Application of numerical inverse method in calculation of composition-dependent interdiffusion coefficients in finite diffusion couples

Abstract: The previously developed numerical inverse method was applied to determine the composition-dependent interdiffusion coefficients in single-phase finite diffusion couples. The numerical inverse method was first validated in a fictitious binary finite diffusion couple by pre-assuming four standard sets of interdiffusion coefficients. After that, the numerical inverse method was then adopted in a ternary Al-Cu-Ni finite diffusion couple. Based on the measured composition profiles, the ternary interdiffusion coeff… Show more

“…In the aspect of computational approaches, a numerical inverse method for the reliable composition-dependent ternary interdiffusivities using a single diffusion couple was developed by the present authors [13], and then augmented to be applicable in binary, ternary and high-order systems [14]. Up to now, the developed numerical inverse method has been successfully applied in different binary, ternary and multicomponent alloys [13][14][15][16][17][18][19][20]. Very recently, the present authors utilized the combinational approach of the diffusion multiple technique and the numerical inverse method to determine the composition-dependent interdiffusivities for fcc Co-Cr-Fe-Mn-Ni alloys [19].…”

High-Throughput Determination of Interdiffusivities for Ni-Al-Cr Alloys at 1173 K through a Combination of Diffusion Multiple and Numerical Inverse Method

“…In the aspect of computational approaches, a numerical inverse method for the reliable composition-dependent ternary interdiffusivities using a single diffusion couple was developed by the present authors [13], and then augmented to be applicable in binary, ternary and high-order systems [14]. Up to now, the developed numerical inverse method has been successfully applied in different binary, ternary and multicomponent alloys [13][14][15][16][17][18][19][20]. Very recently, the present authors utilized the combinational approach of the diffusion multiple technique and the numerical inverse method to determine the composition-dependent interdiffusivities for fcc Co-Cr-Fe-Mn-Ni alloys [19].…”

High-Throughput Determination of Interdiffusivities for Ni-Al-Cr Alloys at 1173 K through a Combination of Diffusion Multiple and Numerical Inverse Method

“…[12] It is more efficient than traditional Matano-Kirkaldy method because the Matano-Kirkaldy method can only calculate the diffusion coefficient at the intersection of the diffusion path in two diffusion couples. [13,14] Both methods are included in CALTPP (CALculation of ThermoPhysical Properties) program in which the atomic mobilities can be optimized combined the thermodynamic description.…”

Diffusion and Atomic Mobility for FCC Ni-Si-Ti Alloys: Experiment and Modeling

High-Throughput Determination of Composition-Dependent Interdiffusivity Matrices and Atomic Mobilities in fcc Cu-Ni-Al Alloys by Combining Diffusion Couple Experiments with HitDIC Modeling