Calculation and Experimental Verification of the Residual Stress of Tooth Surface in Spur Gear Form Grinding

Sheng Yu; Jun Wen; Jinyuan Tang

doi:10.16578/j.issn.1004.2539.2020.05.011

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Calculation and Experimental Verification of the Residual Stress of Tooth Surface in Spur Gear Form Grinding

Design· Calculation | 更新时间：2022-11-10

- Calculation and Experimental Verification of the Residual Stress of Tooth Surface in Spur Gear Form Grinding
- Journal of Mechanical Transmission Vol. 44, Issue 5, Pages: 73-77(2020)
- 作者机构：
  
  1.海军装备部驻长沙某部，湖南长沙 410000
  2.中南大学高性能复杂制造国家重点实验室，湖南长沙 410083
- 作者简介：
- 基金信息：
- DOI：10.16578/j.issn.1004.2539.2020.05.011
  CLC：
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余晟,温俊,唐进元.直齿轮成形磨削齿面残余应力计算与实验验证[J].机械传动,2020,44(05):73-77.

Yu Sheng,Wen Jun,Tang Jinyuan.Calculation and Experimental Verification of the Residual Stress of Tooth Surface in Spur Gear Form Grinding[J].Journal of Mechanical Transmission,2020,44(05):73-77.
余晟,温俊,唐进元.直齿轮成形磨削齿面残余应力计算与实验验证[J].机械传动,2020,44(05):73-77. DOI： 10.16578/j.issn.1004.2539.2020.05.011.

Yu Sheng,Wen Jun,Tang Jinyuan.Calculation and Experimental Verification of the Residual Stress of Tooth Surface in Spur Gear Form Grinding[J].Journal of Mechanical Transmission,2020,44(05):73-77. DOI： 10.16578/j.issn.1004.2539.2020.05.011.

摘要

磨削加工齿轮的残余应力状态对齿轮使役性能有较大影响，磨削后齿面的表面残余应力准确预测与计算是齿轮抗疲劳制造的重要内容。基于成形磨削运动分析及热力耦合有限元仿真计算方法，提出了齿轮成形磨削加工齿面残余应力计算方法。开展成形磨削实验，测量磨削后齿面的残余应力，对比分析残余应力实验测量值与有限元计算值，分析了磨削加工参数与残余应力的关联规律。结果表明，提出的成形磨削齿面残余应力计算方法得到的计算值与实验测试结果具有较好的一致性；在成形磨削中，砂轮进给深度越大，齿面残余拉应力越小。

Abstract

The residual stress state of grinding gear has great influence on its performance, the accurate prediction and calculation of residual stress of tooth surface after grinding is the important content of gear anti - fatigue manufacture. Based on the motion analysis of form grinding and the thermo-mechanical coupling finite element simulation calculation method, the calculation method of residual stress of the tooth surface after grinding is proposed. Subsequently, the forming grinding experiment is carried out, and the residual stress of the tooth surface after grinding is measured. The measured values of the residual stress and the finite element calculation value are compared, and the correlation law between the grinding parameters and the residual stress is analyzed. The research indicates that the calculation result of the proposed form grinding model is in good agreement with the experimental results. And in the form grinding, a larger feed depth results in a smaller residual tensile stress on the tooth surface after grinding.

关键词

成形磨削齿轮残余应力热力耦合计算方法

Keywords

Form grindingGearResidual stressThermo-mechanical couplingCalculation method

references

HEINZEL C，WAGNER A.Fine finishing of gears with high shape accuracy［J］.CIRP Annals-Manufacturing Technology，2013，62（1）：359-362.

孙思源，唐进元，刘溢.深冷处理工艺对半轴齿轮热处理变形的影响［J］.机械传动，2018，42（2）：1-5.

SUN Siyuan，TANG Jinyuan，LIU Yi.Effect of cryogenic treatment process on heat treatment deformation of side gear［J］.Journal of Mechanical Transmission，2018，42（2）：1-5.

余洋，唐进元，刘尧喜，等.基于XFEM的高速工况下齿根裂纹扩展规律研究［J］.机械传动，2018，42（12）：1-6.

YU Yang，TANG Jinyuan，LIU Yaoxi，et al.Research on tooth root crack propagation under high speed conditions based on XFEM［J］.Journal of Mechanical Transmission，2018，42（12）：1-6.

王雁东，陈思雨，唐进元.一种基于OptiStruct-Abaqus的航空齿轮腹板轻量化设计方法［J］.机械传动，2019，43（7）：60-65.

WANG Yandong，CHEN Siyu，TANG Jinyuan.A lightweight design method of aviation gear web based on OptiStruct-Abaqus［J］.Journal of Mechanical Transmission，2019，43（7）：60-65.

REGO R，LOPENHAUS C，GOMES J，et al.Residual stress interaction on gear manufacturing［J］.Journal of Materials Processing Technology，2018，252：249-258.

MAHDI M，ZHANG L.A numerical algorithm for the full coupling of mechanical deformation，thermal deformation and phase transformation in surface grinding［J］.Computational Mechanics，2000，26（2）：148-156.

YU X X，LAU W S.A finite-element analysis of residual stress in stretch grinding［J］.Journal of Materials Processing Technology，1999，94（1）：13-22.

SHAH S M，NELIAS D，ZAIN-ULDEIN M，et al.Numerical simulation of grinding induced phase transformation and residual stresses in AISI-52100 steel［J］.Finite Elements in Analysis and Design，2012（61）：1-11.

MAROJU N K，JIN X.Effects of vibration assistance on surface residual stress in grinding of Ti6Al4V alloy［J］.Procedia Manufacturing，2017（10）：171-182.

FERGANI O，SHAO Y，LAZOGLU I，et al.Temperature effects on grinding residual stress［J］.Procedia CIRP，2014（14）：2-6.

KUSCHEL S，KOLKWITZ B，SOLTER J，et al.Experimental and numerical analysis of residual stress change caused by thermal loads during grinding［J］.Procedia CIRP，2016（45）：51-54.

MALKIN S.Grinding of metals：theory and application［J］.Journal of Applied Metalworking，1984，3（2）：95-109.

LAVINE A S，MALKIN S，JEN T C.Thermal aspects of grinding with CBN wheels［J］.CIRP Annals-Manufacturing Technology，1989，38（1）：557-560.

JIN T，STEPHENSON D J，ROWE W B.Estimation of the convection heat transfer coefficient of coolant within the grinding zone［J］.Proceedings of the Institution of Mechanical Engineers，Part B：Journal of Engineering Manufacture，2003，217（3）：397-407.

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