激光技术
激光技術
격광기술
LASER TECHNOLOGY
2014年
1期
91-95
,共5页
谢小江%周建忠%陈寒松%黄舒%孟宪凯%戴磊
謝小江%週建忠%陳寒鬆%黃舒%孟憲凱%戴磊
사소강%주건충%진한송%황서%맹헌개%대뢰
激光技术%热稳定性%激光喷丸强化%残余压应力%位错密度
激光技術%熱穩定性%激光噴汍彊化%殘餘壓應力%位錯密度
격광기술%열은정성%격광분환강화%잔여압응력%위착밀도
laser technique%thermal stability%laser shock peening%residual compressive stress%dislocation density
为了研究激光喷丸技术对 A356铝合金热稳定性能的影响,采用 Nd∶YAG 激光器对其进行表面激光喷丸处理及将各试样进行220°C 退火试验处理的方法,从微观组织、显微硬度及残余应力等方面进行理论分析和实验验证,取得了一系列实验数据。结果表明,激光喷丸处理能够有效提高 A356铝合金的热稳定性能,且在材料表面诱导了较大残余压应力,显微硬度和位错密度得到显著提高,晶粒明显细化;退火后,激光喷丸试样的表面残余压应力下降了30.68%,位错密度从1.63°降到1.51°,显微硬度下降19.42%,表层晶粒尺寸有所长大,但较基体而言,其晶粒尺寸长大幅度较小。这一结果对于拓展激光喷丸技术和 A356铝合金的应用领域是有帮助的。
為瞭研究激光噴汍技術對 A356鋁閤金熱穩定性能的影響,採用 Nd∶YAG 激光器對其進行錶麵激光噴汍處理及將各試樣進行220°C 退火試驗處理的方法,從微觀組織、顯微硬度及殘餘應力等方麵進行理論分析和實驗驗證,取得瞭一繫列實驗數據。結果錶明,激光噴汍處理能夠有效提高 A356鋁閤金的熱穩定性能,且在材料錶麵誘導瞭較大殘餘壓應力,顯微硬度和位錯密度得到顯著提高,晶粒明顯細化;退火後,激光噴汍試樣的錶麵殘餘壓應力下降瞭30.68%,位錯密度從1.63°降到1.51°,顯微硬度下降19.42%,錶層晶粒呎吋有所長大,但較基體而言,其晶粒呎吋長大幅度較小。這一結果對于拓展激光噴汍技術和 A356鋁閤金的應用領域是有幫助的。
위료연구격광분환기술대 A356려합금열은정성능적영향,채용 Nd∶YAG 격광기대기진행표면격광분환처리급장각시양진행220°C 퇴화시험처리적방법,종미관조직、현미경도급잔여응력등방면진행이론분석화실험험증,취득료일계렬실험수거。결과표명,격광분환처리능구유효제고 A356려합금적열은정성능,차재재료표면유도료교대잔여압응력,현미경도화위착밀도득도현저제고,정립명현세화;퇴화후,격광분환시양적표면잔여압응력하강료30.68%,위착밀도종1.63°강도1.51°,현미경도하강19.42%,표층정립척촌유소장대,단교기체이언,기정립척촌장대폭도교소。저일결과대우탁전격광분환기술화 A356려합금적응용영역시유방조적。
In order to study the influence of laser shock peening on the thermal stability property of A356 Al alloy, after laser shock peening A356 Al alloy workpieces with Nd∶YAG laser and annealing them at 220°C their microstructure, micro-hardness and residual stress were studied.A series of experimental data were got.The results showed that laser shock peening can effectively improve the thermal stability of A356 Al alloys.The large residual compressive stress was induced by laser shock peening on the surface,micro-hardness and the surface dislocation density was increased significantly;the grain was refined obviously.After annealing,the residual compressive stress was decreased by 30.68%,the dislocation density (full width at half maximum)was decreased from 1 .63°to 1 .51 °,and the micro-hardness was decreased by 1 9.42%,the grain size onthe surface layer was grown up slightly.However,compared to the matrix,the scale was less. The results were helpful to expand application fields of laser shock peening and A356 Al alloy.
