激光与红外
激光與紅外
격광여홍외
LASER & INFRARED
2014年
10期
1090-1094
,共5页
姜银方%程志军%丁报%潘禹%李娟%金华%王春辉
薑銀方%程誌軍%丁報%潘禹%李娟%金華%王春輝
강은방%정지군%정보%반우%리연%금화%왕춘휘
激光冲击强化%残余应力%疲劳源
激光遲擊彊化%殘餘應力%疲勞源
격광충격강화%잔여응력%피로원
laser shock strengthening%residual stress%fatigue source
孔结构往往会造成零件上的应力集中,降低零件的疲劳寿命,激光冲击强化能够有效地缓解这一问题。在试验研究中发现采用高峰值压力对试件进行激光冲击强化后,试件的疲劳寿命反而降低,同时断口上的疲劳源也随之发生内移,这很可能是因为高峰值压力在孔壁内产生较大的残余拉应力而降低了小孔件的疲劳寿命。为此采用ABAQUS软件,针对不同峰值压力、载荷脉宽对7050-T7451小孔件孔壁上应力分布的影响进行研究。研究结果表明:峰值压力的提高在增大压应力层深度的同时也会增大带孔件孔壁上的拉应力,同时残余拉应力所在位置也随之发生内移;当峰值压力不同时,载荷脉宽对孔壁上应力分布的影响也会随之改变。
孔結構往往會造成零件上的應力集中,降低零件的疲勞壽命,激光遲擊彊化能夠有效地緩解這一問題。在試驗研究中髮現採用高峰值壓力對試件進行激光遲擊彊化後,試件的疲勞壽命反而降低,同時斷口上的疲勞源也隨之髮生內移,這很可能是因為高峰值壓力在孔壁內產生較大的殘餘拉應力而降低瞭小孔件的疲勞壽命。為此採用ABAQUS軟件,針對不同峰值壓力、載荷脈寬對7050-T7451小孔件孔壁上應力分佈的影響進行研究。研究結果錶明:峰值壓力的提高在增大壓應力層深度的同時也會增大帶孔件孔壁上的拉應力,同時殘餘拉應力所在位置也隨之髮生內移;噹峰值壓力不同時,載荷脈寬對孔壁上應力分佈的影響也會隨之改變。
공결구왕왕회조성령건상적응력집중,강저령건적피로수명,격광충격강화능구유효지완해저일문제。재시험연구중발현채용고봉치압력대시건진행격광충격강화후,시건적피로수명반이강저,동시단구상적피로원야수지발생내이,저흔가능시인위고봉치압력재공벽내산생교대적잔여랍응력이강저료소공건적피로수명。위차채용ABAQUS연건,침대불동봉치압력、재하맥관대7050-T7451소공건공벽상응력분포적영향진행연구。연구결과표명:봉치압력적제고재증대압응력층심도적동시야회증대대공건공벽상적랍응력,동시잔여랍응력소재위치야수지발생내이;당봉치압력불동시,재하맥관대공벽상응력분포적영향야회수지개변。
Pore structure tends to cause the stress concentration on the parts and reduce the fatigue life of the parts, but laser shock processing (LSP)can be used to remit residual stress in the material surface.In experimental studies, when peak pressure is too high,the fatigue life of the parts will decrease after laser shock processing for the parts, which maybe cause the result of tensile stress introduced by large energy laser shock processing.ABAQUS is used to analysis the residual stress field of 7050-T7451 aluminum alloy with different peak pressure and pulse width of la-ser.Results show that the peak pressure is closely relative with the residual stress field.The tensile stress will increase with the increase of peak pressure.Different peak pressures will change the connection between pulse width and ten-sile stress.That may be the reason why the fatigue life decreases when large energy laser is used to impact the speci-men and the fatigue source at the center of the hole.
