1) resin lamination
![点击朗读](/dictall/images/read.gif)
树脂分层
2) coated resin
![点击朗读](/dictall/images/read.gif)
涂层树脂
1.
Application of single factor alternate method on development of polypropylene coated resin;
单因素轮换法在聚丙烯涂层树脂研发中的应用
3) laminate resin,laminating resin
![点击朗读](/dictall/images/read.gif)
层合树脂
4) laminating resin
![点击朗读](/dictall/images/read.gif)
层压树脂
5) thin layer resin phase spectrophotometry
![点击朗读](/dictall/images/read.gif)
薄层树脂相分光光度法
1.
Determination of trace magnesium by thin layer resin phase spectrophotometry with loading resin preconcentration;
负载树脂预富集薄层树脂相分光光度法测定痕量镁
2.
A new method for the determination of Bi in water sample by thin layer resin phase spectrophotometry was developed.
在酸性条件下,I-与Bi(形成络合阴离子[BiI4]-,该络合阴离子易与Cl-型717阴离子交换树脂中的Cl-进行等离子对交换缔合,形成离子对缔合体系(R+(阴离子交换树脂)-[BiI4]-),该缔合体系在460nm处有最大吸收,ε=7·1×105L·mol-1·cm-1,据此建立了薄层树脂相分光光度法测定痕量铋的新方法。
3.
A new method for the determination of Fe by thin layer resin phase spectrophotometry has been reportedThe colored complex formed by Fe*# and 1,2benzendiol is concentrated on the 717# resin, and then Fe can be determined directly by making thin layer This method has satisfactory selectivity and high precision.
提出了薄层树脂相分光光度法测定铁的新方法。
6) dispersion resin
![点击朗读](/dictall/images/read.gif)
分散树脂
1.
Basic performances of PTFE dispersion resins, auxiliaries used in moulding processingare are introduced; primary principles, methods and devices for push processing and extrusion processing are reviewed.
介绍了聚四氟乙烯分散树脂的基本性能,加工成型的助挤剂;叙述了推压成型加工和压延成型加工的基本原理、方法、工艺及设备。
2.
Basic principles, methods, processes and equipments for pipe, wire coating and stripe processing and moulding of PTFE dispersion resin are introduced.
介绍了聚四氟乙烯分散树脂的管材、电线包覆和带材加工成型的基本原理、方法、工艺及设备。
补充资料:树脂分层
分子式:
CAS号:
性质:在混床式交换柱中,当树脂工作一段时间达到饱和后,必须对阴、阳树脂进行再生处理。再生前先要采用压缩空气或水及盐溶液等逆流冲洗树脂床,使阴、阳树脂因其相对密度不同而分成二层,然后将树脂移至塔外分别再生,再装入塔中,经混合后重新投入使用。也有在塔内分别直接再生,但设备比较复杂,操作麻烦。
CAS号:
性质:在混床式交换柱中,当树脂工作一段时间达到饱和后,必须对阴、阳树脂进行再生处理。再生前先要采用压缩空气或水及盐溶液等逆流冲洗树脂床,使阴、阳树脂因其相对密度不同而分成二层,然后将树脂移至塔外分别再生,再装入塔中,经混合后重新投入使用。也有在塔内分别直接再生,但设备比较复杂,操作麻烦。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条