自增强型MQ交联剂的制备及在缩合型室温自硫化硅橡胶中的应用

通过硅氢化反应制备了甲氧基官能化的自增强型MQ硅树脂交联剂(MMQ),将其应用于缩合型室温自硫化(RTV)硅橡胶。测试了RTV硅橡胶的结构和微观形貌;考察了MMQ中甲氧基含量(质量分数)对RTV硅橡胶的疏水性能、力学性能、热稳定性能和光学性能的影响。对比了MMQ、辛基MQ硅树脂(OMQ)和环氧改性MQ硅树脂(EMQ)对RTV硅橡胶的补强效果。结果表明,制备的MMQ和缩合型RTV硅橡胶,MMQ具有更优异的补强效果。随着甲氧基含量的增加,RTV硅橡胶的疏水性、力学和热稳定性随之改善,紫外光透过率则呈下降趋势。当MMQ中甲氧基含量为7.83%时,缩合型RTV硅橡胶综合性能优良:接触角108°、吸水率2.2%、最大降解速率温度413.6℃、800℃残留率23.6%,350nm的紫外透光率80.67%,拉伸强度4.3MPa、断裂伸长率261%,邵氏A硬度42。

空调启动后板房室内温变特性的实验研究

间歇空调开机阶段建筑室内的温度变化会影响室内的热舒适性。空调开机阶段房间室内温度变化不仅与房间围护结构特性等多种因素有关,而且与使用的空调末端送风方式、室外环境有关。通过实验的方法对比研究了板房冬夏两季室内的温变特性,以及冬季板房在不同的空调送风方式和外扰作用下,空调开机阶段室内的温度变化规律。

A Study for the Influence of the Location of PCMs Assembly System on Improving Thermal Environment inside Disaster-Relief Temporary Houses

Currently,people pay more and more attention to the transitional resettlement of victims after various natural disasters.There is an urgent need for a large number of temporary houses to resettle the victims after natural disasters.Disaster-relief temporary houses(DTHs)played an important role in the post-disaster resettlement in the past,which can not only be produced on a large scale,but also can be quickly and conveniently erected,which were the main means to solve the problem of transitional resettlement.However,due to their temporary nature,there was no extra energy consuming system installed in the DTHs generally.Hence the indoor thermal environment inside the DTHs was severe in summer.In this study,combined with the field experimental tests of the DTHs in Wenchuan Earthquake and Lushan Earthquake and the experimental study of the full-size DTH,it found that the thermal environment inside the DTH was intolerably high in summer.It had negative impact on victims.In order to improve the thermal environment inside DTHs during post-disaster period which lacked of extra energy resources,this study used the method of combining phase change materials(PCMs)with walls of the DTH to explore its feasibility and effectiveness.The results showed that PCMs could effectively improve the thermal environment inside the DTH in summer.Furthermore,the difference of the composite positions between PCMs and the wall affected the improvement effect.The energy release rate of the PCMs assembly system(PAS)varied according to the positions of the PCMs.