Publications

Dhami HS, Panda PR, Puneeth S, Viswanathan K, “Of fiery sparks and glittering spots: melting resolidification and spherical particle formation in abrasion”. Proc. Roy. Soc. A, 479, 2271(2023), 20220629.[Link] 

Dhami HS, Panda PR, Mohanty DP, Viswanathan K, “An Analytical Method for Predicting Temperature Rise Due to Multi-body Thermal Interaction in Deformation Processing.”JOM 74, 513–525 (2022).[Link] 

Dhami HS, Panda PR, Viswanathan K, “Production of powders for metal additive manufacturing applications using surface grinding”. Manuf. Lett. 32 (2022): 54-58.[Link] 

Dhami HS, Panda PR, Saikiran P, Garg R, Viswanathan K, “A sensing integrated metal additive manufacturing platform for exploring the use of non-standard powders”. J Manuf. Sci. Eng. (2023),146(3).[Link] 

Dhami HS, Viswanathan K, “Investigating particle morphology, quality, flowability and performance of abrasive-grinding based powders for directed energy deposition.”  Powder Technology (2024),p.119533. [Link] 

Dhami HS, Kumar ND, Tharian T, Chakravarthy P, “Microstructural Characterization and Mechanical Property Evaluation of High Nitrogen Martensitic Stainless Steel Subjected to Heat Treatment”. Metallography, Microstructure, and Analysis, (2024): pp 1-10. [Link] 

Singh, A, Dhami HS, Sinha MK, Kumar R, “Evaluation and comparison of mineralogical, micromeritics and rheological properties of waste machining chips, coal fly ash particulates with metal and ceramic powders.” Powder Tech. 408 (2022): 117696. [Link] 

Garg R*, Dhami HS*, Panda PR, Viswanathan K, (*equal contribution), “Evaluating gas-driven flow mechanics of non-spherical powers for direct energy deposition”. J. Manuf. Processes. 99 (2023): 260-271.[Link] 

Singh A, Singh J, Dhami HS , Sinha MK, Kumar R, “Quantifying the influences of coal fly ash on rheological and compaction behaviour of iron powder and mild steel machining chips”. Advanced Powder Tech., 33(11) (2022), 103819.[Link] 

Dawara V, Bajantri A, Dhami HS, Murty, SVS, & Viswanathan K,“Design of a low-velocity impact framework for evaluating space-grade materials”. Acta Astronautica 212 (2023): 606-616.[Link] 

Singh, A, Dhami HS et al. “Modeling, deposition, and mechanical characterizations of single-step surface coating using high-speed grinding.” The International Journal of Advanced Manufacturing Technology 1-11 (2024).[Link] 

Dhami HS, Viswanathan K.(2020) “On the Formation of Spherical Particles in Surface Grinding.” Proceedings of the ASME 2020 MSEC. Vol1:Sep, 2020. V001T05A005. [Link] 

Dhami HS, Panda PR, Mohanty DP, Udupa A, Viswanathan K, Chandrasekar S, “Unified Anal ysis of Temperature Fields Arising from Large Strain Deformation and Friction in Manufacturing Processes.” TMS 2021 150th Annual Meeting & ESP(pp. 921-931). [Link] 

Dhami HS, Panda PR, Saikiran P, Viswanathan K, “Metal powders via surface grinding: Applicability and performance evaluation for laser sintering”, ASME MSEC 2022-85120, V002T05A018; 5 pages.[Link] 

Garg, R, Dhami HS, Panda PR, Saikiran P, Viswanathan K, “Directed energy deposition using non-spherical metal powder”, ASME MSEC 2022-84945, V002T05A011; 8 pages.[Link] 

Saikiran, Dhami HS, Viswanathan K, Obstacles to progress: Probing interactions between moving fronts and rigid boundaries in 2D systems. Bulletin of the APS (2024).[Link] 

Panda, Dhami HS, ViswanathanK.Solidification on spherical surfaces. Bulletin of the APS (2024). [Link]