环己基苯
- 网络cyclohexylbenzene;CHB
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采用线性电压扫描法、锂循环效率法、锂离子电池的循环性能法和3C倍率过充的方法测试了联苯与环己基苯电解液过充添加剂的行为。
The behaviors of electrolytes were analyzed by linear sweep voltage , lithium cycling efficiency , cycling performance and overcharging with 3C of lithium-ion batteries .
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锂离子电池以1C循环150次后,环己基苯的容量保持率为88%,联苯的为76.3%。
The capacity holding ratio of prismatic lithium-ion batteries is 88 % for CB electrolyte and ( 76.3 % ) for BP electrolyte after 150 cycles at 1C .
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结果表明,在2.5MPaH2、200℃和3h的条件下,苯的转化率为24.3%,环己基苯的选择性为88.0%。
The results indicated that the conversion of benzene and the selectivity for cyclohexylbenzene approached 24.3 % and 88.0 % , respectively , under the conditions of 2.5 MPa H2 , 200 ℃, and 3 h.
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以1mA电流循环20次后,联苯的铂电极锂循环效率为15.7%,环己基苯的为59.3%;
The lithium cycling efficiency of Pt electrode is 15.7 % for BP electrolyte and 59.3 % for CB electrolyte after 20 cycles with 1 mA .
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讨论其合成重要性,比较烷基环己基苯甲酸和烷基酚的多种合成步骤中存在的优缺点,选择最佳合成方案。
The importance of synthesis for title compound was discussed and we choose the best way by comparing all synthetic routes for alkylcyclohexyl benzoic acid and alkylphenol .
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首次报道了4(4′烷基环己基)苯甲酸烷基酚酯(nmAEAH,nCEAH)系列化合物的部分物理行为参数包括熔化焓(ΔH)、熔化熵(ΔS)。
Firstly , we report the data of some physical actions including melting enthalpy (Δ H ) and melting entropy (Δ S ) of benzoic acid 4 trans ( 4 ′ n alkylcyclohexyl ) n alkylphenol esters ( nmAEAH or nCEAH ) .
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橡胶硫化促进剂N-环己基-2-苯并噻唑次磺酰胺的团粒法造粒技术
Granulation technology of agglomeration for rubber vulcanization accelerator N-cyclohexyl-2-benzothiazole sulfenamide
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本论文对双氧水氧化法制备N-环己基-2-苯并噻唑次磺酰胺的工艺进行了研究,并最终确定了以2-巯基苯并噻唑为原料合成N-环己基-2-苯并噻唑次磺酰胺的最佳工艺条件。
In this paper the oxidation process of synthesis the N-cyclohexyl-2-benzothiazole sulfonamide synthesis from 2-mercaptobenzothiazole is researched , and the optimum conditions are determined .