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1)  artificial marble
人造石
1.
This article confirms the effects of white pigment paste mixed into marble resin and excessive amount of peroxide on the yellowing of artificial marble through thermal experiment although its surface is covered by a transparent gel coat.
本文通过热试验证实虽然人造石表面有透明胶衣,影响其黄变现象主要仍是添加到大理石树脂内的白色颜料糊及过量的过氧化物。
2.
The properties and process technology of two kinds of artificial marble board are introduced in this paper.
介绍了两种人造石板材的性能及其成型工艺 ,比较了不同种类填料、树脂对板材性能的影
2)  artificial stone
人造石
1.
A Review on Artificial Stones for Garden Construction;
浅谈园林工程中的新型人造石
3)  synthetic stone
人造石;人造磨石
4)  artificial zeolite
人造沸石
1.
Studies on adsorptive capacity of sepiolite and artificial zeolite for Ca2+,NH and Fhave been made.
用不同方法分别对海泡石、人造沸石进行预处理。
5)  synroc ['sinrɔk]
人造岩石
1.
Immobilization of sodium bearing high level radioactive waste in synroc;
用人造岩石固化模拟高钠高放废液
2.
Immobilization of Simulated ~(137)Cs, ~(90)Sr Nuclide Waste in Synroc;
人造岩石固化模拟~(90)Sr,~(137)Cs核素废物研究
3.
The results indicate that pyrochlore synroc.
已有的研究表明,烧绿石人造岩石固化体具有较高的密度和包容量,良好的抗浸出和抗辐照性能,是固化高放废物和进行最终地质处置的理想固化体,具有良好的应用前景。
6)  artificial graphite
人造石墨
1.
Commercial mesocarbon micro beads(MCMB) and its mixture with artificial graphite were investigated as negative electrodes of polymer lithium ion batteries.
采用商品化中间相碳微球(MCMB)及人造石墨与中间相碳微球的混合体作为聚合物锂离子电池的负极材料,通过SEM、XRD对比研究了两种负极材料电化学循环前后的微观形貌和相结构,测试了两种聚合物锂离子电池的倍率放电性能和循环寿命,并通过交流阻抗谱分析了两种负极材料的电化学性能差异。
2.
Electrochemical intercalation characteristics of lithium ion in artificial graphite (AG) and the performances of AA size cell with it as the anode were studied in this paper.
研究了锂离子在人造石墨(AG)中的电化学嵌入特性和用它作负极材料时的电池性能。
3.
impedance spectroscopy measurement was applied to analyze Li+ diffusion in waste artificial graphite before and after coating modification and the effect of coating modification on Li+ diffusion coefficient in it was investigated.
为探究人造石墨包覆修饰处理对锂离子电池负极固相扩散系数的影响,弄清锂离子在包覆改性石墨中的传输扩散过程,采用交流阻抗测试技术对包覆修饰前后人造石墨中锂离子的扩散系数进行测试。
补充资料:人造石油
人造石油
synthetic crude oil
    由煤、油页岩及油砂等可燃矿物经过加工得到的液体燃料。主要成分为各种烃类,并含有氧、氮、硫等非烃化合物。加工方法主要有:①煤、油页岩或油砂的低温干馏法。②煤间接液化法。③煤直接液化法等。人造石油的性质与天然原油相近,故其进一步加工及利用与天然原油相似。由于天然原油的大量开采且价格低廉,故人造石油工业的发展只局限在某些国家和地区。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
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