which is forming-precision-driven and can make presses costeffective by lightweight optimization. The approach consists of five steps:(1)the determination of the press stiffness specification in terms of the forming precision requirement of workpieces;(2)the conceptual design of the press structures according to the stiffness and workspace specifications, and the structure configuration of the press;(3)the prototype design of the press structures by equivalently converting the conceptual design to prototypes;( 4)the selection of key structure parameters by sensitivity analysis of the prototype design; and(5)the optimization of the prototype design. The approach is demonstrated and validated through a case study of the structure design of a 100 MN hydraulic press. The structure stiffness of presses has great effects on the forming precision of workpieces, especially in near-net or net shape forming. Conventionally the stiffness specification of presses is empirically determined, resulting in poor designs with insufficient or over sufficient stiffness of press structures. In this paper, an approach for the structure design of hydraulic presses is proposed, which is forming-precision-driven and can make presses costeffective by lightweight optimization. The approach consists of five steps：（1）the determination of the press stiffness specification in terms of the forming precision requirement of workpieces;（2）the conceptual design of the press structures according to the stiffness and workspace specifications, and the structure configuration of the press;（3）the prototype design of the press structures by equivalently converting the conceptual design to prototypes;（4）the selection of key structure parameters by sensitivity analysis of the prototype design; and（5）the optimization of the prototype design. The approach is demonstrated and validated through a case study of the structure design of a 100 MN hydraulic press. The structure stiffness of presses has great effects on the forming precision of workpieces, especially in near-net or net shape forming. Conventionally the stiffness specification of presses is empirically determined, re-sulting in poor designs with insufficient or over sufficient stiffness of press structures. In this paper, an approach for the structure design of hydraulic presses is proposed, which is forming-precision-driven and can make presses cost-effective by lightweight optimization. The approach consists of five steps:(1)the determination of the press stiff-ness specification in terms of the forming precision requirement of workpieces;(2)the conceptual design of the press structures according to the stiffness and workspace specifications, and the structure configuration of the press;(3)the prototype design of the press structures by equivalently converting the conceptual design to proto-types;(4)the selection of key structure parameters by sensitivity analysis of the prototype design; and(5)the opti-mization of the prototype design. The approach is demonstrated and validated through a case study of the structure design of a 100 MN hydraulic press.
Author	李艳聪张连洪何柏岩陈永亮张淳
AuthorAffiliation	Key Laboratory of Mechanism Theory and Equipment Design, Tianjin University, Tianjin 300072, China School of Mechanical and Electrical Engineering, Tianjin Agricultural University, Tianjin 300384, China Tianjin Tianduan Press Co., Tianjin 300142, China
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Notes	Li Yancong , Zhang Lianhong , He Baiyan , Chen Yongliang , Zhang Chun （1. Key Laboratory of Mechanism Theory and Equipment Design, Tianjin University, Tianjin 300072, China; 2. School of Mechanical and Electrical Engineering, Tianjin Agricultural University, Tianjin 300384, China; 3. Yianjin Tianduan Press Co., Tianjin 300142, China） 12-1248/T hydraulic press structure design precision forming conceptual design prototype design optimal design The structure stiffness of presses has great effects on the forming precision of workpieces, especially in near-net or net shape forming. Conventionally the stiffness specification of presses is empirically determined, resulting in poor designs with insufficient or over sufficient stiffness of press structures. In this paper, an approach for the structure design of hydraulic presses is proposed, which is forming-precision-driven and can make presses costeffective by lightweight optimization. The approach consists of five steps：（1）the determination of the press stiffness specification in terms of the forming precision requirement of workpieces;（2）the conceptual design of the press structures according to the stiffness and workspace specifications, and the structure configuration of the press;（3）the prototype design of the press structures by equivalently converting the conceptual design to prototypes;（4）the selection of key structure parameters by sensitivity analysis of the prototype design; and（5）the optimization of the prototype design. The approach is demonstrated and validated through a case study of the structure design of a 100 MN hydraulic press.
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Title	Forming-Precision-Driven Structure Design of Hydraulic Press： Methodology and Case Study
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