https://orcid.org/0000-0003-0847-5142
References
- Campbell J. Castings. 2nd ed. Oxford: Butterworth Heinemann; 2003.
- Winardi L, Littleton HE, Bates CE. Gas pressures in sand cores. AFS Trans. 2007;115:303–312.
- AFS Mold & Core Test Handbook. 3rd ed. Des Plaines, Ill: American Foundry Society; 2001.
- Ganat T-A-AO. Fundamentals of Reservoir Rock Properties.1st ed.Springer Nature Switzerland AG, Cham; 2020. ISBN 978-3-030-28140-3
- Nield DA, Bejan A. Convection in Porous Media.5th ed. Springer International Publishing AG, Cham; 2017. ISBN 978-3-319-49562-0
- Diószegi A, Diószegi É, Tóth J, et al. Modelling and simulation of heat conduction in 1-D polar spherical coordinates using control volume-based finite difference method. Int. J. Numer. Methods Heat Fluid Flow. 2016;26(1):2–17.
- Lage JL, Antohe BV, Nield DA. Two types of nonlinear pressure-drop versus flow-rate relation observed for saturated porous media. J Fluids Eng. 1997;119(3):700–706.
- Andrade JS, Costa UMS, Almeida MP, et al. Inertial effects on fluid flow through disordered porous media. Phys Rev Lett. 1999;82(26):5249–5252.
- Boomsma K, Poulikakos D. The effects of compression and pore size variations on the liquid flow characteristics in metal foams. J Fluids Eng. 2002;124(1):263–272.
- Forchheimer P. Wasserbewegung durch Boden. Zeits. V. deutsch. Ing. 1901;45:1782–1788.
- Ruth D, Ma H. On the derivation of the Forchheimer equation by means of the averaging theorem. Transp Porous Media. 1992;7(3):255–264.
- Carles P, Egermann P, Lenormand R, et al., Low permeability measurements using steady‐state and transient methods, Paper SCA2007‐07 Presented at the 2007 International Symposium of the Society of Core Analysis, 10–12 Sept, Calgary, Alberta, Canada (2007).
- Liu JF, Wu Y, Cai CZ, et al. Investigation into water retention and gas permeability of Opalinus clay. Environ Earth Sci. 2018;77(5):1–13.
- Christiansen RL, Howarth SM Literature review and recommendation of methods for measuring relative permeability of anhydrite from the Salado Formation at the Waste Isolation Pilot Plant, Sandia report, SAND93-7074, Sandia National Laboratories; Albuquerque, New Mexico (1995).
- https://www.multiserw-morek.pl (accessed on 4th June 2020)
- Sarek D, Trytek A, Nawrocki J. Permeability of mould made by lost-wax casting process. Arch Foundry Eng. 2009;9(1):203–206.
- Zych J, Kolczyk J, Snopkiewicz T. New investigation method of the permeability of ceramic moulds applied in the investment casting technology. Arch Foundry Eng. 2013;13(2):107–112.
- Paź S, Drożyński D, Górny M, et al. Properties of bentonites and bentonite mixtures used in casting processes. Arch Foundry Eng. 2019;19(2):35–40.
- Winardi L, Littleton HE, Bates. CE. New technique for measuring permeability of cores made from various sands, binders, additives and coatings. AFS Transactions. 2005;113:393–406.
- Tóth J, Svidró JT, Diószegi A, et al. Heat absorption capacity and binder degradation characteristics of 3D-printed cores investigated by inverse Fourier thermal analysis. Int J Metalcast. 2016;10(3):306–314.
- Sivarupan T, El Mansori M, Coniglio N, et al. Effect of process parameters on flexure strength and gas permeability of 3D-printed sand molds. J Manuf Processes. 2020;54:420–437.
- Medraj M, Baril E, Loya V, et al. The effect of microstructure on the permeability of metallic foams. J Mater Sci. 2007;42(12):4372–4383.
- Wisniewski P, Sitek R, Towarek A, et al. Molding binder influence on the porosity and gas permeability of ceramic casting molds. Materials. 2020;13(2735):1–13.