湖北工业大学学报
湖北工業大學學報
호북공업대학학보
JOURNAL OF HUBEI UNIVERSITY OF TECHNOLOGY
2014年
5期
14-17
,共4页
周旭%魏青松%朱伟%宋小辉%史玉升
週旭%魏青鬆%硃偉%宋小輝%史玉升
주욱%위청송%주위%송소휘%사옥승
材料加工%选择性激光熔化%钛合金%工艺优化
材料加工%選擇性激光鎔化%鈦閤金%工藝優化
재료가공%선택성격광용화%태합금%공예우화
selective laser melting%Titanium alloy%rapid prototyping%process optimization
利用光学显微镜、扫描电镜等手段分析了选择性激光熔化(Selective Laser Melting,SLM)钛合金成形单道、单层及块体成形规律。采用不同激光功率与扫描速度的组合进行成形,研究了激光功率、扫描速度对单道熔池形貌及宽度的影响规律;通过单层试验,研究了扫描间距与熔池形貌的关系;通过块体试验,研究了致密度与线能量密度的关系,确定了最优工艺窗口。
利用光學顯微鏡、掃描電鏡等手段分析瞭選擇性激光鎔化(Selective Laser Melting,SLM)鈦閤金成形單道、單層及塊體成形規律。採用不同激光功率與掃描速度的組閤進行成形,研究瞭激光功率、掃描速度對單道鎔池形貌及寬度的影響規律;通過單層試驗,研究瞭掃描間距與鎔池形貌的關繫;通過塊體試驗,研究瞭緻密度與線能量密度的關繫,確定瞭最優工藝窗口。
이용광학현미경、소묘전경등수단분석료선택성격광용화(Selective Laser Melting,SLM)태합금성형단도、단층급괴체성형규률。채용불동격광공솔여소묘속도적조합진행성형,연구료격광공솔、소묘속도대단도용지형모급관도적영향규률;통과단층시험,연구료소묘간거여용지형모적관계;통과괴체시험,연구료치밀도여선능량밀도적관계,학정료최우공예창구。
In this paper,scan tracks as well as the properties of built parts were analyzed with the optical microscope (OM)and Scanning Electron Microscope (SEM)etc.Single tracks experiments were conducted on titanium alloy substrates using different laser power and scan speed to find out their influences on the width and morphology of single tracks.The optimum linear energy density for signal track were in the range of 0.28~0.7J/mm of.Multi-track experiments were performed.It was found that the optimum scan-ning space was 0.08mm.Blocks were fabricated to reveal the relation between the linear energy density and the part density.Finally the optimum parameters window was determined.
