Taguchi Method Optimization of Operating Parameters for Automotive Disc Brake Pad Wear

Q4 Engineering Applied Engineering Letters Pub Date : 2021-06-01 DOI:10.18485/aeletters.2021.6.2.1

V. A. Kalhapure, H. Khairnar

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引用次数: 3

Abstract

: The friction pair, disc, and pad in a braking system are in a delicate balance, with the pad being a complex combination of constituents that provides predictable characteristics, including a known and consistent friction level. In this investigation, L25 orthogonal array with arranged control factors is used for the design of experiment. Taguchi design, orthogonal array, S/N ratio and variance analysis (ANOVA) are used to explore the effect of factors like applied load, sliding speed and track or interface diameter on wear rate of brake pad friction material. In dry sliding conditions, wear tests are performed on the pin‐on‐disc tribometer with different load values (25‐125 N), sliding speeds (300‐1500 rpm) and track diameter values (40‐120 mm). ANOVA results stated that applied load is the most effective with 48.27 %, track diameter is 25 % and sliding speed is 19.23 % on wear rate of pad friction material. In order to obtain the minimum friction material wear rate, the optimum operating parameters have been identified as applied load is 25 N, sliding speed 1500 rpm and track diameter 60 mm. The computed and experimental values for pad material wear rate are adhere closer to 1.93 % of deviations only.

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汽车盘式刹车片磨损工况参数的田口法优化

制动系统中的摩擦副、摩擦盘和摩擦垫处于微妙的平衡状态，摩擦垫是多种成分的复杂组合，提供可预测的特性，包括已知和一致的摩擦水平。本研究采用控制因子排列的L25正交阵列进行实验设计。采用田口设计、正交设计、信噪比、方差分析等方法探讨了施加载荷、滑动速度、轨道或界面直径等因素对刹车片摩擦材料磨损率的影响。在干滑动条件下，在不同负载值(25 - 125牛)、滑动速度(300 - 1500转/分)和履带直径值(40 - 120毫米)的销盘摩擦计上进行磨损测试。方差分析结果表明，载荷对衬垫摩擦材料磨损率的影响最大，为48.27%，履带直径为25%，滑动速度为19.23%。为了获得最小的摩擦材料磨损率，确定了最佳运行参数:施加载荷为25牛，滑动速度为1500转/分，轨道直径为60毫米。衬垫材料磨损率的计算值和实验值仅接近偏差的1.93%。

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