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A Mathematical Model and Simulations of Low Temperature Nitriding Katarzyna Tkacz-Smiech Deceased.We dedicate this article to the memory of Professor Katarzyna Tkacz-Smiech
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作者 Bogusław Bo˙zek Lucjan Sapa +2 位作者 Katarzyna Tkacz-Smiech Marek Danielewski janusz rybak 《Computer Modeling in Engineering & Sciences》 SCIE EI 2022年第2期777-803,共27页
Low-temperature nitriding of steel or iron can produce an expanded austenite phase,which is a solid solution of a large amount of nitrogen dissolved interstitially in fcc lattice.It is characteristic that the nitogen ... Low-temperature nitriding of steel or iron can produce an expanded austenite phase,which is a solid solution of a large amount of nitrogen dissolved interstitially in fcc lattice.It is characteristic that the nitogen depth profiles in expanded austenite exhibit plateau-type shapes.Such behavior cannot be considered with a standard analytic solution for diffusion in a semi-infinite solid and a new approach is necessary.We formulate a model of interdiffusion in viscoelastic solid(Maxwellmodel)during the nitriding process.It combines themass conservation and Vegard’s rule with the Darken bi-velocity method.The model is formulated in any dimension,i.e.,a mixture is included in R^(n),n=1,2,3.For the system in one dimension,n=1,we transform a differential-algebraic system of 5 equations to a differential system of 2 equations only,which is better to study numerically and analytically.Such modification allows the formulation of effective mixed-type boundary conditions.The resulting nonlinear strongly coupled parabolic-elliptic differential initial-boundary Stefan type problem is solved numerically and a series of simulations is made. 展开更多
关键词 NITRIDING expanded austenite Maxwell solid Darken method Vegard rule
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