1. They ced for more time to repay the loper.
他们央求有更多的时间来了偿存款。

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2. Factors influencing the properties of the CED paint were discussed.
讨论了影响电泳漆性能的诸种因素。

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3. Color CED paint has advantages of both corrosion protection and decoration.
彩色电泳涂料具有防腐、装饰的双重作用。

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4. Spare time to go to the large CED market research, statistical data for the actual work.
空暇时间多去大型CED市场调研,统计数据用于实际工作中。

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5. OBJECTIVE: To discuss the features of adverse drug reaction(ADR) induced by cefradine(CED) in order to promote the safe drug use in clinic.
目的:探讨头孢拉定(CED)所致不良反应的特点,促进临床安全用药。

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6. The types and functions of ultrafilter for cathodic electrodeposition (CED) painting and the functions of charged membrane ultrafilter for CED have been described.
介绍了超滤器在阴极电泳涂装中的作用、阴极电泳用超滤器的类型、荷电膜超滤器在阴极电泳涂装线中的应用。

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7. The title CED paint is developed by combination of acrylic and epoxy resins to solve the weathering problem for only epoxy resin CED "primer-topcoat in one" paint.
合成了用于阳极电泳漆的阴离子丙烯酸树脂,研究了影响树脂电沉积效果和涂膜性能的因素,探讨了涂膜在高温和低温固化的实现途径。

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8. With a number of technology preparation and well thought - out operation, the substitution was succeeded, which has shown that the compatibility of different CED system is feasible.
经过大量的技术准备工作和周密的实施过程,使该项替代工作获得成功,证明了不同体系电泳漆混溶的可行性。

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9. It focused on, considering the domestic situation, the production of CED paint by use of imported technology, but the domestic raw materials, and problem-shooting measures during painting process.
着重结合国情阐述了引进技术中用国产原料生产阴极电泳涂料及其涂装时出现问题的处置方法。

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10. RESULTS IPDT reduced lipid plaque area of aortic endothelium, regulated lipid metabolism, improved antioxidation of organism, ced ceramide content of aorta lipid plaque and apoptosis of foam cell.
结果抵当汤改良方能有效减轻主动脉脂质斑块面积,调节脂代谢紊乱,提高机体抗氧化酶活性,降低主动脉脂质斑块部神经酰胺含量及泡沫细胞凋亡数量。

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11. Within the framework of classical electrodynamics (CED) it is common practice to choose freely an arbitrary gauge condition with respect to a gauge transformation of the electromagnetic potentials.
在经典电动力学的框架内,普遍自由选择涉及电磁势规范变换的任意规范条件。

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12. The solubility parameters derived from the cohesive energy density (CED) of each amorphous cell system at different co-melting temperatures were calculated with the molecule modeling analysis module.
来自每个无定形的电池系统的内聚能密度(CED),在不同的共熔温度的溶解度参数,计算与分子建模分析模块。

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13. The solubility parameters derived from the cohesive energy density (CED) of each amorphous cell system at different co-melting temperatures were calculated with the molecule modeling analysis module.
来自每个无定形的电池系统的内聚能密度(CED),在不同的共熔温度的溶解度参数,计算与分子建模分析模块。

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