兵器材料科学与工程
兵器材料科學與工程
병기재료과학여공정
Ordnance Material Science and Engineering
2010年
1期
21-25
,共5页
雷声%赵雅丽%桂中祥%陈从升%吴跃波
雷聲%趙雅麗%桂中祥%陳從升%吳躍波
뢰성%조아려%계중상%진종승%오약파
激光技术%激光相变硬化%数值模拟%滚道表面
激光技術%激光相變硬化%數值模擬%滾道錶麵
격광기술%격광상변경화%수치모의%곤도표면
laser technology%laser phase transformation hardening%numerical simulation%race surface
利用CO_2激光对GCr15钢轴承滚道表面进行激光相变硬化处理实验.对GCr15轴承滚道表面激光相变硬化处理过程进行数值模拟,讨论激光工艺参数对轴承滚道表面激光硬化处理后相变硬化区宽度和深度的影响,得出与实验比较吻合的结果.激光参数变化所造成的微观结构变化导致表面硬度值差异较大.模拟结果表明,激光工艺参数固定时,激光扫描进、出端的温度场有明显的不同,导致沿激光扫描方向硬度分布的不均匀性和激光扫描进、出端淬硬层深度分布的不均匀性.并探讨改善硬化层深度分布均匀性和表面硬度均匀性的方法.
利用CO_2激光對GCr15鋼軸承滾道錶麵進行激光相變硬化處理實驗.對GCr15軸承滾道錶麵激光相變硬化處理過程進行數值模擬,討論激光工藝參數對軸承滾道錶麵激光硬化處理後相變硬化區寬度和深度的影響,得齣與實驗比較吻閤的結果.激光參數變化所造成的微觀結構變化導緻錶麵硬度值差異較大.模擬結果錶明,激光工藝參數固定時,激光掃描進、齣耑的溫度場有明顯的不同,導緻沿激光掃描方嚮硬度分佈的不均勻性和激光掃描進、齣耑淬硬層深度分佈的不均勻性.併探討改善硬化層深度分佈均勻性和錶麵硬度均勻性的方法.
이용CO_2격광대GCr15강축승곤도표면진행격광상변경화처리실험.대GCr15축승곤도표면격광상변경화처리과정진행수치모의,토론격광공예삼수대축승곤도표면격광경화처리후상변경화구관도화심도적영향,득출여실험비교문합적결과.격광삼수변화소조성적미관결구변화도치표면경도치차이교대.모의결과표명,격광공예삼수고정시,격광소묘진、출단적온도장유명현적불동,도치연격광소묘방향경도분포적불균균성화격광소묘진、출단쉬경층심도분포적불균균성.병탐토개선경화층심도분포균균성화표면경도균균성적방법.
The laser transformation hardening process of GCr15 steel bearing rings was investigated by using CO_2 continuous wave laser. In this paper, the temperature field of laser transformation hardened layers for race surface was analyzed. The influences of laser parameter on widths and depths of laser transformation hardening zones of GCr15 steel were discussed and the results obtained were in agreement with the experiment. The difference of the microstructure was formed by changing the laser processing parameters, which resulted in the bigger difference of surface hardness. From the theoretical results, it is clear that the temperature field in the inlet and outlet ends of laser hardening surface has an obvious change when laser mean power is kept constant, which results in the hardness discrepancy and the case discrepancy between the inlet and outlet ends of laser hardening surface. Methods were discussed to improve the hardened case distribution uniformity and the hardness uniformity of the steel surface.