Up a level |
Choudhury, Abhik (2017) Phase-Field Modeling as a Method Relevant for Modeling Phase Transformation During Interdiffusion. [Book Chapter]
Lahiri, Arka and Choudhury, Abhik (2019) Dendrite tip selection during isothermal free growth in multi-component alloys: Marginal stability theories and insights from phase-field simulations. In: COMPUTATIONAL MATERIALS SCIENCE, 158 . pp. 209-218.
Bhadak, Bhalchandra and Sankarasubramanian, R and Choudhury, Abhik (2018) Phase-Field Modeling of Equilibrium Precipitate Shapes Under the Influence of Coherency Stresses. In: METALLURGICAL AND MATERIALS TRANSACTIONS A-PHYSICAL METALLURGY AND MATERIALS SCIENCE, 49A (11). pp. 5705-5726.
Chakraborty, Supriyo and Kumar, Praveen and Choudhury, Abhik (2018) Phase-field modeling of grain-boundary grooving and migration under electric current and thermal gradient. In: ACTA MATERIALIA, 153 . pp. 377-390.
Joshi, Chaitanya and Abinandanan, TA and Mukherjee, Rajdip and Choudhury, Abhik (2017) Destabilisation of nanoporous membranes through GB grooving and grain growth. In: COMPUTATIONAL MATERIALS SCIENCE, 139 . pp. 75-83.
Lahiri, Arka and Tiwary, Chandrashekhar and Chattopadhyay, Kamanio and Choudhury, Abhik (2017) Eutectic colony formation in systems with interfacial energy anisotropy: A phase field study. In: COMPUTATIONAL MATERIALS SCIENCE, 130 . pp. 109-120.
Lahiri, Arka and Choudhury, Abhik (2017) Revisiting Jackson-Hunt calculations: Unified theoretical analysis for generic multi-phase growth in a multi-component system. In: ACTA MATERIALIA, 133 . pp. 316-332.
Lahiri, Arka and Abinandanan, TA and Choudhury, Abhik (2017) Theoretical and Numerical Study of Growth in Multi-Component Alloys. In: METALLURGICAL AND MATERIALS TRANSACTIONS A-PHYSICAL METALLURGY AND MATERIALS SCIENCE, 48A (10). pp. 4463-4476.
Lahiri, Arka and Choudhury, Abhik (2017) Theoretical and numerical investigation of diffusive instabilities in multi-component alloys. In: JOURNAL OF CRYSTAL GROWTH, 459 . pp. 1-12.
Balachandran, Shanoob and Kashiwar, Ankush and Choudhury, Abhik and Banerjee, Dipankar and Shi, Rongpei and Wang, Yunzhi (2016) On variant distribution and coarsening behavior of the a phase in a metastable beta titanium alloy. In: ACTA MATERIALIA, 106 . pp. 374-387.
Joshi, Chaitanya and Abinandanan, TA and Choudhury, Abhik (2016) Phase field modelling of rayleigh instabilities in the solid-state. In: ACTA MATERIALIA, 109 . pp. 286-291.
Choudhury, Abhik and Yabansu, Yuksel C and Kalidindi, Surya R and Dennstedt, Anne (2016) Quantification and classification of microstructures in ternary eutectic alloys using 2-point spatial correlations and principal component analyses. In: ACTA MATERIALIA, 110 . pp. 131-141.
Lahiri, Arka and Choudhury, Abhik (2015) Effect of Surface Energy Anisotropy on the Stability of Growth Fronts in Multiphase Alloys. In: TRANSACTIONS OF THE INDIAN INSTITUTE OF METALS, 68 (6). pp. 1053-1057.
Ghosh, Supriyo and Choudhury, Abhik and Plapp, Mathis and Bottin-Rousseau, Sabine and Faivre, Gabriel and Akamatsu, Silvere (2015) Interphase anisotropy effects on lamellar eutectics: A numerical study. In: PHYSICAL REVIEW E, 91 (2).
Choudhury, Abhik (2015) Pattern-Formation During Self-organization in Three-Phase Eutectic Solidification. In: TRANSACTIONS OF THE INDIAN INSTITUTE OF METALS, 68 (6). pp. 1137-1143.
Schneider, Daniel and Tschukin, Oleg and Choudhury, Abhik and Selzer, Michael and Boehlke, Thomas and Nestler, Britta (2015) Phase-field elasticity model based on mechanical jump conditions. In: COMPUTATIONAL MECHANICS, 55 (5). pp. 887-901.
Choudhury, Abhik and Kellner, Michael and Nestler, Britta (2015) A method for coupling the phase-field model based on a grand-potential formalism to thermodynamic databases. In: CURRENT OPINION IN SOLID STATE & MATERIALS SCIENCE, 19 (5). pp. 287-300.
Choudhury, Abhik and Mukherjee, Rajdip and Bhattacharyya, Saswata (2016) Phase-Field Methods for Pattern-Formation. In: JOURNAL OF THE INDIAN INSTITUTE OF SCIENCE, 96 (3). II.
Bhattacharyya, Saswata and Bandyopadhyay, Soumya and Choudhury, Abhik (2016) Phase-Field Modeling of Electrochemical Phenomena. In: JOURNAL OF THE INDIAN INSTITUTE OF SCIENCE, 96 (3). pp. 257-268.