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sintering behavior
相关语句
  烧结行为
    Study on Sintering Behavior of Cu Sn Bronze Coated Ferrous Powder
    Cu-Sn青铜包覆铁粉末烧结行为研究
短句来源
    EFFECTS OF MECHANICAL ACTIVATION ON THE SINTERING BEHAVIOR OF Mo-Cu POWDER
    机械活化对Mo-Cu粉末烧结行为的影响
短句来源
    Preparation of Fe-Cu nanopowders and their effect on sintering behavior of ferrous materials
    纳米Fe-Cu粉末的制备及其对铁基压坯烧结行为的影响
短句来源
    Preparation and Sintering Behavior of Nanocrystalline W-La_2O_3 Electrode Materials
    纳米晶W-La_2O_3电极材料的形成与烧结行为
短句来源
    Sintering Behavior and Microstructure Evolution of Blended Elemental Ti-Fe Alloys
    混合元素法Ti-Fe合金的烧结行为及组织演化
短句来源
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  烧结性能
    Preparation of W-Cu nanopowder by homogeneous precipitation process and its sintering behavior
    纳米W-Cu粉末的均相沉淀法制备及其烧结性能
短句来源
    Characterization and sintering behavior of ultra-fine Mo-Cu powder prepared by gelatinization-coreduction method
    凝胶-共还原法制备超细Mo-Cu粉末及其烧结性能
短句来源
    Effects of Fe, Mo, Al, Nd elements on the sintering behavior and mechanical properties of titanium alloys were investigated.
    研究了不同合金元素Fe、Mo、Al及添加稀土元素Nd对粉末钛合金烧结行为及力学性能的影响,并得到了烧结性能和力学性能优良的粉末钛合金。
短句来源
    The first part is about the method improving the sintering behavior, which include added sintering agent, adopting ammonia based atmosphere, predicting equilibrium phase diagrams and alloying components by computer.
    介绍了提高其烧结性能的方法 ,包括使用烧结添加剂、采用氮基烧结气氛、利用计算机预测平衡相图研究新的合金成分等。
短句来源
  “sintering behavior”译为未确定词的双语例句
    Preparing Process and Sintering Behavior of Nano LaAlO_3 Powders
    纳米LaAlO_3粉体的制备与烧结
短句来源
    Effects of Fe, Mo, Al, Nd elements on the sintering behavior and mechanical properties of titanium alloys were investigated.
    1、)合金元素Fe、Mo、Al对粉末钛的烧结致密化行为影响不同。
短句来源
    The effect of Bi content on the sintering behavior and microstructural development of SrBi_4Ti_4O_(15)ceramics were studied.
    研究了Bi含量对SBTi陶瓷烧结特性的影响。
短句来源
    The properties(phase, particle size. etc. ) of ZrO2-Y2O3ultrafine powder prepared by coprecipitation are studied using the techniques of XRD, DTA, TEM, SEM, etc. The composition, density and microstructure of the sintered compacts are analyzed together with discussion of effects of dispersant, concentration of salt solution,pH, ignition temperature on thecr sintering behavior.
    以ZrO2-Y2O3超细粉末为研究对象,通过X射线衍射、差热分析(DTA)、透射电镜和扫描电镜观察等方法,对共沉淀法制备的超细粉末进行了物相、粒度分析,并对该粉料压形烧结后进行了组成、密度、显微结构的测试分析。
短句来源
    Microwave sintering behavior of SHS prepared AlN powders is presented in the paper. AlN samples with 3% Y 2O 3 as additives can be rapidly sintered to 98 7% TD at 1600℃ by proper packing powder and sintering method in a single mode cavity operating at 2 45 GHz within 5~7 minutes.
    利用TE103单模腔微波烧结系统对SHS制备的AlN粉(添加3%(mas)Y2O3)的加热烧结特征,烧结样品的显微结构进行了研究。 通过适当的保温措施和烧结工艺实现了AlN陶瓷的微波快速烧结。
短句来源
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  sintering behavior
The sintering behavior of NiFe2O4-10NiO/xNi cermet which was used as the most prospective inert anode materials for aluminum electrolysis was studied by examining the effects of raw powder particle size, sintering temperature, and the contents of Ni.
      
In this work, the sintering behavior of hydrothermal synthesized nano-size CeO2 powders and chemical precipitated and commercial micron-size CeO2 powders were investigated by continuous monitoring of the shrinkage kinetics.
      
Sintering Behavior of Hot-Pressed Ca-αSialon Ceramics
      
The sintering behavior of olivine and olivine-basalt aggregates has been examined at temperatures near 1,300° C.
      
