2) Metallurgic crane
冶金起重机
1.
By drum shaft-broken accident analysis on a using metallurgic crane,this paper reveals the reasons of shaft-broken accident,which offers some material used for reference to the design,manufacture and use of the metallurgic crane.
通过在用冶金起重机卷筒断轴事故分析,揭示了冶金起重机发生卷筒断轴事故的原因,为冶金起重机设计、制造、使用环节提供了值得借鉴的依据。
3) Bridge crane
桥式起重机
1.
Trouble analysis of bridge crane motor operation in production of FCMP;
钙镁磷肥生产中桥式起重机大车拖动电机的运行故障分析
2.
Study of how to Restore and Increase the Tonnage Capacity of Bridge Crane;
桥式起重机修复及增加起重吨位的改造方案探讨
3.
Rebuilding of electric drive for the bridge crane s lifting gear;
桥式起重机提升机构电力拖动变频调速技术改造
4) overhead traveling crane
桥式起重机
1.
CIPE based overhead traveling crane rapid design;
基于CIPE的桥式起重机快速设计方法
2.
Application of ANSYS in overhead traveling crane girder design;
ANSYS在桥式起重机主梁设计中的应用
3.
Application of frequency converter and PLC to improvements to control system in overhead traveling cranes;
变频器及PLC在桥式起重机控制系统改造中的应用
5) overhead crane
桥式起重机
1.
The analysis and disposition to the “grow track” phenomenon of the steel mill overhead crane;
轧钢厂桥式起重机啃轨的分析与处理
2.
Research on Fuzzy Logic Anti-Swing Control of Overhead Crane;
基于模糊控制的桥式起重机防摆研究
3.
The paper discussed the significance and means about the foundation of the overhead crane′s product storeroom.
随着企业的发展,桥式起重机的形式逐步趋向标准化、模块化,产品的市场需求量越来越大,作为传统机械产品和特种设备,建立标准化的产品库是企业发展必经之路。
6) Overhead travelling crane
桥式起重机
1.
Application of frequency converter in the Overhead Travelling Crane;
变频器在桥式起重机上的应用
2.
This article focuses on the main hoisting equipment of 75t/5t overhead travelling crane for nuclear power plant to Pakistan CHASHMA fuel plantI,ntroduce the key technologiesf,eatures and design ideas on the main hoisting equipment.
着重介绍了为巴基斯坦CHASHMA核电站燃料厂房设计制造的75t/5t新型桥式起重机主起升机构的关键技术、性能特点及设计思路。
3.
The tired estimation method of crane s life are expounded according to the anti-fatigue design method widely applied,the relative life is calculated for the some overhead travelling crane having already been used for more than 30 years and the proposal for the residual and secure life period are given.
起重机的金属结构件在使用若干年后疲劳寿命会有所下降,直接影响起重机的安全使用,需要作出合理评估;根据广泛应用的抗疲劳设计方法,论述起重机寿命的疲劳分析估计法,以已使用30多年的某桥式起重机为例进行相关寿命计算,并对其剩余安全使用期限提出建议。
补充资料:冶金
分子式:
CAS号:
性质:从矿石中提取金属或金属化合物,用各种方法将其制成具有一定性能的金属材料的过程。现代冶金已发展成为两大类:提取冶金(又称化学冶金)和物理冶金(physical metallurgy,在我国称金属学)。狭义的冶金指的是提取冶金。
CAS号:
性质:从矿石中提取金属或金属化合物,用各种方法将其制成具有一定性能的金属材料的过程。现代冶金已发展成为两大类:提取冶金(又称化学冶金)和物理冶金(physical metallurgy,在我国称金属学)。狭义的冶金指的是提取冶金。
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