稀有金属材料与工程
稀有金屬材料與工程
희유금속재료여공정
RARE METAL MATERIALS AND ENGINEERNG
2010年
1期
101-105
,共5页
铸态组织%力学性能%正交试验%Mg-Nd-Gd-Zn-Zr系镁合金%固溶处理
鑄態組織%力學性能%正交試驗%Mg-Nd-Gd-Zn-Zr繫鎂閤金%固溶處理
주태조직%역학성능%정교시험%Mg-Nd-Gd-Zn-Zr계미합금%고용처리
cast microstructures%mechanical properties%orthogonal experiment%Mg-Nd-Gd-Zn-Zr magnesium alloys%solid solution treatment
采用正交试验方法,通过砂型铸造制备9种不同成分的Mg-Nd-Gd-Zn-Zr系镁合金.研究该系列镁合金的铸造组织和室温力学性能,并通过对力学性能试验数据的分析,研究主要合金化稀土元素Gd和Nd的作用.研究发现:该系列镁合金铸态组织为α-Mg基体和Mg_(12)Nd化合物.经过固溶处理后,铸态组织中晶界上的化合物大部分溶入基体,但在晶界上还有一些颗粒状的化合物.Gd含量越高,合金的室温抗拉强度、屈服强度和延伸率就越高.Nd含量越高,抗拉强度和屈服强度也越好,但延伸率在Nd含量超过2水平(2.85%)后会降低.抗拉强度和屈服强度受Nd含量的影响最大,Gd含量的影响次之.Zn含量越高屈服强度越高,但抗拉强度和延伸率降低,其中延伸率受Zn含量的影响最大.
採用正交試驗方法,通過砂型鑄造製備9種不同成分的Mg-Nd-Gd-Zn-Zr繫鎂閤金.研究該繫列鎂閤金的鑄造組織和室溫力學性能,併通過對力學性能試驗數據的分析,研究主要閤金化稀土元素Gd和Nd的作用.研究髮現:該繫列鎂閤金鑄態組織為α-Mg基體和Mg_(12)Nd化閤物.經過固溶處理後,鑄態組織中晶界上的化閤物大部分溶入基體,但在晶界上還有一些顆粒狀的化閤物.Gd含量越高,閤金的室溫抗拉彊度、屈服彊度和延伸率就越高.Nd含量越高,抗拉彊度和屈服彊度也越好,但延伸率在Nd含量超過2水平(2.85%)後會降低.抗拉彊度和屈服彊度受Nd含量的影響最大,Gd含量的影響次之.Zn含量越高屈服彊度越高,但抗拉彊度和延伸率降低,其中延伸率受Zn含量的影響最大.
채용정교시험방법,통과사형주조제비9충불동성분적Mg-Nd-Gd-Zn-Zr계미합금.연구해계렬미합금적주조조직화실온역학성능,병통과대역학성능시험수거적분석,연구주요합금화희토원소Gd화Nd적작용.연구발현:해계렬미합금주태조직위α-Mg기체화Mg_(12)Nd화합물.경과고용처리후,주태조직중정계상적화합물대부분용입기체,단재정계상환유일사과립상적화합물.Gd함량월고,합금적실온항랍강도、굴복강도화연신솔취월고.Nd함량월고,항랍강도화굴복강도야월호,단연신솔재Nd함량초과2수평(2.85%)후회강저.항랍강도화굴복강도수Nd함량적영향최대,Gd함량적영향차지.Zn함량월고굴복강도월고,단항랍강도화연신솔강저,기중연신솔수Zn함량적영향최대.
With the method of orthogonal experiment, nine kinds of Mg-Nd-Gd-Zn-Zr magnesium alloys with different composition were prepared by sand casting. The cast microstructures and mechanical properties of Mg-Nd-Gd-Zn-Zr magnesium alloys were investigated, and the effects of Gd and Nd element on mechanical properties at room temperature were also studied by analyzing experiment results of mechanical properties. It is found that the as-cast microstructure of Mg-Nd-Gd-Zn-Zr alloys consists of α-Mg grains with Mg_(12)Nd phase in the grain boundary. After the solid solution treatment, almost all of the phases in the grain boundary dissolved in the matrix; however, there was still discontinued Mg_(12)Nd phase in the boundary. The increasing Gd content results in higher ultimate strength, yield strength and elongation. With increasing Nd content, the ultimate strength, the yield strength and the elongation increase. However, the elongation decreases when Nd is over 2.85 wt%. The effects of Nd content on the ultimate strength and yield strength of Mg-Nd-Gd-Zn-Zr alloy at room temperature are more significant than that of Gd. When Zn content is increased, the yield strength increases, but the ultimate strength and the elongation decreases. And Zn content has the greatest impact on elongation.