1.
Influence of Rolling Reduction on Pearlite Grain Size in Heavy Rail of Steel U75V
轧制变形对U75V重轨钢珠光体晶粒度的影响
2.
Fracture Analysis of U75V Welding Rail during Installing Process
U75V焊接钢轨线路铺设时的断裂原因分析
3.
Finite Element Analysis on 100-Meter Rail Temperature Field of U75V Steel during Cooling before Straightening
百米U75V钢轨矫直前冷却过程温度场的有限元分析
4.
Research on Design of the 40.5 m Steel Track Girder for Line 2 of Chongqing Light Rail
重庆轻轨2号线40.5m钢轨道梁设计研究
5.
Production Practice of Heavy Rail Steel from No.5 Continuous Caster in the Steel-making Plant of Baotou Steel
包钢炼钢厂5~#连铸机生产重轨钢生产实践
6.
Computer simulation of quenching stress field during U71Mn steel heavy-duty rail-head quenching process
U71Mn钢重轨轨头淬火应力场的计算机模拟
7.
Analysis and Research on Soft Reduction in Continuous Casting of Heavy Rail Bloom;
重轨钢连铸大方坯轻压下的分析研究
8.
Key Techniques of Full Digital Controlling for Heavy Rail Tilter;
重轨翻钢机全数字控制关键技术研究
9.
Study on the Preventive Grinding Process of Heavy and High Speed Transit;
高速重载线路钢轨打磨方法优化研究
10.
The Characteristics of Process and Equipment of High Speed Heavy Rail Universal Mill Line of Wuhan Iron & Steel Co.,Ltd.
武钢高速重轨万能轧机工艺设备特点
11.
Research on the Performances of U77MnCr Used for Heavy-haul Railway
重载铁路用U77MnCr钢轨的试验研究
12.
Causes and experimental analysis of gantry crane's rail fracture
龙门起重机用钢轨断裂原因试验分析
13.
Variations of hydrogen content in molten heavy rail steel from LD tapping to mould at Baotou iron and steel group
包钢重轨钢从转炉出钢到结晶器过程中氢含量变化
14.
Effect of Corrugation to Rail Shakedown and Wheel-rail Contact Force
波浪形磨耗对重载钢轨安定性及轮轨接触力的影响
15.
The Study on the Rail Traction Return Current and Rail Potential Rule of High-Speed Heavy Railway
高速及重载铁路牵引回流钢轨电位规律的研究
16.
Two new 100-meter-rail-hoisting bridge cranes featuring synchronous movement based on wireless control
无线并车吊运百米钢轨新型桥式起重机
17.
Pilot Production with Dynamic Soft Reduction to Improve Composition Uniformity in Cast Bloom of Heavy Rail Steels
轻压下改善重轨钢铸坯成分均匀性的生产试验
18.
The surface spalling and fatigue failure may occur after a long time of service, during wheel-rail rolling contact.
钢轨钢的接触疲劳一直为铁路运输部门和研究机构所重视。