[1]袁 明.高温合金薄壁盘复杂零件加工变形控制方法[J].机械与电子,2023,41(05):76-80.
 YUAN Ming.Machining Deformation Control Method of Superalloy Thin-walled Disk Complex Parts[J].Machinery & Electronics,2023,41(05):76-80.
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高温合金薄壁盘复杂零件加工变形控制方法()
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《机械与电子》[ISSN:1001-2257/CN:52-1052/TH]

卷:
41
期数:
2023年05期
页码:
76-80
栏目:
机电一体化技术
出版日期:
2023-05-25

文章信息/Info

Title:
Machining Deformation Control Method of Superalloy Thin-walled Disk Complex Parts
文章编号:
1001-2257 ( 2023 ) 05-0076-05
作者:
袁 明
中国航发哈尔滨东安发动机有限公司,黑龙江 哈尔滨 150066
Author(s):
YUAN Ming
( AECC Harbin Dong ’an Engine Co. , Ltd. , Harbin 150066 , China )
关键词:
高温合金薄壁盘复杂零件加工变形误差源诊断最小二乘多项式
Keywords:
superalloy thin-walled disk complex parts machining deformation error source diagnosis least squares polynomial
分类号:
TH161.1
文献标志码:
A
摘要:
薄壁盘由于材料刚性较差等原因难以确保零件加工精度,容易引起变形,对此,提出了高温合金薄壁盘复杂零件加工变形控制方法。分析零件加工过程中产生的变形因素,包括夹装方式、刀具性能参数、工件自身因素、机床定位精度不够以及温度控制不佳等;确立所有工序历史误差源集合,生成误差传递矩阵,构建变形误差源诊断模型;针对不同误差源,提出针对性控制方法,通过最小二乘多项式拟合算法计算让刀误差,并对其补偿;通过有限元分析法建立工件几何模型,设立刚度控制函数,弥补工件自身缺陷;针对机床定位精度和温度分别设计控制函数,实现零件加工变形的综合控制。实验结果表明,所提方法明显减少了零件加工变形现象,保证了切削力平稳,提高了零件质量。
Abstract:
The thin-walled disk is difficult to ensure the machining accuracy of parts due to poor material rigidity and is easy to cause deformation.Therefore , the machining deformation control method of complex parts of superalloy thin-walled disk is proposed.The deformation factors generated during the machining process are analyzed , including clamping method , tool performance parameters , workpiece self factors , insufficient machine positioning accuracy and poor temperature control , etc.The set of historical error sources of all processes is established , the error transfer matrix is generated , and the diagnostic model of deformation error sources is constructed.For different error sources , the proposed control method is tailored to calculate the tool letting error by least squares polynomial fitting algorithm and compensate for it. The workpiece geometry model is established by finite element analysis and the stiffness control function is set up to compensate for the defects of the workpiece itself.The control functions are designed separately for machine positioning accuracy and temperature to achieve comprehensive control of the machining deformation of the part.The experimental results show that the proposed method significantly reduces the part machining deformation , ensures the smooth cutting force and improves the part quality.

参考文献/References:

[ 1 ] 李曦,袁军堂,汪振华,等 . 基于 Rayleigh-Ritz 法的钛合金薄壁件非均匀余量加工变形控制研究[ J ] . 中国机械工程,2020 , 31 ( 11 ): 1378-1385.

[ 2 ] 周鑫,张森堂,马明阳 . 基于多工序仿真的静子内环零件变形控制[ J ] . 工具技术, 2021 , 55 ( 2 ): 68-71.
[ 3 ] 韩军,徐睿,熊凤生 . 环形薄壁铝合金零件数控加工技术研究[ J ] . 制造技术与机床, 2021 ( 4 ): 60-64.
[ 4 ] 彭涛,梁庆华,时轮 . 弱刚性零件夹紧顺序禁忌搜索优化方法研究[ J ] . 机械设计与研究, 2021 , 37 ( 2 ): 104-108.
[ 5 ] 秦国华,郭翊翔,王华敏,等 . 飞机整体结构件的“加工变形 疲劳寿命”多目标结构优化方法[ J ] . 工程力学,2021 , 38 ( 8 ): 222-236.
[ 6 ] 黄志伟,李珊 . 基于变形控制的薄壁板状压铸件加工精度保证[ J ] . 特种铸造及有色合金, 2020 , 40 ( 3 ): 294-296.
[ 7 ] 张晓红,王娅 . 复杂曲面铣削加工变形误差分析及切痕测量仪器开发[ J ] . 中国测试, 2021 , 47 ( 8 ): 120-129.
[ 8 ] 张春燕,许丰,程德俊,等 . 薄壁件加工变形仿真及工艺参数优选[ J ] . 组合机床与自动化加工技术, 2020 ( 6 ):154-158.
[ 9 ] 张永亮,张帅帅,张展,等 . 基于 MRF 柔性辅助支撑的弱刚性零件铣削加工[ J ] . 机械强度, 2021 , 43 ( 4 ): 868-873.
[ 10 ] 陈镇扬,彭文飞,牛波凯,等 . 超大型环形件用 2219 铝合金的热变形本构方程及热加工图[ J ] . 塑性工程学报,2020 , 27 ( 4 ): 83-92.
[ 11 ] 章晨,汪迪坤 . 一种对 1J50 软磁合金零件加工工艺过程的优化方案[ J ] . 微特电机, 2021 , 49 ( 7 ): 53-56.
[ 12 ] 韩如冰,刘凯,刘俊,等 . 铝合金车体零部件加工变形分析及其解决方案[ J ] . 城市轨道交通研究, 2020 , 23( 4 ): 28-31.

备注/Memo

备注/Memo:
收稿日期: 2022-03-14
作者简介:袁 明 ( 1990- ),男,黑龙江齐齐哈尔人,硕士,工程师,研究方向为机械制造、航空发动机。
更新日期/Last Update: 2023-05-24