1.
Microstructure and Properties of TLP and TIG+MIG Joint of T91 Steel Pipe
T91钢管TLP与TIG+MIG焊接接头组织与性能
2.
Analysis of T91 Steel Pipe Bursting at High Temperature Superheater in Supercritical Boiler
超临界锅炉高温过热器T91钢管爆管分析
3.
Welding procedure and operating technical for T91;
T91小口径钢管的焊接工艺及操作技术
4.
Test and Research on Welding Performance of T91 Refractory Steel Tube of Boiler
T91锅炉热强钢管焊接性能的试验研究
5.
Research on Welding Process of T91 Thin Steel Pipe
T91钢薄壁管的焊接工艺试验研究
6.
A Research on Welding Technology of SA213-T91 Steel;
SA213-T91钢焊接技术研究
7.
Effect of Different Holding Time on Microstructures and Properties of TLP Joint of T91/102 Steel
不同保温时间对T91/102异种钢管TLP连接接头组织和性能的影响
8.
Research of Cold Drawn Technology for High Pressure Boiler Tube ASME SA-213 T91
ASME SA-213 T91高压锅炉用无缝钢管冷拔生产工艺研究
9.
Influence of Bonding Temperature on Microstructure and Property of T91/102 TLP Joint
连接温度对T91/102异种钢管瞬时液相扩散连接接头组织性能的影响
10.
Research on heat-stability of the dissimilar steel joints of T91 and SUS304
T91与SUS304异种钢接头热稳定性研究
11.
Application evaluation of domestic T91 steel as high temperature boiler tube
国产T91钢在高温受热面中的应用评价
12.
Numerical Simulation of Welding Temperature Fields and Stress Fields of T91 Steel in Power Boilers;
电站锅炉T91钢焊接温度场和应力场的数值模拟
13.
Influences of Deformation and Cooling Rate on the Microstructure Evolution of T91 Heat-resistant Steels;
变形和冷却速度对T91耐热钢组织形成的影响
14.
Cyclic oxidation behavior in water-vapour atmosphere of ferritic-martensitic steel T91 coated by hot dip aluminizing
T91钢热浸镀铝及其在水蒸汽中的循环氧化行为
15.
Effect of Cooling Rate on Phase Transformation Process and Microstructure of T91 Ferritic Heat Resistant Steel
冷却速率对T91钢相变过程及组织的影响
16.
STATISTICAL ANALYSIS AND RELIABILITY PREDICTION OF CREEP RUPTURE PROPERTY FOR T91/P91 STEEL
T91/P91钢持久性能的统计分析及可靠性预测
17.
T91/P91 Steel's Research of Welding Heat-affected Zone Crack and Evaluation of Welding Property in Generating Station;
电厂用T91/P91钢焊接热影响区裂纹研究及焊接性能评定
18.
Service Condition-Creep Rupture Property Interference Model and Its Application in Reliability Assessment of T91/P91 Steels
“服役条件-持久强度”干涉模型及其在T91/P91钢可靠性评估中的应用