The sintering shrinkage increased with increasing sintering temperature.
烧结温度的升高提高了烧结收缩率。
The effect of sintering temperature on the anode porosity was investigated.
研究了烧结温度对阳极孔隙度的影响。
The grain size of the sample increases with the rising of sintering temperature.
材料的晶粒随烧结温度的提高而长大;
The stress-strain curve was insensitive to variation of the sintering temperature.
合金的应变应力曲线取向对烧结温度不敏感。
Effect of sintering temperature and sintering holding time on green density was analyzed.
分析了烧结温度和烧结保温时间对压坯密度的影响。
The effect of the sintering temperature on the result of the graphite sealing was discussed.
本文讨论了焙烧温度对石墨密封结果的影响。
With the increasing of sintering temperature, the optimum comprehensive performances increase.
随烧结温度的升高,复合材料的力学性能增大;
The sintering parameter is determined by combing the sintering temperature and the maintaining time.
烧结参数的选取需综合考虑烧结温度和保温时间。
At the same sintering temperature, the degradation velocity sequence of SCPP was 13, 9, 19 in order.
在相同的煅烧温度下,掺锶聚磷酸钙的降解速率由高到低分别为聚合度为13,9,19的掺锶聚磷酸钙。
The variability of sintering temperature has neglectable effect on the magnetic loss of MnZn ferrite.
在一定温度范围内,烧结温度对样品的功耗影响不大;
Higher the content of reactants and the sintering temperature are, better the electrical property is.
反应原材料成分及烧结温度越高则导电性能越好。
Finally, an expert controller's design of sintering temperature of industrial rotary kiln is discussed.
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。
The optimum sintering temperature, sintering time and proper heating-up rate were estimated in the meantime.
同时对最佳的烧成温度、烧成时间以及合理的升温速度作了预测。
In addition, the sintering material with a small diameter corresponds to a lower minimum sintering temperature.
研究同时发现,颗粒物料的粒径减小,流化颗粒的最小粘结温度减小。
The density of the component can also change during sintering, depending on the materials and the sintering temperature.
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。
Results show that the main factor affected character of haydite consists of sintering temperature and content of fly ash.
结果表明,烧成温度和粉煤灰用量是影响粉煤灰品质的主要因素。
The effect of setting of sintering temperature curve on the rate of qualified products and quality of products is studied.
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;
In this paper, the effect of sintering temperature on densification, phase compositions and microstructure was mainly studied.
本文作者主要研究了不同烧成温度对复合材料致密化、物相组成和显微结构的影响。
The effects of the reaction time, the sintering temperature on the crystal morphology of HAP and homogeneity were investigated.
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。
With increasing sintering temperature and time, the pore size and porosity decrease, and the shape of the pore turns into sphere.
随烧结温度的增加与时间的延长,多孔钛的孔隙尺寸和孔隙度随之减小,孔隙形状从不规则向规则球形转变。
The effect of the sintering temperature and the mullite content on the dielectric properties and the bending strength has been studied.
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 process conditions, including presintering temperature, sintering temperature and time, cooling mode and pretreatment were studied.
对烧成过程(预烧温度、烧结温度及保温时间、降温方式)及预处理工艺进行了研究。
The relation between heat storage and passing time of the kiln car, quality of car lining and sintering temperature are also discussed.
并讨论了车衬蓄热与通过隧道窑的时间、车衬材质和烧成温度的关系。
In order to attain nano grain size sintering materials, we must control strictly not only sintering temperature but also sintering time.
欲获得纳米尺度晶粒的烧结体材料,不仅需要采用远低于其常规的烧结温度,对烧结时间亦应严格限制。
Of all factors, WC general carbon and sintering temperature are the most important factors which have much effects on material performance.
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。
It has been found that the colour of red iron oxides in ceramics is affected by sintering temperature and the compositions of the ceramics.
本文考察了烧成温度、陶瓷坯体中常见氧化物,以及二氧化硅包裹对铁红呈色稳定性的影响。
With increasing sintering temperature, the joint of graphite and BN was increased and also there was transition layer in the interfaces relative to HP.
随着烧结温度的升高,元素扩散加剧,过渡层的厚度越厚,材料的层间界面结合强度升高,石墨层与BN层结合的越好。
The influence of sintering temperature and holding time on the density, micro-structure and mechanical properties of the ceramic tool materials are studied.
对烧结温度、烧结时间等工艺参数对材料力学性能、微观结构和致密度的影响进行了分析。
The influence of sintering temperature and holding time on the density, micro-structure and mechanical properties of the ceramic tool materials are studied.
对烧结温度、烧结时间等工艺参数对材料力学性能、微观结构和致密度的影响进行了分析。
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