【摘 要】
:
将Mg-1A1-0.4Ca-0.5Mn-0.2Zn(质量分数,%)合金在不同温度挤压,研究其微观组织和力学性能.结果 表明:在260℃和290℃挤压的合金均发生不完全动态再结晶,再结晶晶粒尺寸分别为0.75 μm和1.2 μm.二者均具有高密度的G.P.区和球状纳米析出相,能抑制位错运动并为动态再结晶提供丰富的形核位点.沿晶界析出的纳米相能抑制晶界的运动和限制再结晶晶粒的生长,从而生成尺寸为0.75 μm的超细晶粒.随着挤压温度从260℃提高到290℃,合金的屈服强度从322 MPa提高到343 MPa,
【机 构】
:
中国科学院金属研究所 沈阳110016;中国科学技术大学材料科学与工程学院 合肥230026;东北大学材料学院材料各向异性与织构教育部重点实验室 沈阳110819;中国科学院金属研究所 沈阳11001
论文部分内容阅读
将Mg-1A1-0.4Ca-0.5Mn-0.2Zn(质量分数,%)合金在不同温度挤压,研究其微观组织和力学性能.结果 表明:在260℃和290℃挤压的合金均发生不完全动态再结晶,再结晶晶粒尺寸分别为0.75 μm和1.2 μm.二者均具有高密度的G.P.区和球状纳米析出相,能抑制位错运动并为动态再结晶提供丰富的形核位点.沿晶界析出的纳米相能抑制晶界的运动和限制再结晶晶粒的生长,从而生成尺寸为0.75 μm的超细晶粒.随着挤压温度从260℃提高到290℃,合金的屈服强度从322 MPa提高到343 MPa,伸长率分别为13.4%和13%,没有明显的变化.挤压温度的提高促进了动态析出和动态回复,使合金中积累了高密度纳米盘状相和球状相,大量位错通过动态回复转变成小角度晶界,将未再结晶区域细分成密集的层状亚晶粒,二者均能抑制新位错的运动.这些因素,是在290℃挤压后的合金仍具有较高屈服强度和塑性没有明显变化的主要原因.纳米相对位错的钉扎在一定程度上限制了动态回复的发生,使合金中仍存在较高数量的残余位错,也有利于提高其屈服强度.
其他文献
This study focuses on the transient liquid phase (TLP) bonding of DD5 single-crystal superalloy to CrCoNi-based medium-entropy alloy (MEA) using a BNi-2 filler alloy.The microstructure and mechanical proper-ties of the TLP-bonded DD5/MEA joint were evalua
To date,Co-based metal-organic frameworks (Co-MOFs) have drawn much attention owing to their ad-vantages of easy preparation,high porosity and adjustable structure.Because of these enticing properties,numerous efforts have been devoted to their applicatio
The influence of surface roughness on the interfacial dynamic recrystallization kinetics and mechanical properties of Ti-6Al-3Nb-2Zr-1Mo hot-compression bonding joints was systematically investigated.It is found that for the bonding interface of rough sur
Sc solute clusters with a high number density were produced in an Al-0.3 wt.%Sc alloy when aged at 250 ℃,while fine Al3Sc precipitates were predominantly formed in the same alloy aged at 300 ℃.The alloy strengthened by Sc solute clusters displayed higher
用固相反应法制备(Gd1-xEr)2(Zr0.8Ti0.2)2O7(摩尔分数x=0,0.2,0.4)陶瓷并测试其晶体结构、显微形貌和物理性能,研究了Er2O3掺杂的影响.结果 表明,(Gd1-xErx)2(Zr0.8Ti0.2)2O7陶瓷具有立方烧绿石结构,显微结构致密,在室温至1200℃高温相的稳定性良好;Er3+掺杂降低了陶瓷材料的热导率和平均热膨胀系数,当x=0.2时,其1000℃的热导率最低(为1.26 W·m-1 ·k-1).同时,Er3+掺杂还提高了这种材料的硬度和断裂韧性.
The corrosion of unaged and 7000-h thermally aged 308L stainless steel weld metals in simulated PWR primary water under aerated and deaerated conditions was investigated,involving the corrosion of austenite,δ-ferrite and δ-ferrite/austenite phase boundary
将棉织物浸入多巴胺、硝酸银、十六烷基三甲氧基硅烷的乙醇溶液中,取出烘干制备出超疏水棉织物.用扫描电子显微镜和X射线光电子能谱表征其表面形貌和元素,用接触角测量仪测量其接触角并进行摩擦或液体浸泡(如酸、碱、沸水)实验检测其耐用性.结果 表明,聚多巴胺的强附着性使原位生成的银纳米粒子能经受摩擦或不同液体的浸泡,从而使超疏水织物具有良好的耐用性.超疏水棉织物还具有良好的油水分离性能,其油水分离效率高达97%,油流量最高可达15.93 m3·m-2·h-1.
Dislocation plays a crucial role in controlling the strength and plasticity of bulk materials.However,de-termining the densities of geometrically necessary dislocations (GNDs) and statistically stored disloca-tions (SSDs) is one of the classical problems
Transition metal molybdates/carbonates and hybrid nanomaterials have attracted great attention in en-ergy storage applications because of their enriched redox activity,good electronic conductivity,and sta-ble crystallinity.We synthesize a multicomponent M
采用OM和SEM研究了奥氏体化温度对HSLA钢组织演变和低温韧性的影响.结果 表明:奥氏体化温度由850℃升高至950℃(实验钢的AC3温度为819℃)并保温30 min后,奥氏体的平均晶粒尺寸由7.22 μm增大到17.39 μm,在850~950℃淬火后的显微组织均为板条马氏体,屈服强度和抗拉强度均呈下降趋势,延伸率没有明显的变化,但是-20℃下的冲击韧性由97 J显著降低到31J.使用EBSD和ARPGE软件的晶体学分析结果表明,随着奥氏体化温度的升高晶粒尺寸增大且变体选择增强,表现为奥氏体晶粒大部