激光与红外
激光與紅外
격광여홍외
LASER & INFRARED
2014年
12期
1331-1334
,共4页
卢轶%冯爱新%戴峰泽%温德平
盧軼%馮愛新%戴峰澤%溫德平
로질%풍애신%대봉택%온덕평
激光技术%激光打孔%PVDF%声波信号
激光技術%激光打孔%PVDF%聲波信號
격광기술%격광타공%PVDF%성파신호
laser technology%laser drilling%PVDF%acoustic signal
为了研究激光打孔过程中声波信号产生机理。利用电容传声器、PVDF传感器分别测量了激光打孔过程中的声波型号与冲击波信号,比较并分析了氧气为辅助气体、无辅助气体时声波信号的异同。研究结果表明:激光作用于孔内材料诱导产生的等离子体冲击波是激光打孔过程中产生声波的主要原因;辅助气体不是产生声波信号的必要条件;氧气作为辅助气时起到两方面作用:一方面,气流的物理作用减弱材料蒸汽和等离子对激光的屏蔽效应,维持较为连续的声波信号输出;另一方面,氧气的化学作用会增强材料蒸汽和等离子的屏蔽效应。氧气的物理作用与化学作用交替进行产生了不连续的声波信号。
為瞭研究激光打孔過程中聲波信號產生機理。利用電容傳聲器、PVDF傳感器分彆測量瞭激光打孔過程中的聲波型號與遲擊波信號,比較併分析瞭氧氣為輔助氣體、無輔助氣體時聲波信號的異同。研究結果錶明:激光作用于孔內材料誘導產生的等離子體遲擊波是激光打孔過程中產生聲波的主要原因;輔助氣體不是產生聲波信號的必要條件;氧氣作為輔助氣時起到兩方麵作用:一方麵,氣流的物理作用減弱材料蒸汽和等離子對激光的屏蔽效應,維持較為連續的聲波信號輸齣;另一方麵,氧氣的化學作用會增彊材料蒸汽和等離子的屏蔽效應。氧氣的物理作用與化學作用交替進行產生瞭不連續的聲波信號。
위료연구격광타공과정중성파신호산생궤리。이용전용전성기、PVDF전감기분별측량료격광타공과정중적성파형호여충격파신호,비교병분석료양기위보조기체、무보조기체시성파신호적이동。연구결과표명:격광작용우공내재료유도산생적등리자체충격파시격광타공과정중산생성파적주요원인;보조기체불시산생성파신호적필요조건;양기작위보조기시기도량방면작용:일방면,기류적물리작용감약재료증기화등리자대격광적병폐효응,유지교위련속적성파신호수출;령일방면,양기적화학작용회증강재료증기화등리자적병폐효응。양기적물리작용여화학작용교체진행산생료불련속적성파신호。
In order to study the mechanism of acoustic signal emission during laser drilling,acoustic and shock wave signal during laser drilling process were detected by microphone and PVDF sensor,the difference of acoustic signal was compared and analyzed when O2 was assisted gas and there was no assisted gas.Study results showed that the la-ser induced plasma shock wave when laser interact with materials is the main reason that generates the sound wave during percussion laser drilling process.Assist gas isn’t the necessary condition that generates sound wave.When assisted gas is O2 ,it can reduce the shielding effect of plasma and vapor on laser and maintain a continual output of sound wave;the oxidizing reaction between O2 and materials can enhance the shielding effect of plasma and vapor tem-porarily and lead to the discontinuous of the sound wave’s output.
