兵器材料科学与工程
兵器材料科學與工程
병기재료과학여공정
Ordnance Material Science and Engineering
2013年
5期
81-82,83
,共3页
蒋尧%黄正祥%陶从高%郝日光%胡士廉
蔣堯%黃正祥%陶從高%郝日光%鬍士廉
장요%황정상%도종고%학일광%호사렴
喇叭罩%紫铜%显微硬度%显微组织%演化
喇叭罩%紫銅%顯微硬度%顯微組織%縯化
나팔조%자동%현미경도%현미조직%연화
horncover%copper%microhardness%microstructure%evolution
利用显微硬度HV测试、光学显微组织技术研究旋压成形紫铜喇叭罩的组织结构和力学特性。结果表明:紫铜药型罩显微硬度沿母线方向线性递增;旋压罩组织呈纤维状且发生细化,350℃保温1 h后发生再结晶,晶粒尺寸为8.5μm,纵横比为1.6,组织取向与变形组织一致。旋压紫铜药型罩可能存在较强织构、具有抗旋性。
利用顯微硬度HV測試、光學顯微組織技術研究鏇壓成形紫銅喇叭罩的組織結構和力學特性。結果錶明:紫銅藥型罩顯微硬度沿母線方嚮線性遞增;鏇壓罩組織呈纖維狀且髮生細化,350℃保溫1 h後髮生再結晶,晶粒呎吋為8.5μm,縱橫比為1.6,組織取嚮與變形組織一緻。鏇壓紫銅藥型罩可能存在較彊織構、具有抗鏇性。
이용현미경도HV측시、광학현미조직기술연구선압성형자동나팔조적조직결구화역학특성。결과표명:자동약형조현미경도연모선방향선성체증;선압조조직정섬유상차발생세화,350℃보온1 h후발생재결정,정립척촌위8.5μm,종횡비위1.6,조직취향여변형조직일치。선압자동약형조가능존재교강직구、구유항선성。
Microhardness test and optical microstructure(OM) observation were applied to study the microstructure and mechanical property of spin-formed horncover. The result test shows the microhardness increases linearly along the generatrix direction from top to bottom,and the microstructure is a kind of fiber microstructure,and is refined. After annealing at 350℃for 1 h,the microstructure will be fully recrystallized and the average grain size is about 8.5μm(aspect ratio about 1.6),and the structure orientation keeps the same as spinning direction. So it can be implied that the spin-formed cover has strong texture and the ability of resisting rotation.