1) penicillium toxin
石粉粒度
2) grinding particle size
粉碎粒度
1.
The relations between feed grinding particle size and protein solubility, and that between feed grinding particle size and protein exodigestibility as well as the research situation of grinding particle size of swine feed, chicken feed, fish/shrimp food and ruminant feed were summarized.
综述了饲料粉碎粒度与蛋白质溶解度、饲料粉碎粒度与蛋白质体外消化率的关系 ,以及猪饲料粉碎粒度、鸡饲料粉碎粒度、鱼虾饲料粉碎粒度和反刍动物饲料粉碎粒度的研究状况 ;综述了饲料原料 /产品粉碎粒度与粉碎机机型及筛片孔径关系等方面的研究进
2.
A study on the relationship between the digestibility and the different grinding particle sizes of the different feed ingredients was carried out with a modified method in vitro incubation with pepsin-trypsin.
为了初步找出不同原料不同粉碎粒度与消化率的关系 ,本试验采用胃蛋白酶 -胰蛋白酶复合处理法 ,分别对不同原料的不同粉碎粒度试样进行体外消化试验 ,测定出不同原料不同粉碎粒度的蛋白质体外消化率。
3.
The concepts of micro-grinding, super micro-grinding and optimum grinding particle size were introduced.
提出了微粉碎、超微粉碎、最佳粉碎粒度的概念 ,总结了粉碎粒度的研究结果和相关标准 ,并对饲料原料与产品的粉碎重量几何平均粒度与粉碎筛片孔径之间的关系进行了研究。
3) particle size
粉末粒度
1.
Effects of particle size on the properties of the injection bonded magnets;
粉末粒度对注射粘结磁体性能的影响
2.
The influence of the gas pressure,the metal melt temperature and the inner-diameter of melt delivery tube on particle size distribution of H70 brass powder was studied in light of gas kinetics and hydromechanics.
从气体动力学和流体力学分析了雾化气体压力、金属熔体温度和导液管内径对H70黄铜雾化粉末粒度分布的影响。
3.
Effects of processing parameters on the particle size and its size distribution were studied.
研究了制粉工艺参数对粉末粒度、粒度分布以及粒度分布类型的影响 ,并对粉末粒度进行了理论计算。
4) fuel size
焦粉粒度
5) silicon powders size
硅粉粒度
1.
The effect of the pore-forming agent content and silicon powders size on the dielectric and mechanical properties of RBSN ceramics were investigated.
以硅粉为原料,通过添加不同含量的成孔剂,反应烧结制备出具有不同气孔率的低密度多孔氮化硅陶瓷,研究了成孔剂含量和硅粉粒度对反应烧结氮化硅性能的影响。
6) powder particle size
粉末粒度
1.
To find the optimum particle size range of irregular powder Ti-6Al-4V on rapid laser forming technique,the feeding status of different particle size powder was investigated by high speed photograph and the effects of powder particle size on the powder utilization rate,the part's surface precision and the void in the parts were studied by rapid laser forming tests.
为了找到适合激光快速成形技术的非球形Ti-6Al-4V粉末粒度范围,采用高速摄影的方法研究了不同粒度粉末的输送情况,并通过不同粒度粉末的激光快速成形实验,研究了粉末粒度对粉末利用率、成形件表面精度和成形件内部气孔缺陷的影响。
补充资料:大理石石渣罩面水磨石,镶嵌大理石片的水磨石
CAS:68038-71-1
中文名称:苏云金芽孢杆菌制剂;苏云金杆菌;大理石石渣罩面水磨石,镶嵌大理石片的水磨石;7216杀虫菌;BT生物农药
英文名称:bacillus thuringiensis;agritol;bacillus thuringensis;bacillus thuringiensis berliner;bactospein;bactur;bakthane;berliner;biotrol;bitoksybacillin;btb 202;dipel
中文名称:苏云金芽孢杆菌制剂;苏云金杆菌;大理石石渣罩面水磨石,镶嵌大理石片的水磨石;7216杀虫菌;BT生物农药
英文名称:bacillus thuringiensis;agritol;bacillus thuringensis;bacillus thuringiensis berliner;bactospein;bactur;bakthane;berliner;biotrol;bitoksybacillin;btb 202;dipel
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条