机械工程学报
機械工程學報
궤계공정학보
Journal of Mechanical Engineering
2015年
16期
120-126
,共7页
周建忠%梅於芬%盛杰%钟辉%黄舒%冯旭%周宏达
週建忠%梅於芬%盛傑%鐘輝%黃舒%馮旭%週宏達
주건충%매어분%성걸%종휘%황서%풍욱%주굉체
激光光学%AZ31B镁合金%激光喷丸%微织构%电化学腐蚀%微凹坑
激光光學%AZ31B鎂閤金%激光噴汍%微織構%電化學腐蝕%微凹坑
격광광학%AZ31B미합금%격광분환%미직구%전화학부식%미요갱
laser optics%AZ31B magnesium alloy%laser peening%micro-texture%electrochemical corrosion%micro-dent
利用脉宽为8 ns的Nd:YAG脉冲激光对AZ31B镁合金表面进行激光喷丸处理,研究激光喷丸诱导微织构对AZ31B镁合金耐腐蚀性能的影响,进行表面微织构的形貌分析,测量试样表面的动电位极化曲线。结果表明,激光喷丸产生的微织构周围未出现烧蚀现象,其微凹坑的直径和深度随激光能量的增加而增大,随喷丸次数的增加呈现先增大后趋于饱和趋势。与未处理试样相比,在相同微织构间距下,激光能量为1.0 J、1.5 J、2.0 J时试样的自腐蚀电位分别向正移95 mV、123 mV、151 mV,自腐蚀电流密度分别减少36.48%、50.26%、60.42%;在相同激光能量下,微织构间距为1.0 mm、1.5 mm、2.0 mm试样的自腐蚀电位分别向正移145 mV、134 mV、123 mV,自腐蚀电流密度分别减少50.26%、46.19%、44.34%。研究表明激光喷丸诱导的微织构提高了AZ31B镁合金表面的耐腐蚀性,且激光能量越高,喷丸间距越小,抗腐蚀性能越好。
利用脈寬為8 ns的Nd:YAG脈遲激光對AZ31B鎂閤金錶麵進行激光噴汍處理,研究激光噴汍誘導微織構對AZ31B鎂閤金耐腐蝕性能的影響,進行錶麵微織構的形貌分析,測量試樣錶麵的動電位極化麯線。結果錶明,激光噴汍產生的微織構週圍未齣現燒蝕現象,其微凹坑的直徑和深度隨激光能量的增加而增大,隨噴汍次數的增加呈現先增大後趨于飽和趨勢。與未處理試樣相比,在相同微織構間距下,激光能量為1.0 J、1.5 J、2.0 J時試樣的自腐蝕電位分彆嚮正移95 mV、123 mV、151 mV,自腐蝕電流密度分彆減少36.48%、50.26%、60.42%;在相同激光能量下,微織構間距為1.0 mm、1.5 mm、2.0 mm試樣的自腐蝕電位分彆嚮正移145 mV、134 mV、123 mV,自腐蝕電流密度分彆減少50.26%、46.19%、44.34%。研究錶明激光噴汍誘導的微織構提高瞭AZ31B鎂閤金錶麵的耐腐蝕性,且激光能量越高,噴汍間距越小,抗腐蝕性能越好。
이용맥관위8 ns적Nd:YAG맥충격광대AZ31B미합금표면진행격광분환처리,연구격광분환유도미직구대AZ31B미합금내부식성능적영향,진행표면미직구적형모분석,측량시양표면적동전위겁화곡선。결과표명,격광분환산생적미직구주위미출현소식현상,기미요갱적직경화심도수격광능량적증가이증대,수분환차수적증가정현선증대후추우포화추세。여미처리시양상비,재상동미직구간거하,격광능량위1.0 J、1.5 J、2.0 J시시양적자부식전위분별향정이95 mV、123 mV、151 mV,자부식전류밀도분별감소36.48%、50.26%、60.42%;재상동격광능량하,미직구간거위1.0 mm、1.5 mm、2.0 mm시양적자부식전위분별향정이145 mV、134 mV、123 mV,자부식전류밀도분별감소50.26%、46.19%、44.34%。연구표명격광분환유도적미직구제고료AZ31B미합금표면적내부식성,차격광능량월고,분환간거월소,항부식성능월호。
With the 8ns pulse width of Nd: YAG pulsed laser, AZ31B magnesium alloy is micro-textured induced by laser peening. The effects of micro-texture induced by laser peening on AZ31B magnesium alloy is studied in corrosion resistance. The morphology analysis is conducted on the micro-textured surface and the electrochemical polarization curves are investigated. The results indicate that ablation does not occur surround the micro-texture. With the increment of laser power, the depth and diameter of micro-dent increases, and with the number of peening increasing, the growth approaches a saturated value. Comparing with the untreated specimen, the corrosion potential improve by 95 mV, 123 mV, 151 mV and the corrosion current densities decrease to 36.48%, 50.26%, 60.42% with laser power of 1.0 J, 1.5 J, 2.0 J respectively under same micro-texturing density condition. For the same laser power condition, the corrosion potential improve by 145, 134, 123 mV and the corrosion current densities decrease to 50.26%, 46.19%, 49.16% respectively with the micro-texturing spacing of 1.0 mm, 1.5 mm, 2.0 mm. This suggests that the micro-texturing induced by laser peening improves the corrosion resistance of AZ31B magnesium alloy, and within the scope of the study, the higher the energy and the smaller the pitch, the better the corrosion resistance.