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一种薄壁悬臂叶片数控加工非均匀余量刚度补偿方法

单晨伟, 赵颖, 刘维伟, 张定华   

  1. 西北工业大学现代设计与集成制造技术教育部重点实验室, 西安 710072
  • 收稿日期:2012-08-01 修回日期:2012-09-17 出版日期:2013-03-25 发布日期:2013-03-29
  • 通讯作者: 单晨伟,Tel.: 029-88493232-230 E-mail: shancw@nwpu.edu.cn E-mail:shancw@nwpu.edu.cn
  • 作者简介:单晨伟 男, 博士, 副教授, 硕士生导师。主要研究方向: 多轴数控编程技术、 薄壁曲面类零件数控铣削加工技术和C/C复合材料数控铣削加工技术。 Tel: 029-88493232-230 E-mail: shancw@nwpu.edu.cn
  • 基金资助:

    国家自然科学基金(51105312)

A Nonuniform Offset Surface Rigidity Compensation Strategy in Numerical Controlled Machining of Thin-walled Cantilever Blades

SHAN Chenwei, ZHAO Ying, LIU Weiwei, ZHANG Dinghua   

  1. Key Laboratory of Contemporary Design and Integrated Manufacturing Technology, Ministry of Education, Northwestern Polytechnical University, Xi'an 710072, China
  • Received:2012-08-01 Revised:2012-09-17 Online:2013-03-25 Published:2013-03-29
  • Supported by:

    National Natural Science Foundation of China (51105312)

摘要:

在数控加工过程中,因受到切削力的影响,薄壁悬臂叶片容易出现弯曲、扭转变形等问题而导致被加工曲面误差较大。针对该问题,提出了一种非均匀余量刚度补偿方法,将非均匀余量偏置面作为粗加工/半精加工零件面以提高叶片精加工时的抗弯刚度。首先,分析了集中力载荷下截面厚度对薄壁工件变形的影响;然后,对叶片径向和截面线方向分别采用线性变化和正弦函数变化两种方法进行叶片曲面非均匀余量刚度补偿设计;最后,基于叶片原始截面线,采用放样法构造出叶片曲面的非均匀余量偏置面。试验结果表明,采用非均匀余量刚度补偿方法可以提高被加工叶片精加工时的刚度,加工出的叶片满足了设计误差要求。

关键词: 叶片, 非均匀偏置面, 刚度补偿, 计算机辅助设计, 曲面

Abstract:

It is difficulty to produce high quality thin-walled cantilever blades in numerical controlled(NC) machining due to cutting force induced workpiece deflections which result in surface errors on the machined blades. The methodology presented in this paper aims to compensate the rigidity of blades for induced surface errors in finish machining by modifying the machining allowances in the rough/semi-finish NC machining procedure. To ensure this, a nonuniform offset surface is introduced. First, the influence of cross-sectional thickness on the deflection of thin-walled plates under concentrated forces is discussed. Second, linear and sinusoidal functions are adopted to plan the uneven offset values for the nonuniform offset surface respectively along the radial and cross-sectional direction of the blades. Finally, based on the primary cross-sectional curves, the nonuniform offset surface is constructed by lofting. The experimental results show that the nonuniform offset surface can improve the rigidity of the test blades in finish machining, and the test blades machined this way can meet the design requirements.

Key words: blade, nonuniform offset surface, rigidity compensation, computer aided design, surfaces

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