JZUS - Journal of Zhejiang University SCIENCE

Journal of Zhejiang University SCIENCE A 2017 Vol.18 No.3 P.194-211

Study on the deformation theory of a parabolic part based on solid granules medium forming

Author(s): Xiang-dong Jia, Chang-cai Zhao, Jian-chao Li, Liu-yang He
Affiliation(s): MOE Key Laboratory of Advanced Forging & Stamping Technology and Science, Yanshan University, Qinhuangdao 066004, China
Corresponding email(s): zhao1964@ysu.edu.cn
Key Words: Solid granules medium, Flexible die forming, Drawing, Drawing weight, Bulging weight, Strain

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Xiang-dong Jia, Chang-cai Zhao , Jian-chao Li, Liu-yang He. Study on the deformation theory of a parabolic part based on solid granules medium forming[J]. Journal of Zhejiang University Science A, 2017, 18(3): 194-211.

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author="Xiang-dong Jia, Chang-cai Zhao , Jian-chao Li, Liu-yang He",
journal="Journal of Zhejiang University Science A",
volume="18",
number="3",
pages="194-211",
year="2017",
publisher="Zhejiang University Press & Springer",
doi="10.1631/jzus.A1600408"
}

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Abstract
Chinese Summary
Academic Network
Reviewer Comment

Abstract: solid granules medium forming (SGMF), a new flexible die forming technology, uses solid granules instead of a rigid male or female die (or elastomer, liquid) for sheet metal drawing. The good fluidity and compressive capacity of a solid granules medium can improve the forming limit of complex shell parts. The sheet metal drawing process of SGMF is a compound process of drawing and bulging, which is very different from the conventional drawing process. A parabolic part is used as the research object for a study of the forming process. Two concepts, drawing weight and bulging weight, are originally proposed in the sheet metal drawing of SGMF (replacing the rigid male die), and the corresponding expressions are obtained. The computational formulas of geometrical conditions and strain in the sheet metal drawing of SGMF are established, and the radius of the strain dividing circle is obtained by calculation. The established theoretical model is applied to the research object, an aircraft part, to analyze the forming process. The results show that the proposed theory can be applied to analyze the strain in different deformation regions of SGMF. This original theory provides a new theoretical analysis for studying the sheet metal drawing of SGMF.

抛物线型零件固体颗粒介质成形变形理论研究

目的：板材固体颗粒介质成形工艺作为一种新型的软模成形技术，是采用固体颗粒代替刚性凸模或凹模(或弹性体、液体)对板料进行成形加工的工艺。固体颗粒介质板材拉深成形工艺为拉深和胀形两种变形模式的复合成形，其变形过程与传统拉深成形工艺有很大的区别。以抛物线型零件为研究对象，对其成形过程进行研究，建立固体颗粒介质板材软凸模拉深成形的几何条件和应变计算公式。
创新点：1. 首次提出了描述固体颗粒介质板材拉深成形变形机理的拉深权和胀形权的概念，并建立了相应的计算公式；2. 建立了固体颗粒介质抛物线型零件软凸模拉深成形的几何条件和应变计算公式。
方法：1. 通过对抛物线型零件固体颗粒介质拉深成形的变形过程分析(图1~3)，将变形过程和成形工件的变形区进行划分；2. 将数学中权函数的思想引入到对抛物线型零件固体颗粒介质拉深成形的分析中，提出拉深权和胀形权的定义及相应表达式(公式(1)和(2))；3. 通过理论推导，构建不同成形阶段抛物线型零件拉深成形过程中的应变计算式(公式(28)~(30)和公式(62a)~(62c))和壁厚计算公式(公式(31)和(63))；4. 利用MATLAB编制抛物线型零件拉深成形应变计算程序(图14)；5. 以某航空零件为目标零件，通过试验试制不同成形条件下不同阶段的抛物线型工件(表2和3)，将理论计算壁厚与实测厚度进行对比(图19)，将试验轮廓与理论计算轮廓进行对比(图21)，验证分析过程中所提假设及理论计算的可行性和正确性；将试验获得成形工件的几何尺寸(表3)代入MATLAB计算程序中，对该航空零件的变形过程进行分析(图15、18、19、21和22)。
结论：1. 固体颗粒介质拉深成形过程是胀形和拉深的复合成形，通过对其变形过程分析，首次提出了拉深权和胀形权的概念，并且给出了其计算公式。成形过程中，拉深权越大，工件成形后的壁厚差越小；胀形权则正好相反。2. 利用拉深权和胀形权，建立了固体颗粒介质软凸模拉深成形变形区应变计算公式，且可以计算出应变分界圆位置半径，为分析固体颗粒介质软凸模拉深成形工艺变形过程提供了新的理论依据。3. 设置合理的成形条件、拉深权的提高和应变分界圆半径的缩小可以降低拉深成形过程中底部的过度减薄，进而提高极限成形高度。

关键词：固体颗粒介质；软模成形；拉深；拉深权；胀形权；应变

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抛物线型零件固体颗粒介质成形变形理论研究

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