激光技术
激光技術
격광기술
LASER TECHNOLOGY
2009年
4期
362-365
,共4页
高亚丽%王存山%张梅%熊党生
高亞麗%王存山%張梅%熊黨生
고아려%왕존산%장매%웅당생
激光技术%镁合金%工艺参量%组织%性能
激光技術%鎂閤金%工藝參量%組織%性能
격광기술%미합금%공예삼량%조직%성능
laser technique%Mg alloy%technology parameter%microstructure%property
为了研究不同激光工艺参量对镁合金熔凝层组织和性能的影响,采用高功率快速扫描(13J/mm2~33J/mm2)和低功率慢速扫描(100J/mm2~250J/mm2)两套能量密度相差较大的激光熔凝技术对镁合金表面进行真空激光熔凝处理.结果表明,两套激光工艺处理下熔凝层均由?Mg和?Mg17Al12相所组成,但?Mg17Al12所占的比例在低功率慢速扫描下较高,约为16%;熔凝层组织均为典型的树枝晶,高功率快速扫描熔凝层枝晶尺寸远远小于低功率慢速扫描熔凝层的枝晶尺寸;在高功率快速扫描处理工艺下,熔凝层的硬度、耐磨性分别是低功率慢速扫描处理下熔凝层的1.5倍和3倍;高功率快速扫描处理下熔凝层的耐蚀性也较低功率慢速扫描处理下熔凝层的耐蚀性显著提高.
為瞭研究不同激光工藝參量對鎂閤金鎔凝層組織和性能的影響,採用高功率快速掃描(13J/mm2~33J/mm2)和低功率慢速掃描(100J/mm2~250J/mm2)兩套能量密度相差較大的激光鎔凝技術對鎂閤金錶麵進行真空激光鎔凝處理.結果錶明,兩套激光工藝處理下鎔凝層均由?Mg和?Mg17Al12相所組成,但?Mg17Al12所佔的比例在低功率慢速掃描下較高,約為16%;鎔凝層組織均為典型的樹枝晶,高功率快速掃描鎔凝層枝晶呎吋遠遠小于低功率慢速掃描鎔凝層的枝晶呎吋;在高功率快速掃描處理工藝下,鎔凝層的硬度、耐磨性分彆是低功率慢速掃描處理下鎔凝層的1.5倍和3倍;高功率快速掃描處理下鎔凝層的耐蝕性也較低功率慢速掃描處理下鎔凝層的耐蝕性顯著提高.
위료연구불동격광공예삼량대미합금용응층조직화성능적영향,채용고공솔쾌속소묘(13J/mm2~33J/mm2)화저공솔만속소묘(100J/mm2~250J/mm2)량투능량밀도상차교대적격광용응기술대미합금표면진행진공격광용응처리.결과표명,량투격광공예처리하용응층균유?Mg화?Mg17Al12상소조성,단?Mg17Al12소점적비례재저공솔만속소묘하교고,약위16%;용응층조직균위전형적수지정,고공솔쾌속소묘용응층지정척촌원원소우저공솔만속소묘용응층적지정척촌;재고공솔쾌속소묘처리공예하,용응층적경도、내마성분별시저공솔만속소묘처리하용응층적1.5배화3배;고공솔쾌속소묘처리하용응층적내식성야교저공솔만속소묘처리하용응층적내식성현저제고.
In order to study the influence of different laser parameters on the microstructure and property of the melted layer of Mg alloy,two laser melting techniques at high power,rapidly scanning speed(13J/mm2~33J/mm2) and low power,slowly scanning speed(100J/mm2~250J/mm2) were used to melt the surface of Mg alloy respectively.The results showed that the melted layers with both the techniques were composed of αMg and βMg17Al12 phases,however,the melted layers at low power,slowly scanning speed had more βMg17Al12,about 16%.The microstructure of the melted layers were typical dendrite,however,the dendritic spacing of the melted layers at high power,rapidly scanning speed was much smaller.The microhardness and wear resistance of the melted layers at high power,rapidly scanning speed were 1.5 and 3 times of that of the melted layers at low power,slowly scanning speed,respectively.The melted layers at high power,rapidly scanning speed had better corrosion resistance too.