我们挑选的其它获奖的显微照片中,拍摄对象包括黄蜂的巢、斑马鱼的嗅球、海藻、酱油、癌细胞、硫和大鼠的视网膜。
The other winning photomicrographs we chose included subjects such as a wasp’s nest, the olfactory bulbs of zebra fish, seaweed, soy sauce, cancer cells, sulfur and a rat retina.
我们挑选的其它获奖的显微照片中,拍摄对象包括黄蜂的巢、斑马鱼的嗅球、海藻、酱油、癌细胞、硫和大鼠的视网膜。
The other winning photomicrographs we chose included subjects such as a wasp 's nest, the olfactory bulbs of zebra fish, seaweed, soy sauce, cancer cells, sulfur and a rat retina.
结果表明:硫的添加能有效地促进沥青球的不熔化,缩短不熔化时间。
The result shows that sulfur additive can significantly enhance the PBS stabilization and decrease the stabilizing time.
制备了不同硫含量的各种粒级的添加硫沥青球,并且选择合适的工艺条件进行氧化稳定化处理。
A various sizes of pitch-based spheres (PBS) with different content of sulfur were prepared and they were stabilized in air with right process.
球团在还原过程中硫含量基本不变,海绵铁中的硫基本上源于矿石。
The sulfur content in pellets almost remains the same during the said process, the sulfur content in sponge iron originates from iron ores.
含硫低,稳定可靠,有效节约硫在球化和孕育过程中对合金的不利影响,节省合金费用。
Sulfur content low, stable and reliable, effective conservation of sulfur ball and bred in the course of the adverse effects of the alloy, alloy cost savings.
该球的化学成分有铁、碳、硅、锰、铬、硫、磷。
The chemical composition of said grinding ball comprises iron, carbon, silicon, manganese, chromium, sulfur and phosphorus.
详细研究结果如下:反应温度、硫源和混合溶剂体系是合成纯相二硫化镍微球的关键。
The results can be summarized as follows:Reaction temperature, sulfur source and volume ratio of the mixed solvent were crucial to synthesize the NiS2 microspheres.
详细研究结果如下:反应温度、硫源和混合溶剂体系是合成纯相二硫化镍微球的关键。
The results can be summarized as follows:Reaction temperature, sulfur source and volume ratio of the mixed solvent were crucial to synthesize the NiS2 microspheres.
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