Analysis of (Ti, Zr, Ta)-(O, C, N) systems for obtaining metal-ceramic coatings of the required composition by induction heat treatment
暂无分享,去创建一个
Andrey M. Zakharevich | Marina Fomina | A Voyko | Ivan Egorov | Andrey Shchelkunov | Aleksandr A. Skaptsov | Aleksandr Shumilin | A. Zakharevich | I. Egorov | M. Fomina | A. Skaptsov | A. Shumilin | A. Voyko | A. Shchelkunov
[1] J. Abriata,et al. The O−Zr (Oxygen-Zirconium) system , 1986 .
[2] J. Teixeira,et al. Simulation of coupled temperature, microstructure and internal stresses evolutions during quenching of a β-metastable titanium alloy , 2016 .
[3] H. Okamoto. N-Ta (Nitrogen-Tantalum) , 2008 .
[4] Chenghao Song,et al. Study of microstructure, mechanical properties and impact-abrasive wear behavior of medium-carbon steel treated by quenching and partitioning (Q&P) process , 2018, Wear.
[5] D. Edelhoff,et al. Wear at the titanium-titanium and the titanium-zirconia implant-abutment interface: a comparative in vitro study. , 2012, Dental materials : official publication of the Academy of Dental Materials.
[6] N. Mukhin. Investigation of the formation kinetics of grain boundary inclusions of lead oxide in lead zirconate–titanate films , 2016, Glass Physics and Chemistry.
[7] Zhikai Chen,et al. Behaviors of 40Cr steel treated by laser quenching on impact abrasive wear , 2018, Optics & Laser Technology.
[8] H. Okamoto. Pd-Si (Palladium-Silicon) , 1993 .
[9] A. Zakharevich,et al. Micro- and nanostructure of a titanium surface electric-spark-doped with tantalum and modified by high-frequency currents , 2016 .
[10] N. Petrova,et al. Composition, structure and mechanical properties of the titanium surface after induction heat treatment followed by modification with hydroxyapatite nanoparticles , 2016 .
[11] I. Egorov,et al. Composite “1.2361 tool steel – Ti – TiO2” structure and its production by resistance welding with subsequent induction heat treatment , 2018, Composite Structures.
[12] I. N. Zakharov,et al. The effect of electromechanical treatment on structure and properties of plasma sprayed Ni–20Cr coating , 2016 .
[13] A. Fomin,et al. Surface morphology data of tantalum coatings obtained by electrospark alloying , 2018, Data in brief.
[14] H. Okamoto. Comment on C-Ti (carbon-titanium) , 1995 .
[15] N. Mukhin. Diffusion model of intrinsic defects in lead zirconate titanate films on heat treatment in air , 2014, Glass Physics and Chemistry.
[16] A. Zakharevich,et al. Surface morphology of zirconium after treatment with high-frequency currents , 2018, Composite Structures.
[17] T. Schaedler,et al. Phase equilibria in the TiO2-YO1.5-ZrO2 system , 2008 .
[18] H. Okamoto. C-Zr (Carbon-Zirconium) , 1996 .
[19] A. Fomin,et al. Metal oxide (Ti,Ta)-(TiO2,TaO) coatings produced on titanium using electrospark alloying and modified by induction heat treatment , 2018 .
[20] Nagaiyar Krishnamurthy,et al. The O-Ta (Oxygen-Tantalum) system , 1996 .
[21] A. Aman,et al. Microwave emission from lead zirconate titanate induced by impulsive mechanical load , 2015 .
[22] H. Wriedt,et al. The O−Ti (Oxygen-Titanium) system , 1987 .
[23] Guoliang Li,et al. Titanium carbonitride coating by pulsed electrical discharge in an aqueous solution of ethanolamine , 2014 .
[24] P. Kiryukhantsev-Korneev,et al. Si-doped multifunctional bioactive nanostructured films , 2008 .