摘要
研究了"淬火-配分-回火"(Q-P-T)工艺对20Si2Ni3钢三体冲击磨料磨损性能的影响。结果表明,随试验冲击能量从0.5 J增加到3.5 J,试样的磨损失重量先增大后减小,在2.5 J时出现峰;试样经Q-P-T工艺处理后的磨损失重量低于传统淬火回火(Q-T)工艺处理的试样,其主要磨损机制由犁削向应变疲劳转变;经Q-P-T处理的样品在磨损试验后的表面加工硬化层厚度明显高于经Q-T处理的样品。分析认为基体的高塑韧性及其在磨损过程中的形变强化和残余奥氏体的相变强化是Q-P-T工艺处理钢具有较好的抗冲击磨料磨损性能的原因。
The effect of mpact-abrasion of 20Si2Ni3 stee "quenching-partitioning-tempering" (Q-P-T) process on three-body was investigated. The results show that as increasing of the impact energy from 0.5 J to 3.5 J, the mass loss of the samples increases firstly and then decreases, and reaches maximum value at the impact energy of 2.5 J. The mass loss of the samples treated by Q-P-T is lower than those treated by Q-T. Major abrasion behavior is transition from cut to fatigue, and the thickness of the surface work-hardening for the samples treated by Q-P-T is much larger than that of Q-T treated. It is reasonable to propose that the better resistance in impact abrasive for the samples treated by Q- P-T process arises from high-toughness, work-hardening of the alloy matrix, the phase and deformation transformation strengthening of the retained austenite during abrasing.
出处
《材料研究学报》
EI
CAS
CSCD
北大核心
2009年第3期305-310,共6页
Chinese Journal of Materials Research
基金
国家八六三计划新材料领域2009AA03Z519资助项目~~
关键词
金属材料
马氏体
淬火-配分-回火工艺
三体冲击磨料磨损
残余奥氏体
metallic materials, martensite, quenching-partitioning-tempering process, three body impact abrasive wear, retained austenite
