low temperature self-crosslinking binding agent 低温自交型粘合剂
low-temperature self-crosslinking 低温自交联
crosslinking reaction temperature 固化反应温度
low temperature crosslinking 低温交联
room-temperature crosslinking 室温交联
Crosslinking at room temperature 常温交联
crosslinking at ambient temperature 室温交联
These problems can be solved through the control of the dispersion and crosslinking temperature, the agitation rate and the feeding manner of the cross-linking agent.
作者采取低温分散、交联,分步加入交联剂和调节搅拌速度等控制手段,有效地解决了上述问题。
The effect of UPPE molecular weight, NVP/UPPE ratio, BPO/UPPE ratio on the crosslinking temperature, setting time, compressive strength and compressive modulus was investigated.
研究了聚合物分子量、交联剂N-乙烯基吡咯烷酮与引发剂过氧化苯甲酰的含量对最高交联温度、固化时间、压缩强度及压缩模量的影响。
The influences of reactive conditions such as crosslinking degree, neutral degree, temperature and monomer proportion to the absorbency were investigated.
研究了聚合过程中的反应条件,如交联度、中和度、温度、单体配比等对吸收性能的影响。
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