作者:X Wu · 2011 · 被引用次数:6 — According to the application, structure and technical requirements of 320/50t-22m large quenching crane, the general structure and hoisting mechanism of crane
作者:X Wu · 2011 · 被引用次数:6 — Thus, the size of 320/50t quenching crane is very large in China. The optimization of general structure and hoisting mechanism of the crane will be discussed as
The Research on Optimal Design of Large Metallurgical Crane. By Xianwen Wu, Bo Chen, Dan Zhang and Jian Li. Cite. BibTex; Full citation. No static citation
2020年12月26日 — PDF | In this research, multicriteria analysis and optimization of the steel girder of the crane runway were performed. Application of the welded I.
state in the resistance structure of a travelling crane which operates. in the steelwork of an optimum correlation between the deformed state of the. structure and metallurgical equipment design procedures are highly. standardized and most transport a large range of weights, they do not need too much. space, and are
作者:D Lal — International Journal of Emerging Technologies in Engineering Research (IJETER). Volume 5 Abstract – Electric Overhead Travelling (EOT) cranes are major of Large Metallurgical Crane”, Procedia Engineering, 24 (2011) 783-. 787.
作者:JC Warren · 2012 · 被引用次数:1 — 2.2 Metallurgy Overhead Crane pp. 11. 2.3 QD Double process: the first stage addresses the crane structure and optimization, the second designs maintain a high-enough margin of design safety to keep all allowable stresses mechanics and case studies, weldment and fabrication specifications, and acceptable
作者:T Yifei · 被引用次数:23 — Bridge crane is one of the most widely used cranes in our country, which is indispensable equipment for material conveying in the modern production. In this
All this will be found in the following chapters, with case studies illustrating applications. Engineers were given courses in metallurgy; other materials were barely consider what they forgot: the optimum use of materials in design. Charles, J.A., Crane, F.A.A. and Furness J.A.G. (1987) Selection and Use of Engineering
This paper presents the study of the design and optimization of Central Drum in Mine Hoist. As we see the central drum in mine hoist is large and heavy for.
作者:B Xu · 2015 · 被引用次数:1 — A fatigue life assessment method of steel structures was proposed in this study and applied in a metallurgy crane. Analytical method and experimental analysis
and synthetic ropes, wire rope assemblies, high the minimum design standards for a wire rope. rope for container cranes, Flex-X 7 CC metallurgy and the diameters of wires. that delivers the optimal combination When you study.
All this will be found in the following chapters, with case studies illustrating applications. Engineers were given courses in metallurgy; other materials were barely consider what they forgot: the optimum use of materials in design. Charles, J.A., Crane, F.A.A. and Furness J.A.G. (1987) Selection and Use of Engineering
2018年11月7日 — The question is, how long can they continue the current mat construction design until the large diameter timbers run completely out. To help
addresses directly to two departments: design and execution. Because of this, we aim to correlate model of the metallurgical travelling crane is generated with the rather high percentage and requires dimensional optimization. In this paper
作者:Q DONG · 2018 · 被引用次数:1 — Keywords : Casting crane metal structure, High-low dislocation of rail joint, Zhang D., & Li J., The research on optimal design of large metallurgical crane,
European type cranes have such design concepts as small dimension, light dead weight. European style gantry crane is a heavy duty gantry crane with europe optimization design, . JK Model High Speed Electric Winch The leading products of Santo widely used in Machinery, Metallurgy, Electric Power, Railway,
25-Year Study of EOT Crane Hoist Wire Rope Drum Failures Alloy Cost Optimization Through Proper Metallurgical Development of Big Data in the Steel Industry: Data Science to Improve Pipe Design and Predict Pipes' Collapse Pressure.
