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1.
Development of Nb-Ti Micro-alloyed Steel for Automobile Frame 510L
铌钛微合金化汽车大梁板510L开发
2.
nitrided niobium-titanium-tungsten alloy
氧化铌--钛--钨合金
3.
Development and Production of Niobium,Titanium Microalloying Hot Strip
铌、钛微合金化热轧带钢的开发及生产
4.
Optimal Design and Physical Metallurgy of Multilple Alloy Steel Containing Nb and Ti
铌、钛复合微合金钢的优化设计及物理冶金
5.
Effect of Nb+Ti microalloying on microstructure and properties of phosphorus-containing steel sheet
铌钛复合微合金化对含磷冷轧结构钢板组织性能的影响
6.
The Physicochemical Properties and Biological Safety of Ti-24Nb-4Zr-7.9 Sn Treated by Micro-arc Oxidation;
微弧氧化处理的钛铌锆锡合金理化性能和生物安全性研究
7.
STUDY ON TRANSVERSE CORNER CRACKING OCCURRENCE PREVENTION?OF THE Nb,V AND Ti MICROALLOYING STEEL CC SLABS
减少含铌、钒、钛微合金化钢连铸板坯角横裂纹的研究
8.
The Biological Study of Ti-24Nb-4Zr-7.9Sn Coated by Micro-arc Oxidation;
经微弧氧化表面处理的钛铌锆锡合金的生物相容性研究
9.
Microstructure and Properties of Nb、Ti-microalloyed Fine-grained DP Steels Based on Dynamic Transformation
基于动态相变的铌、钛微合金化细晶DP钢的组织和性能
10.
The Biological Study of Ti-24Nb-4Zr-7.9Sn Treated by Anodic Oxidation;
阳极氧化钛铌锆锡合金的生物学性能研究
11.
Study on Technology of Nb-V Micro-alloyed HRB500 Ribbed Bar
铌钒复合微合金化HRB500钢筋工艺研究
12.
Study on Deformation Induced Ferrite Transformation of the Grain Boundary Allotriomorphic Ferrite/granular Bainite (FGBA/Bg) and Nb-Ti Microalloyed Duplex Steel
铌、钛微合金化仿晶界型铁素体/粒状贝氏体复相钢的形变诱导铁素体相变的研究
13.
Effect of cooling rate on the slab surface microstructure of microalloyed steel containing Nb and Ti
冷却速度对含铌、钛微合金钢铸坯表层组织结构的影响
14.
Numerical simulation for finish rolling of niobium micro-alloyed high carbon steel on four stands
铌微合金化高碳钢四机架精轧的数值模拟
15.
Austenite grain size and hardenability of Nb-B microalloyed gear steels
铌硼微合金化齿轮钢的晶粒尺寸及淬透性
16.
OXIDATION OF NIOBIUM AND NIOBIUM ALLOYS AT HIGH TEMPERATURE IN VACUUM
铌和铌合金在真空高温下的氧化现象
17.
The Study on the High-temperature Oxidation-resistant Coating on Niobium and Nb-base Alloy
铌及铌合金高温抗氧化防护涂层研究
18.
An Experimental Study on Biocompatibility and Ni~(2+) Separation of Nitinol Modified on Its Surfaces by Titanium or Titanium-Niobium Alloy;
钛、钛铌修饰的镍钛合金生物相容性及Ni~(2+)析出实验研究