稀有金属材料与工程
稀有金屬材料與工程
희유금속재료여공정
RARE METAL MATERIALS AND ENGINEERNG
2009年
7期
1141-1145
,共5页
张金旺%王社斌%张俊远%张金玲%许并社
張金旺%王社斌%張俊遠%張金玲%許併社
장금왕%왕사빈%장준원%장금령%허병사
镁合金%AM60合金%Nd%微观组织%力学性能
鎂閤金%AM60閤金%Nd%微觀組織%力學性能
미합금%AM60합금%Nd%미관조직%역학성능
magnesium alloy%AM60 alloy%Nd%microstructure%mechanical properties
研究了稀土Nd对AM60镁合金组织的影响,并分析析出相及其对合金力学性能的影响.结果表明,在AM60合金中加入稀土Nd元素能有效地细化合金组织,使Mg17A112相分离变细;Nd元素优先与合金中的A1元素反应生成二元高熔点A111Nd3相:适量的稀土Nd能有效提高合金的抗拉强度、屈服强度和延伸率;过量的稀土Nd则会消耗合金中更多的A1元素和导致A111Nd3相粗化,使合金的力学性能下降;力学性能测试结果表明,AM60-0.9Nd具有最高的抗拉强度(230 MPa)、最高的屈服强度(127 MPa)和最高延伸率(14%),分别比基体合金提高28%、48%和250%.
研究瞭稀土Nd對AM60鎂閤金組織的影響,併分析析齣相及其對閤金力學性能的影響.結果錶明,在AM60閤金中加入稀土Nd元素能有效地細化閤金組織,使Mg17A112相分離變細;Nd元素優先與閤金中的A1元素反應生成二元高鎔點A111Nd3相:適量的稀土Nd能有效提高閤金的抗拉彊度、屈服彊度和延伸率;過量的稀土Nd則會消耗閤金中更多的A1元素和導緻A111Nd3相粗化,使閤金的力學性能下降;力學性能測試結果錶明,AM60-0.9Nd具有最高的抗拉彊度(230 MPa)、最高的屈服彊度(127 MPa)和最高延伸率(14%),分彆比基體閤金提高28%、48%和250%.
연구료희토Nd대AM60미합금조직적영향,병분석석출상급기대합금역학성능적영향.결과표명,재AM60합금중가입희토Nd원소능유효지세화합금조직,사Mg17A112상분리변세;Nd원소우선여합금중적A1원소반응생성이원고용점A111Nd3상:괄량적희토Nd능유효제고합금적항랍강도、굴복강도화연신솔;과량적희토Nd칙회소모합금중경다적A1원소화도치A111Nd3상조화,사합금적역학성능하강;역학성능측시결과표명,AM60-0.9Nd구유최고적항랍강도(230 MPa)、최고적굴복강도(127 MPa)화최고연신솔(14%),분별비기체합금제고28%、48%화250%.
The microstructure changes brought by the addition of Nd element to AM60 magnesium alloy were studied,the precipitating phases were identified and their influences on the mechanical properties of alloys were investigated.Results show that Nd addition makes the refinement of microstructure of the AM60 alloy,and decreases the size of Mg17A112 phase.Nd element takes a priority to react with A1 element over Mg,Mn and Zn forming binary phase A111Nd3 with high melting point.Certain content of Nd can increase tensile strength,yield strength and elongation of the alloy.But with too much addition,Nd would combine with more A1 in matrix and decrease strengthening effect because A111Nd3 phase would become coarsening.The mechanical property tests indicate that AM60-0.9Nd alloy has the best properties.Maximum tensile strength,maximum yield strength,maximum elongation are 230 MPa,127 MPa and 14% respectively,increased by 28%,48% and 250% respectively.
