G.Y. Lin
,
Z.F. Zhang
,
H. Zhang
,
null
,
null
金属学报(英文版)
The hot deformation behaviors and microstructures of Al-Zn-Mg-Cu-Cr aluminum alloy during hot deformation have been studied using thermal stimulation test, optical microscopy and transmission electron microscopy. As a result, the true stress vs. true strain cures and the microstructures of various deformation conditions are obtained; the microstructures gradually incline to dynamic-recrystallization with the deformation temperature rising and the recrystallization grains refine with the decrease of deformation temperature or with raising the strain rates; the quantitative relationship between the Zener-Hollomon parameter (Z) and average recrystallization grain size in the subsequent heat treatment is set up.
关键词:
Al-Zn-Mg-Cu-Cr aluminum alloy
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aluminum
,
alloy
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Hot
,
deform
Jinfeng XU
,
Qiuya ZHAI
,
Sen YUAN
材料科学技术(英)
Energy-storage welding connection characteristics of rapidly solidified AZ91D Mg alloy ribbons with 40~70 μm thickness are investigated using a microtype energy-storage welding machine. The microstructure and performance of the connection joints are analyzed and studied. The research results indicate that energy-storage welding is able to realize the spot welding connection of AZ9ID Mg alloy ribbons. The welding nugget consists of developed α-Mg equiaxed grains with the sizes of 1.2~2.7 μm and intergranular distributed β-Mg17Al12 compounds. The thickness of bond zone is about 4 μm and the solidification microstructure is characterized by the fine equiaxed grains with the sizes of 0.8~1.2 μm, and grain boundary has become coarsening. The columnar crystal in HAZ also becomes slightly coarsening and the grain boundary has broadened, however, there is no obvious change in its primitive morphology and crystallographic direction. When welding energy is about 2.0 J, the welding joints with higher shear strength and smaller electrical resistivity are obtained.
关键词:
AZ91D
,
null
,
null
,
null
,
null
孙银洁
,
胡胜泊
,
李秀涛
宇航材料工艺
doi:10.3969/j.issn.1007-2330.2010.02.027
利用SEM、TEM、XPS、XRD、Raman和元素分析仪分析了M40J和T300的表面化学、物理及微观结构特征.研究发现:M40J含碳量高于T300纤维,而含氮量低于T300纤维,且表面活性基团比T300纤维低;M40J和T300碳纤维表面具有大量沟槽,前者相对长而浅,后者相对短而深;T300纤维端面皮芯结构明显,而M40J端面结构较均匀;M40J的微晶结构及取向性优于T300碳纤维.
关键词:
M40J碳纤维
,
微观结构
,
化学特征
,
物理特征
赵彦伟
,
孙文婷
,
李军平
,
刘宏瑞
,
张国兵
宇航材料工艺
采用无压反应熔渗法在1 550℃下将熔融Si或Si0.9Zr0.1浸渗入多孔C/C预制体中制备了高致密的C/C-SiC复合材料.系统研究了多孔C/C预制体中酚醛树脂热解碳(PIP-C)和化学气相渗透碳(CVI-C)对反应熔渗Si或Si0.Zr0.1的浸渗行为、反应程度、物相成分和微观组织的影响.结果表明:熔融Si或Si0.Zr0.1完全渗入到相邻碳纤维束间的大孔和碳纤维形成的小孔中,多孔PIP-C/C预制体较易浸渗,且反应较充分,熔渗Si0.9 Zr0.1后复合材料中除了生成大量SiC外,还有少量ZrC和ZrSi2生成,未发现游离Si.多孔PIP-C/C预制体中部分碳纤维与熔体反应,损伤纤维,而多孔CVI-C/C预制体中的沉积碳仅与熔体反应生成了一薄层,很好地保护了碳纤维,保持了碳纤维的高性能.提出反应熔渗制备C/C-SiC复合材料的形成机制:由初期的溶解-沉淀控制和后期的C向SiC层扩散控制为主.
关键词:
多孔C/C预制体
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C/C-SiC复合材料
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反应熔渗法
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微观组织
,
化学气相渗透
孙陈诚
,
胡子君
,
吴文军
,
姚先周
,
宋兆旭
宇航材料工艺
doi:10.3969/j.issn.1007-2330.2010.02.023
采用溶胶一凝胶法制备了纤维增强SiO_2气凝胶隔热材料,对基体SiO_2气凝胶及复合材料进行不同温度的热处理.利用扫描电镜、比表面积和孔径测试仪和导热仪等手段对处理后材料的微观结构和常温隔热性能进行表征.结果表明:复合材料经低于700℃处理后,材料基体的微观结构略有变化,常温隔热性能基本保持不变;经1000℃处理的纳米结构发生了烧结、纳米孔含量减少,常温隔热性能显著降低.
关键词:
隔热材料
,
SiO_2气凝胶
,
微观结构
李杰华
,
介万奇
,
杨光昱
金属学报
本文通过光学显微镜、X射线衍射仪、扫描电镜等分析研究了合金化元素Zn对GW系镁合金砂型铸造组织和性能的影响。研究结果表明:GW系镁合金的结构类型和Mg(六方相)相同,Gd溶入Mg的晶格形成置换固溶体,组织中存在着Mg24Y5第二相。加入合金化元素Zn后,组织发生较大变化,形成雪花状的枝晶,而且在固溶以及时效处理过程中,其形貌没有消失,只是有所溶解。实验合金GWZ721在砂型铸造工艺条件下热处理后的室温力学性能优良,抗拉强度达到250MPa,屈服强度甚至达到235MPa,远远优于商品镁合金AZ91C(85 MPa)与ZK51 A(140 MPa),而且塑性也比较好,最高达到6.2%。砂型铸造试验合金GWZ721热处理后的高温瞬时拉伸性能也相当优良,在200℃、250℃和300℃时,实验合金的抗拉强度分别达到225MPa、220MPa和205MPa。抗拉强度和屈服强度随着温度的升高均有所下降,但下降不多,延伸率则随着温度的升高有所上升。通过向GW系铸造镁合金添加合金化元素Zn,改善了实验合金GW72的组织,实验合金GW721在保证提高力学性能的前提下降低了成本,是一种较有前途的高端镁合金材料。
关键词:
显微组织
,
Mechanical properties
,
GW series cast magnesium alloys
