Sundaram, D., Matsushita, T., Belov, I., Diószegi, A. (2024). Evaluation of permeability models for foundry molds and cores in sand casting processes Archives of Foundry Engineering, 24(1), 94-106. More information

Matsushita, T., Sundaram, D., Belov, I., Diószegi, A. (2024). Kinetic model for the decomposition rate of the binder in a foundry sand application Archives of Foundry Engineering. More information

Sundaram, D., Svidró, J., Diószegi, A. (2024). Thermal analysis and gas generation measurement of foundry sand mixtures International Journal of metalcasting. More information

Sundaram, D., Svidró, J., Svidró, J., Diószegi, A. (2022). A Novel Approach to Quantifying the Effect of the Density of Sand Cores on Their Gas Permeability Journal of Casting & Materials Engineering, 6(2), 33-38. More information

Sundaram, D., Svidró, J., Diószegi, A., Svidró, J. (2021). Measurement of Darcian Permeability of foundry sand mixtures International Journal of Cast Metals Research, 34(2), 97-103. More information

Sundaram, D., Svidró, J., Svidró, J., Diószegi, A. (2021). On the relation between the gas-permeability and the pore characteristics of furan sand Materials, 14(14). More information

Sundaram, D. (2024). Gas evolution and transport in foundry sands (Doctoral thesis, Jönköping: Jönköping University, School of Engineering). More information

Belov, I., Matsushita, T., Fourlakidis, V., Sundaram, D., Diószegi, A. (2023). A simulation and experimental methodology to evaluate conditions for gas penetration from FURAN sand core into a cast iron melt. 17th European Congress and Exhibition on Advance Materials and Processes, FEMS EUROMAT 2023, 03-07 September 2023, Germany. More information

Sundaram, D., Belov, I., Matsushita, T., Diószegi, A. . Computational model of heat and gas transport in a furan resin sand casting core. More information