对臭氧活化时间、接枝单体用量、水性抗静电剂的浓度等条件进行了优化。
The ozone activation time, the content of hydrophilic monomer and the concentration of antistatic agent were optimized.
通过计算控制等规度的活化能参数,认为单体的锡氧配位是影响聚合物等规度的主要因素。
The tacticity of polymers is mainly influenced by the coordination ability of organotin monomers and polymers.
不仅可以对整组电池进行维护,而且可以针对落后的单体电池进行充电、放电、活化等。
Not only it can maintain whole group batteries, but also can charge, discharge, activate disabled single cell battery.
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