NUMERICAL SIMULATION FOR OPTIMIZING TOOTH PROFILE USING BEZIER CURVE

机译：贝塞尔曲线优化齿廓的数值模拟

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The research hereby introduces a novel approach to reduce tooth bending stress using a parametric numeric simulation. This Finite Element Method (FEM) is used to determine optimal design variables for an asymmetric root profile of a helical gear defined by a rational cubic Bezier curve. The gear is first modelled using a machine design software and later implemented into a 3D computer aided design (CAD) package to modify the root spline geometry using a script. A nonlinear relationship exists between the design variables and tooth bending stress. Additionally, certain trends exist between the design variables to exhibit a more optimal root profile. The simulation results show that the proposed method is feasible as the general optimization process results in significant bending stress reduction. The numerical simulation demonstrates that bending stress can be reduced by as much as 10.75% by the proposed approach.

机译：因此，本研究介绍了一种使用参数数值模拟来减少牙齿弯曲应力的新颖方法。此有限元方法（FEM）用于确定由有理三次贝塞尔曲线定义的斜齿轮的非对称根轮廓的最佳设计变量。首先使用机器设计软件对齿轮进行建模，然后将其实现到3D计算机辅助设计（CAD）软件包中，以使用脚本修改齿条的根部几何形状。设计变量和牙齿弯曲应力之间存在非线性关系。此外，在设计变量之间存在某些趋势，以显示更理想的根轮廓。仿真结果表明，该方法是可行的，因为一般的优化过程可以显着降低弯曲应力。数值模拟表明，所提出的方法可以将弯曲应力降低多达10.75％。

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《International Design Engineering Technical Conferences;Computers and Information in Engineering Conference;International Power Transmission and Gearing Conference》|2019年|V010T11A026.1-V010T11A026.5|共5页
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Kevin Qiu; Reza Samadi;
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gear geometry; optimization; Bezier curve; finite element analysis;

机译：齿轮几何;优化;贝塞尔曲线有限元分析;

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专利

1. Optimization of Tooth Root Profile Using Bezier Curve with G2 Continuity to Reduce Bending Stress of Asymmetric Spur Gear Tooth [J] . Priyakant Vaghela, Jagdish Prajapati MATEC Web of Conferences . 2018,第1期

机译：使用G2连续性的贝塞尔曲线优化齿根轮廓，以减少不对称正齿轮的弯曲应力
2. A Numerical Investigation of Extrusion through Bezier Shaped Curved Die Profile [J] . Akshaya Kumar Rout, Kalipada Maity, Sushant Kumar Rath Key Engineering Materials . 2010,第期

机译：贝塞尔曲线弯曲模具轮廓挤压的数值研究
3. Dynamic Simulation of Harmonic Gear Drives Considering Tooth Profiles Parameters Optimization [J] . Huimin Dong, Zhengdu Zhu, Weidong Zhou, Journal of Computers . 2012,第6期

机译：考虑牙齿简谱参数优化的谐波驱动动态仿真
4. Shape optimization for fluid flow problems using bezier curves and designed numerical experiments [C] . Dulyachot Cholaseuk, Vijay Srinivasan, Vijay Modi Proceedings of the 1999 ASME design engineering technical conferences . 1999

机译：使用贝塞尔曲线和设计的数值实验对流体流动问题进行形状优化
5. Multi-objective particle swarm optimization of a modified Bernstein polynomial for curved phased array synthesis using Bezier curves, surfaces, and volumes. [D] . Boeringer, Daniel Wilharm. 2004

机译：修正的Bernstein多项式的多目标粒子群优化，用于使用Bezier曲线，曲面和体积进行弯曲相控阵合成。
6. Non-Invasive Assessment Method Using Thoracic-Abdominal Profile Image Acquisition and Mathematical Modeling with Bezier Curves [O] . Monica Ana Paraschiva Purcaru, Angela Repanovici, Tiberiu Nedeloiu 2019

机译：胸腹轮廓图像采集和贝塞尔曲线数学建模的非侵入性评估方法
7. Rail Optimization of Noncircular Curve of Crane Turning Based on Quasiquartic Bezier Curve with Three Shape Parameters [O] . Gang Liang, Zhangjie Wu, Weikun Yu 2020

机译：基于三种形状参数的Quasiquartiquard Bezier曲线的起重机转弯非圆形曲线的轨道优化
8. Optimization of Spur Gear Systems by Tooth Profile and Face Width Modifications [R] . Moosavi, H., Naji, M., Greywall, M. 1990

机译：通过齿廓和面宽度修改优化直齿轮系统

NUMERICAL SIMULATION FOR OPTIMIZING TOOTH PROFILE USING BEZIER CURVE

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