Modeling of diffusion saturation of (a+p) titanium alloys by nitrogen in the rarefied medium

Ya. Matychak; V. Fedirko; I. Pohrelyuk; O. Yaskiv; O. Tkachuk

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Modeling of diffusion saturation of (a+p) titanium alloys by nitrogen in the rarefied medium

机译：稀薄介质中氮对（a + p）钛合金扩散饱和的建模

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The diffusion saturation of (a + p) titanium alloy by nitrogen under rarefied medium taking into account the peculiarities of interaction both at the interface and jn the metal core is modeled. The corresponding diffusion problem using the diffusion equations in the medium consisting two families of diffusion paths and non-stationary boundary condition at interface is analytically solved. The effect of the temperature and time parameters, volumetric quantity of 0-phase on the kinetics of nitriding is estimated. It is established that with the increase of isothermal exposure temperature and quantity of P-phase the surface saturation by nitrogen decreases. It is caused by more intensive nitrogen penetration into bulk and formation of a deeper diffusion zone.

机译：考虑到在界面处和金属核之间相互作用的特殊性，对稀有介质下氮在（a + p）钛合金中的扩散饱和进行了建模。使用扩散方程在包含两个扩散路径族和界面处的非平稳边界条件的介质中求解相应的扩散问题。估算了温度和时间参数，0相体积量对氮化动力学的影响。可以确定的是，随着等温暴露温度的升高和P相数量的增加，氮的表面饱和度降低。这是由于氮气大量渗入主体并形成更深的扩散区而引起的。

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《Diffusion and Defect Data. Solid State Data, Part A. Defect and Diffusion Forum》 |2008年第0期|共6页
作者
Ya. Matychak; V. Fedirko; I. Pohrelyuk; O. Yaskiv; O. Tkachuk;
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正文语种 eng
中图分类分析化学;
关键词
diffusion; mass transfer; segregation; nitriding; titanium (α + /β) alloys;

机译：扩散;传质;偏析;氮化;钛（α+ /β）合金;

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1. Modeling of diffusion saturation of (a+p) titanium alloys by nitrogen in the rarefied medium [J] . Ya. Matychak, V. Fedirko, I. Pohrelyuk, Diffusion and Defect Data. Solid State Data, Part A. Defect and Diffusion Forum . 2008,第0期

机译：稀薄介质中氮对（a + p）钛合金扩散饱和的建模
2. THERMODIFFUSION SATURATION OF alpha-TITANIUM WITH NITROGEN FROM A RAREFIED ATMOSPHERE [J] . Ya. S. Matychak, I. M. Pohrelyuk, V. M. Fedirko Materials Science . 2009,第1期

机译：稀有大气中的氮与钛的热变质饱和
3. Modeling of Diffusion Saturation of Titanium by Interstitial Elements in Rarefied Atmospheres [J] . Ya. Matychak, V. Fedirko, A. Prytula, Diffusion and Defect Data. Solid State Data, Part A. Defect and Diffusion Forum . 2007,第0期

机译：贫化大气中间隙元素对钛扩散饱和的模拟
4. Modeling of diffusion saturation of (α+β) titanium alloys by nitrogen in the rarefied medium [C] . Ya. Matychak, V. Fedirko, I. Pohrelyuk, International Workshop on Diffusion and Diffusional Phase Transformations in Alloys . 2008

机译：稀土氮在氮气中（α+β）钛合金扩散饱和的建模
5. Nitrogen diffusion-hardened titanium-6aluminum-4vanadium alloy surfaces in modular hip prostheses [D] . Venugopalan, Ramakrishna 1998

机译：模块化髋关节假体中的氮扩散硬化钛6铝4钒合金表面
6. Formation of Nitrogen Doped Titanium Dioxide Surface Layer on NiTi Shape Memory Alloy [O] . Michał Tarnowski, Justyna Witkowska, Jerzy Morgiel, 2021

机译：NITI形状记忆合金上的氮掺杂二氧化钛表面层的形成
7. Kinetics carburization of titanium alloys during thermal diffusion saturation from gaseous medium [O] . A. G. Lukyanenko, V. S. Trush, V. N. Fedirko 2018

机译：来自气态介质的热扩散饱和期间钛合金的动力学渗碳
8. Titanium-Rich Ternary Alloys of Titanium with Carbon and Nitrogen, Carbon and Oxygen, and Nitrogen and Oxygen [R] . Stone, L., Margolin, H. 1953

机译：富含钛的三元合金钛与碳和氮，碳和氧，氮和氧

Modeling of diffusion saturation of (a+p) titanium alloys by nitrogen in the rarefied medium

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