1) Epoxy-silicone based coating
环氧改性有机硅涂层
2) epoxy silicone coating
环氧有机硅涂层
3) epoxy modified silicone
环氧改性有机硅
1.
Anticorrosive epoxy modified silicone urethane paint was prepared with self-made epoxy modified silicone resin,pigments, functional fillers and additives.
采用环氧601树脂和自制低相对分子质量有机硅树脂进行共缩合反应制得环氧树脂改性有机硅树脂,并以此改性树脂为基料,加入颜料、功能性填料、助剂等研制出耐高温自干型环氧改性有机硅聚氨酯防腐蚀涂料。
2.
By evaluating the overall performance,the optimized formulation of the coating was found to be as follows: epoxy modified silicone resin SMH-30 50%-60%,micaceous iron oxide gray 22%-30%,sericite 9%-14%,curing agent 4.
通过对涂层的综合性能测试,确定涂料的优化配方为(质量分数):环氧改性有机硅树脂SMH-30 50%~60%、云母氧化铁灰22%~30%、绢云母9%~14%、固化剂4。
4) silicon-modified epoxy
有机硅改性环氧
1.
A novel low molecular silicon-modified epoxy resin with good phase compatibility was prepared through reaction of silicon oil with active hydrogen,epoxy resin and alcohol.
制备了相容性较好的低分子有机硅改性环氧树脂,配制了两种不同温度环境下的双组分高渗透型有机硅改性环氧防腐胶,讨论了浆料中双组分配比、环境温度、催干剂、有机硅改性环氧树脂和有机硅含量等对浆料的固化、渗透性、强度和憎水性能及防腐性能的影响,提出了浆料的几个主要应用实践与方向。
5) silicone modified epoxy resin
有机硅改性环氧树脂
1.
In order to study the effect of laser parameters on the mass ablative rate of the carbon fiber reinforced silicone modified epoxy resin composite,laser irradiation experiments of the composite were carried out by a high power CO_2 laser with different laser parameters.
为了研究激光参数对碳纤维增强有机硅改性环氧树脂复合材料质量烧蚀率的影响规律,选用不同激光参数、采用高强度CO2激光器对该复合材料进行了激光辐照试验。
2.
The synthetic methods, properties, applications of silicon resin, linear polysiloxane, silicone modified epoxy resin were reviewed for the next phase of work, and a solid theoretical foundation.
本论文的研究主要分为四部分:第一部分对硅树脂、线型聚硅氧烷、有机硅改性环氧树脂的合成方法、性能研究、应用进行了综述,为开展研究奠定了理论基础。
3.
The results indicate that silicone modified epoxy resin has excellent performances because of their combined advantages and novel properties, and the compact coating was obtained with good adhesion,hardness and toughness.
采用数种有机硅氧烷合成了有机硅树脂,用有机硅树脂对环氧树脂进行化学改性,制得了有机硅改性环氧树脂。
6) epoxy modified silicone resin
环氧改性有机硅树脂
补充资料:有机硅改性环氧树脂
分子式:
CAS号:
性质:电绝缘性能优异,介电强度103kV/mm(常态),57kV/mm(受潮),65kV/mm(200℃);体积电阻率2×1016Ω·cm(常态)。涂在铜片上的漆膜200℃,168h老化不开裂,250℃,12h后热失重为4.15%,粘接强度2.1MPa。可由含烷氧基或羟基的低分子量聚硅氧烷与双酚基丙烷环氧树脂进行缩合反应来制取。用作H级电机、电器、变压器线圈浸渍漆,电缆接头和电子元件表面保护涂料。还可与玻璃布复合制成层压材料。
CAS号:
性质:电绝缘性能优异,介电强度103kV/mm(常态),57kV/mm(受潮),65kV/mm(200℃);体积电阻率2×1016Ω·cm(常态)。涂在铜片上的漆膜200℃,168h老化不开裂,250℃,12h后热失重为4.15%,粘接强度2.1MPa。可由含烷氧基或羟基的低分子量聚硅氧烷与双酚基丙烷环氧树脂进行缩合反应来制取。用作H级电机、电器、变压器线圈浸渍漆,电缆接头和电子元件表面保护涂料。还可与玻璃布复合制成层压材料。
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