Sintering behavior and ionic conductivity of Ce0.8Gd0.2O1.9 with a small amount of MnO2 doping
      
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The present work studies the dispersion properties of Al2O3 nanosize powders, the preparation technology and doctor blade process of homogeneous, well-dispersed nanosize powders with traditional microsize ceramic powders. The sintering behavior o f the nanosize/microsize ceramic system and its application. in packaging of microwave power devices are discussed.

本文对纳米Al2O3的分散特性、纳米粉体-微米粉体均匀分散体系的制备工艺和流延成型工艺进行了深入研究,探讨了纳米-微米陶瓷体系的烧结行为及其在微波功率管封装中的应用。

The properties(phase, particle size. etc. ) of ZrO2-Y2O3ultrafine powder prepared by coprecipitation are studied using the techniques of XRD, DTA, TEM, SEM, etc. The composition, density and microstructure of the sintered compacts are analyzed together with discussion of effects of dispersant, concentration of salt solution,pH, ignition temperature on thecr sintering behavior. Try is made on dispersant instead of absolute ethyl alcohol to dewater to control the powder agglomeration. Optimum conditions...

The properties(phase, particle size. etc. ) of ZrO2-Y2O3ultrafine powder prepared by coprecipitation are studied using the techniques of XRD, DTA, TEM, SEM, etc. The composition, density and microstructure of the sintered compacts are analyzed together with discussion of effects of dispersant, concentration of salt solution,pH, ignition temperature on thecr sintering behavior. Try is made on dispersant instead of absolute ethyl alcohol to dewater to control the powder agglomeration. Optimum conditions for production of ultrafine powder are given with obtaining 20nm ZrO2-Y2O3 ultrafine powder.

以ZrO2-Y2O3超细粉末为研究对象,通过X射线衍射、差热分析(DTA)、透射电镜和扫描电镜观察等方法,对共沉淀法制备的超细粉末进行了物相、粒度分析,并对该粉料压形烧结后进行了组成、密度、显微结构的测试分析。探讨了分散剂、盐溶液浓度、pH值、灼烧温度等条件对粉末烧结性能的影响,对用分散剂代替无水乙醇脱水工艺控制粉末团聚体做了研究尝试,得出了制备超细粉末的最佳工艺条件并制得了粒度为20nm的ZrO2-Y2O3超细粉。

The sintering behavior of the laser-synthesized nano-amorphous Si3N4 powders under pressure of 1.0~ 5.0GPa in temperature range of 25~ 1500℃ has been studied. It has been found that the nano powders exhibit a "cold sintering" behavior. The nano powders were pressed up to density as high as 93% of the theoretical under 5 GPa at room temperature. The high density is a result of plastic deformation of thenano particles under the ultrahigh-Dressure pressing. The ultra high-pressure sintering...

The sintering behavior of the laser-synthesized nano-amorphous Si3N4 powders under pressure of 1.0~ 5.0GPa in temperature range of 25~ 1500℃ has been studied. It has been found that the nano powders exhibit a "cold sintering" behavior. The nano powders were pressed up to density as high as 93% of the theoretical under 5 GPa at room temperature. The high density is a result of plastic deformation of thenano particles under the ultrahigh-Dressure pressing. The ultra high-pressure sintering with in situ heating showed that when temperature was lower (800~950℃), dense (98%) nano-amorphous Si3N4 bodies whichwere transparent brown in colour were formed while at higher temperature (13300~ 1500℃), densenanocrystalline Si3N4 bodies with microhardness of 15.53~16.05 GPa, which was pure white in color wereresulted. Studies show that the ultrahigh pressure sintering of nano powders can significantly decrease sintering temperature, depress grain growth, which is an effective route for obtaining dense nanostructured materials.Keywrods: nano ceramics Si_3N_4 amorohous ultrahigh pressure sintering

用六面顶超高压在1.0-5.0GPa,25~1500℃条件下烧结激光法制备的纳米非晶Si3N4粉,有“冷烧结”特代表现为:在5GPa,室温下压制的块体密度达理论值的93%,这是高压下纳米粒子产生流变的结果当烧结温度较低(800~950℃)时,高压烧结体为棕色透明的致密(98%)纳米非晶块体;烧结温度较高(1300~1500℃)时,形成纯白色致密纳米晶Si3N4块体,硬度为15.53~1605GPa研究表明,超高压烧结纳米陶瓷粉可显著降低烧结温度,控制晶粒生长,是获得致密纳米材料的有效途径

 
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