摘要:本实验对17-4PH钢的热处理为1040℃固溶30min、1040℃固溶+600℃回火4h两种。采用组态控制万能摩擦磨损试验机对17-4PH钢进行干滑动摩擦磨损试验,研究了该材料不同热处理状态、不同工况下的摩擦磨损行为,摩擦磨损的实验温度分别为:20℃、120℃及240℃;扫描电镜分析磨损表面成分、形貌和磨面剖面结构,探讨17-4PH钢的磨损机理。结果表明:固溶态样品组织主要为淬火马氏体,600℃回火样品组织主要为回火马氏体,因此固溶态样品硬度高于回火后样品。两种热处理状态下的样品磨损率都随着实验温度的上升而升高,并且600℃回火样品明显高于固溶样品的磨损率。出现的主要磨损形式为磨粒磨损及黏着磨损。1040℃固溶样品在20℃摩擦条件下的状态为磨粒磨损,其磨损率最低,因而在这个条件下样品的耐磨性最好。8380
关键词:17-4PH钢;干摩擦;摩擦磨损;磨损率;磨损机理
Research on Friction and Wear Characteristics in high temperature of 17-4PH Steel
Abstract: The experiments on the 17-4PH steel heat treatment was 1040 ℃ solution 30min, 1040 ℃ solution +600 ℃ tempering 4h. Stainless steel 17-4PH were systematicallystudied under dry sliding condition with the load of 50N and the ambient temperature was 20 ℃、120℃ and 240 ℃ by a pin-on-disc high-temperature wear & abrasion tester.The experimental temperature friction and wear were: 20 ℃, 120 ℃ and 240 ℃. The structure,morphology and composition of the worn surface,subsurface and wear debris were examined using SEM.Scanning electron microscopy (SEM) worn surface composition, morphology and grinding section structure, 17-4PH steel investigate the wear mechanism. The results showed that: solid solution hardening martensitic sample tissue primarily, 600 ℃ tempered martensite sample tissue primarily, so the solution state sample than the hardness of the sample after tempering. Two kinds of heat treatment of the sample under test wear rate as the temperature is raised up, and the samples tempered at 600 ℃ higher than the wear rate of the sample solution. The main wear form is abrasive wear and adhesive wear. 1040 ℃ 20 ℃ rubbing the sample solution under the conditions of the status of abrasive wear, the wear rate is low, and thus in the sample under this condition the best wear resistance.
Keywords: 17-4PH steel; dry sliding; friction and wear; wear rate; wear mechanism
目 录
1.前言 1
1.1 不锈钢概述 1
1.1.1 不锈钢的发展 1
1.1.2不锈钢的分类 2
1.2不锈钢的磨损与危害 4
1.2.1不锈钢的磨损形式 4
1.2.2磨损的危害 5
1.3降低磨损的途径 5
1.4 17-4PH钢(马氏体沉淀强化不锈钢)的简介 6
1.5 17-4PH钢的物理性能 7
1.6 17-4PH钢的热处理工艺 8
1.7本文的意义及目的 9
2.实验材料及方法 10
2.1 实验材料 10
2.2热处理方案 10
2.3显微组织分析 11
2.3.1金相组织分析 11
2.3.2 TEM显微组织 12
2.4硬度与摩擦磨损试 13
2.4.1硬度试验 13
2.4.2.摩擦磨损试验 14
2.4.3磨面形貌测试 15
2.4.4.磨粒形貌测试 15
3.实验结果与分析 16
3.1组织观察 16
3.1.1 金相组织观察 16
3.1.2 TEM显微组织分析 16
3.2 磨损试验 17
3.2.1磨损率分析... 17
3.2.2样品磨损面形貌分析 17 17-4PH钢高温磨损机理的研究+文献综述:http://www.751com.cn/cailiao/lunwen_6711.html