烧结温度的升高提高了烧结收缩率。
The sintering shrinkage increased with increasing sintering temperature.
研究了烧结温度对阳极孔隙度的影响。
The effect of sintering temperature on the anode porosity was investigated.
所以,烧结温度对相结构变化无影响。
So sintered temperature has no effect on the transformation of phase structure.
其中烧结温度对陶粒的性能影响较大。
The effect of the sintering temperature on the degrease performance is obvious.
随着烧结温度的增加,颗粒尺寸明显增加。
The size of the nanoparticles increase rapidly with the increasing of the temperature.
反应原材料成分及烧结温度越高则导电性能越好。
Higher the content of reactants and the sintering temperature are, better the electrical property is.
烧结参数的选取需综合考虑烧结温度和保温时间。
The sintering parameter is determined by combing the sintering temperature and the maintaining time.
主要探讨不同烧结温度对产品各项性能指标的影响。
The influences of different sintering temperatures on the properties were discussed.
分析了烧结温度和烧结保温时间对压坯密度的影响。
Effect of sintering temperature and sintering holding time on green density was analyzed.
列举了烧结收缩、力学性能和最佳烧结温度等数据。
Sintering shrinkage, mechanical properties and the optimized sintering temperatures are also presented.
在一定温度范围内,烧结温度对样品的功耗影响不大;
The variability of sintering temperature has neglectable effect on the magnetic loss of MnZn ferrite.
常压烧结获得样品的气孔率随烧结温度的升高而增大;
The porosity of products obtained by ordinary pressure sinter was accretion when the sinter temperature hoist.
研究了烧结温度曲线的设定对产品烧结合格率和质量的影响;
The effect of setting of sintering temperature curve on the rate of qualified products and quality of products is studied.
研究了这种热电材料的电导率、塞贝克系数与烧结温度的关系。
The relationship of Seebeck coefficient and electrical conductivity in different sintering temperatures was analyzed.
论文的最后给出了一个工业回转窑烧结温度专家控制器的设计。
Finally, an expert controller's design of sintering temperature of industrial rotary kiln is discussed.
研究了其力学性能与添加剂用量、烧结温度、烧结时间的关系。
The effect of additive, sinter temperature and sinter time to the mechanic characters were studied.
根据材料和烧结温度的不同,零件的密度在烧结过程中也会改变。
The density of the component can also change during sintering, depending on the materials and the sintering temperature.
主要探讨了不同的烧结温度对试样的耐压强度和体积密度的影响。
The effects of different temperatures on compressive strength and bulk density were studied.
研究了烧结温度、保温时间以及粘结剂对荧光粉二次性能的影响。
The effects of baking temperature, holding time and binder on secondary luminescence properties of phosphor were systematically explored.
结果表明;随着烧结温度的升高,开口气孔率降低,断裂强度升高。
Results show that the open porosities are decreased and fracture strength is increased with the increase of the sintering temperatures.
研究了烧结温度和莫来石含量对复合材料的介电性能和抗弯强度的影响。
The effect of the sintering temperature and the mullite content on the dielectric properties and the bending strength has been studied.
研究表明减慢升温速率、延长烧结时间、提高烧结温度可增加光透过率。
With the slow of heat rate, prolong of soaking time and enhanced sintered temperature, the maximum transmittance was increased.
在所有的影响因素中,WC总碳和烧结温度是影响合金性能的最重要因素。
Of all factors, WC general carbon and sintering temperature are the most important factors which have much effects on material performance.
通过优化烧结时间和烧结温度等工艺参数,铬环靶材的烧结成本大大降低。
Through optimizing the process parameters including sintering time and sintering temperatures, the sintering costs of ring Cr-target are decreased greatly.
研究了化学反应时间与烧结温度对HAP的结晶度和颗粒均匀性的影响规律。
The effects of the reaction time, the sintering temperature on the crystal morphology of HAP and homogeneity were investigated.
研究了各种烧结温度、时间、气氛条件下复合体的致密度和显微结构的改善。
The dependence of the densification and the microstructural evolution of the composites on time, temperature, and sintering atmosphere were studied.
结果表明,在适当比例的纳米镍粉及烧结温度下,合金的性能得到很大的提高。
The results indicated that the properties of alloys were greatly increased under certain proportions of nanometer Ni powder and sintering temperatures.
硅灰石作为碱土金属硅酸盐,在普通陶瓷坯体中起助熔的作用,降低坯体的烧结温度。
The wollastonite as the alkali earth metal silicate, helps the melt in the ordinary ceramic body the function, reduces the body the agglutination temperature.
硅灰石作为碱土金属硅酸盐,在普通陶瓷坯体中起助熔的作用,降低坯体的烧结温度。
The wollastonite as the alkali earth metal silicate, helps the melt in the ordinary ceramic body the function, reduces the body the agglutination temperature.
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