鋰基脂 的英文怎麼說
中文拼音 [lǐjīzhī]
鋰基脂
英文
lithium based grease-
Nanjing taiye chemical industry co., ltd located in no. 199 jianye road, nanjing, china. our company mainly manage all kinds of chemical materials : medicament b color b paint b food additive b chemical reagent b oil chemical b colophony plastic b colored metals, etc. and our company is one of the lithium series producing base in china. the department of our company is international trade department b plastic chemical department b producing and technological department b engineering design department. the aim of our company is introducing the advanced technology and products in the world, encouraging the chemical products in china to be internationalizing. our company keep good relationship with the famous chemical enterprise in the world. we distributed the chemical products of usa eastman, usa dow, usa exxon, germany sasf, germany bayer, japan daicel
南京泰業化工新材料有限公司是注冊于中國南京市的大型化工企業,位於南京市建鄴路199號。本公司主要經營各類進口化工原料:醫藥塗料顏料染料及助劑食品添加劑化學試劑石油化工洗滌化工樹脂塑料有色金屬等類產品,並且是中國鋰系列產品生產出口基地之一.下設部門為:國際貿易部化工塑料部生產技術部工程設計部。Purpose : used in lithic - grease, alkaline storage batteries, corrosion - resisting zincic pigment etc. as being absorbent of carbon dioxide
用途:是鋰基潤滑脂,堿性蓄電池,耐腐蝕鋅基染料等產品的重要添加劑,也可作二氧化碳吸附劑。General purpose lithium base grease for automobile
汽車通用鋰基潤滑脂Extreme pressure lithium lubricating grease
極壓鋰基潤滑脂General purpose lithium lubricating grease
通用鋰基潤滑脂Fat of lithium base of high - quality multiuse
優質多用途鋰基脂In this paper, select li 3 # and grease 7014 as basis grease. select nano diamond and sio _ 2 are selected as additives, design 14 recipe using k and l10 as appraise norm study the dose of nano particle to the effect of contact fatigue of ceramic and steel friction has the conclusion that proper quantities nano particle which put in two grease can improve the contact fatigue life of ceramic using sem and edax, nano particles fatigue resistance mechanism are analyzed. which can improve the contact fatigue life of ceramic and steel friction
本文選用3 #通用鋰基脂和7014號寬溫航空潤滑脂作為基礎脂,選取納米金剛石粉和納米二氧化硅微粒作為添加劑,設計了14種配方。利用威布爾斜率k和額定壽命l10作為評價指標,研究了納米微粒的用量對陶瓷球/鋼副的接觸疲勞壽命的影響,得出在所選兩種基礎脂中添加合適用量的納米微粒添加劑可以提高陶瓷球的接觸疲勞壽命。利用sem和edax ,初步揭示了納米微粒提高陶瓷/鋼副滾動接觸疲勞的機理。分享友人