2) electric automobile weighter
电子汽车衡
1.
Discussion on the principle of electric automobile weighter and the maintenance;
浅谈电子汽车衡原理及维护
2.
Through discussion on digital transformation of electric automobile weighter, this paper expounds that making use of digital technique into automobile weighter can not only be easy to debug and maintain, but also increase the accuracy of its meaturing data and the stability of its operation, and still can be widely used in other electric weighters.
通过对电子汽车衡数字化改造的论述,阐明了数字化技术应用于汽车衡,不仅具有方便调试维修等特点,而且使其计量数据的准确度及运行稳定性得到提高,可在其他电子衡器中广泛推广应用。
3) electronic truck scale
电子汽车衡
1.
Talking about prevention cheat of electronic truck scale;
谈谈电子汽车衡的防作弊
2.
Simple design and calculation of electronic truck scale;
电子汽车衡的简易设计与计算
3.
Shallow analyse the generating reason and the handling method of the repeatability error about electronic truck scale;
浅析电子汽车衡重复性误差产生原因及应对方法
4) electronic automobile scale
电子汽车衡
1.
The automatic weighing manage system of electronic automobile scale based on VB language;
基于VB语言的电子汽车衡自动称量管理系统
2.
Computer Weighting System of Electronic Automobile Scale Based on Non-contact IC Card Technology
基于非接触式IC卡技术的电子汽车衡微机称重系统
5) electronic car weigher
电子汽车衡
1.
According to the author\'s experience in electronic car weigher testing,he summarizes the regular failures in testing.
电子汽车衡是一种全自动称重计量设备,它由承重装置、传感器、显示仪表3部分组成,是经济贸易中最常用的计量仪器之一,广泛应用于厂矿、企业、码头、油库、集贸市场,同时应用于为社会提供公正数据的公称行。
6) great weighing electronic truck scale
大秤量电子汽车衡
1.
Some problems and the solutions of verifying great weighing electronic truck scale
大秤量电子汽车衡检定存在的问题及其解决方法
2.
Attempt for one method of verifying great weighing electronic truck scale with a few weights;
本文针对目前计量检定部门检定大秤量电子汽车衡,普遍存在大质量砝码数量不足的问题,介绍了一种检定方法的尝试和分析,以期引发探讨。
补充资料:电子级全氟丙烷
分子式:C3F8
CAS号:
性质:别名八氟丙烷,氧碳218。无色、不可燃气体,化学性质不活泼,热稳定性好,但与可燃气体一起燃烧时分解产生有毒的氟化物。沸点-36.7℃。熔点-183.0℃。其制法是采用活性炭直接氟化工艺,反应产物经除尘、碱洗、脱水后再进行间歇精馏,抽出全氟丙烷,经低温吸附提纯,可得到高纯全氟丙烷。在微电子工业中用作等离子刻蚀剂,器件表面清洗,碳同位素分离工质,低温制冷剂,绝缘气体等。
CAS号:
性质:别名八氟丙烷,氧碳218。无色、不可燃气体,化学性质不活泼,热稳定性好,但与可燃气体一起燃烧时分解产生有毒的氟化物。沸点-36.7℃。熔点-183.0℃。其制法是采用活性炭直接氟化工艺,反应产物经除尘、碱洗、脱水后再进行间歇精馏,抽出全氟丙烷,经低温吸附提纯,可得到高纯全氟丙烷。在微电子工业中用作等离子刻蚀剂,器件表面清洗,碳同位素分离工质,低温制冷剂,绝缘气体等。
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