火力与指挥控制
火力與指揮控製
화력여지휘공제
FIRE CONTROL & COMMAND CONTROL
2014年
8期
82-86
,共5页
激光冲击强化%残余应力洞%圆形高斯光斑%参数影响规律
激光遲擊彊化%殘餘應力洞%圓形高斯光斑%參數影響規律
격광충격강화%잔여응력동%원형고사광반%삼수영향규률
laser shock peening%residual stress hole%round gauss spot%influence rule of parameters
在激光冲击强化过程中,光斑边界处会产生表面稀疏波,并向光斑中心传播、汇聚,使中心区域材料发生反向塑性变形,造成光斑中心区域残余压应力缺失,从而形成材料表面“残余应力洞”现象。利用ABAQUS有限元软件进行了圆形高斯光斑的激光冲击强化数值模拟,讨论了不同材料和模型尺寸、激光冲击参数等因素对“残余应力洞”的影响规律。结果表明,随着冲击波峰值压力、冲击波作用时间、冲击次数的增加,“残余应力洞”现象随之加剧;而随着材料动态弹性极限、光斑大小、冲击波上升时间、光斑搭接率的增加,“残余应力洞”现象则会随之减弱。该研究可为后期激光冲击强化光斑光学整形技术的应用,以及基于残余应力场优化的工艺设计提供依据。
在激光遲擊彊化過程中,光斑邊界處會產生錶麵稀疏波,併嚮光斑中心傳播、彙聚,使中心區域材料髮生反嚮塑性變形,造成光斑中心區域殘餘壓應力缺失,從而形成材料錶麵“殘餘應力洞”現象。利用ABAQUS有限元軟件進行瞭圓形高斯光斑的激光遲擊彊化數值模擬,討論瞭不同材料和模型呎吋、激光遲擊參數等因素對“殘餘應力洞”的影響規律。結果錶明,隨著遲擊波峰值壓力、遲擊波作用時間、遲擊次數的增加,“殘餘應力洞”現象隨之加劇;而隨著材料動態彈性極限、光斑大小、遲擊波上升時間、光斑搭接率的增加,“殘餘應力洞”現象則會隨之減弱。該研究可為後期激光遲擊彊化光斑光學整形技術的應用,以及基于殘餘應力場優化的工藝設計提供依據。
재격광충격강화과정중,광반변계처회산생표면희소파,병향광반중심전파、회취,사중심구역재료발생반향소성변형,조성광반중심구역잔여압응력결실,종이형성재료표면“잔여응력동”현상。이용ABAQUS유한원연건진행료원형고사광반적격광충격강화수치모의,토론료불동재료화모형척촌、격광충격삼수등인소대“잔여응력동”적영향규률。결과표명,수착충격파봉치압력、충격파작용시간、충격차수적증가,“잔여응력동”현상수지가극;이수착재료동태탄성겁한、광반대소、충격파상승시간、광반탑접솔적증가,“잔여응력동”현상칙회수지감약。해연구가위후기격광충격강화광반광학정형기술적응용,이급기우잔여응력장우화적공예설계제공의거。
During the process of laser shock peening,rarefactional wave is generated in spot boundary,propagates to the spot center,and converges in the spot center. Under the converging of rarefactional wave,reverse plastic deformation is formed after the action of laser shock waves. Compressive residual stress reducing results in the phenomena of “residual stress hole”occurring. Numerical simulation of laser shock peening with one round gauss spot is carried out by ABAQUS FEM software. The influence rule of “residual stress hole”phenomena with different parameters is discussed,for instance material type,model size and laser parameters. Results indicate that the severity of “residual stress hole”varies with parameter. The severity degree increases with the parameters of shock-wave amplitude pressure,shock-wave duration and LSP impacts. Thus it decreases with the parameters of material dynamic elastic limit,laser-spot size and shock-wave rise-time. This study will be useful for the application of laser spot optical shaping,and valuable for the technics design based on the optimization of residual stress field.
