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1)  semi-solid Sn-15wt.%Pb alloy
半固态Sn15wt.%Pb合金
2)  semi-solid alloy
半固态合金
1.
Rheologic Forming Theory of Semi-solid Alloy Part I: Rheologic Filling Theory;
半固态合金流变成型工艺理论——第1部分流变充型理论
2.
Critical condition on rheological filling of semi-solid alloy;
半固态合金流变充型的临界条件
3.
This paper introduced the advantages to produce semi-solid alloy by using the inclined cooling plate such as its short flow,low cost,simple equipment,high production efficiency,and it can produce big size roughcast.
介绍了倾斜冷却板法制备半固态合金流程短、成本低、设备简单、生产效率高,同时又能生产较大尺寸的半固态坯料等的特点,指出了倾斜冷却板法制备半固态合金的原理及其影响因素,并阐述了倾斜冷却板法在半固态加工中的应用及其应用前景。
3)  Semi solid Alloy
半固态合金
1.
The results show that the optimum gap between roll and shoe varies in 2~3?mm; pouring temperature can affect grain size and its shape of semi solid alloy.
利用自行设计的单辊剪切 /冷却 (SCR)试验机对LY11合金进行了半固态凝固实验 ,研究了工艺条件对LY11半固态合金组织的影响。
2.
The results indicate that the transient peak of apparent viscosity of semi solid alloys increases with expanding the rest time under the same experimental conditions.
结果表明 ,在相同的剪切条件下 ,随剪切停留时间的增加 ,瞬时峰值表观粘度增加 ,说明剪切停留期间半固态合金初生α相形态发生了变化 ;对半固态合金初生相形态观察发现 ,剪切停留促使初生相发生了“团聚”或“合并” ,而且初生相形态变化的程度取决于剪切停留时间和初生相的退化程度 。
4)  semi-solid A356 alloy
半固态A356合金
1.
Influences of microstructure characteristics of semi-solid A356 alloy on filling ability;
半固态A356合金微观组织特征对充型能力的影响
2.
Limiting length of semi-solid A356 alloy rheological filling;
半固态A356合金流变充型的极限长度
5)  Semi-solid aluminum alloy
半固态铝合金
1.
In order to achieve idea microstructure and mechanical properties of semi-solid aluminum alloy, taking ADC12 aluminum alloy as research objective, the effects of different technologic parameters on the microstructure and mechanical properties of semi-solid aluminum alloy were analyzed.
为获得半固态铝合金理想的组织和力学性能,以ADC12铝合金为研究对象,分析了不同搅拌工艺参数对半固体组织和力学性能的影响。
2.
The main purpose of this dissertation is to study the rheological behavior of semi-solid aluminum alloys (A356) in die-casting and the effects of gate upon the mechanical properties after the relative theory thoroughly.
本文致力于半固态(semi-solid)铝合金(A356)在压铸环境下触变成形的流变特性及其浇道系统设计的研究,对有关的理论和方法作了深入系统的分析,围绕半固态铝合金触变成形(thixoforming)的流变特性及其良好的成形条件,进行了大量的试验,在获得试验数据的基础上,运用数据处理和数学方法,针对半固态铝合金触变成形中基于幂定律流动特性的粘度模型以及模具浇道系统的设计对成形零件机械性能的影响展开了研究工作。
6)  semi-solid LC9 aluminum alloy
半固态LC9铝合金
1.
The effects of deformation,heating temperature and holding time on microstructure of LC9 alloy in producing semi-solid billet by strain induced melt activated(SIMA) process were studied and structure evolution of semi-solid LC9 aluminum alloy was observed.
对冷变形金属进行等温加热转变制备半固态LC9铝合金坯料,并对其工艺过程及组织演变进行了研究,讨论了变形量、加热温度和保温时间等工艺参数对LC9铝合金组织的影响。
补充资料:16-Dioxa-8,9,10,11-tetrathia-4,15-disilaoctadecane, 4,4',15,15-tretraethoxy-3
CAS:40372-72-3
分子式:C18H42O6S4Si2
分子质量:538.94
中文名称:4,4',15,15-四乙氧基-3,16-二氧杂-8,9,10,11-四硫杂-4,15-二硅杂十八烷 硅烷偶联剂G-407 双[γ-(三乙氧基硅)丙基]-四硫化物

英文名称:16-Dioxa-8,9,10,11-tetrathia-4,15-disilaoctadecane, 4,4',15,15-tretraethoxy-3
Coupling agent G-407
9,10,11-tetrathia-4,15-disilaoctadecane, 4,4,15,15-tetraethoxy-16-dioxa-8
bis[3-(triethoxysilyl)propyl]tetrasulfide
3,16-Dioxa-8,9,10,11-tetrathia-4,15-disilaoctadecane,4,4',15,15-tretraethoxy-
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