1) middle pressure polyethylene
中压聚乙烯
2) LDPE
高压聚乙烯
1.
Improving Purging Effort of LDPE End Product Tank so as to Ensure the Unit’s Safety in Production;
改善高压聚乙烯料仓吹风净化效果 确保装置安全生产
2.
RHEOLOGICAL BEHAVIOR AND MECHANICAL PROPERTIES OF MELT OF LBPE/LDPE/LLDPE BLENDS;
线性双峰聚乙烯/高压聚乙烯/线性低密度聚乙烯共混物的流变行为与力学性能
3.
The Prospect of Extra High Pressure Compressor in LDPE Plant;
超高压压缩机在高压聚乙烯装置中的发展前景
3) high pressure polyethylene
高压聚乙烯
1.
Process flow and characteristic of the new high pressure polyethylene unit in Lanzhou Petrochemical Company;
兰州石化分公司新建高压聚乙烯装置工艺流程及特点
2.
By analyzing the reasons for the hidden dangers of high pressure polyethylene stockhouse-combustion and explosion,presents corresponding solutions,which can effectively avoid stockhouse failure to ensure safe production of the plant.
通过对高压聚乙烯料仓安全隐患———料仓燃爆事故的原因分析,提出了相应的治理方案,可有效避免料仓事故的发生,保证了装置的安全生
3.
Because of the influences of various factors,the market and production enterprises of high pressure polyethylene in our country are confronted with severe stress For increasing the competitiveness of enterprises, the paper puts forward some suggestions on the problems of raising up the technical contents of products and paying close attention to the adjustment of product structure, et
由于受到各种因素的影响 ,我国的高压聚乙烯市场及生产企业面临巨大的压力。
4) HDPE
高压聚乙烯
1.
Present Situation and Market Analysis of HDPE;
齐鲁高压聚乙烯现状及市场分析
2.
Reasons and Controls of Decomposition Reaction in HDPE Plant;
高压聚乙烯装置分解反应产生的原因及对策
3.
Analysis of Relativity of HDPE Plant's Output and Operating Rate and its Application
高压聚乙烯产量与开工率的相关性分析及应用
6) MC Methyl cellulose MDPE Medium-density polyethylene
中密聚乙烯
补充资料:中压聚乙烯
分子式:
CAS号:
性质:又称高密度聚乙烯(high density polyethylene;HDPE),由乙烯在低于5MPa(50atm)和130~150℃条件下,以硅酸铝为载体,三氯化铬为催化剂进行溶液聚合制得。相对密度0.95~0.98,软化点130℃,结晶度90%,在高、中、低压三种聚乙烯中,其耐化学品性最好,耐溶剂性和透气性高,透湿性较低,电性能优良,机械性能最好。用于制吹塑制品、管材、电器绝缘材料等。
CAS号:
性质:又称高密度聚乙烯(high density polyethylene;HDPE),由乙烯在低于5MPa(50atm)和130~150℃条件下,以硅酸铝为载体,三氯化铬为催化剂进行溶液聚合制得。相对密度0.95~0.98,软化点130℃,结晶度90%,在高、中、低压三种聚乙烯中,其耐化学品性最好,耐溶剂性和透气性高,透湿性较低,电性能优良,机械性能最好。用于制吹塑制品、管材、电器绝缘材料等。
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