Jozsef Tamas Svidro

Universitetslektor material och tillverkning - gjutning

Avdelningen för Material och tillverkning , Tekniska Högskolan i Jönköping AB

Kontakt

Rum
E2225
Telefon
+46 36-10 1665
Signatur
tsjo
Schema
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Forskningsgrupper

Artikel

Svidró, J. Diószegi, A. Tóth, L. Svidró, J. (2017). The influence of thermal expansion of unbonded foundry sands on the deformation of resin bonded cores. : De Gruyter Open More information
Svidró, J. Diószegi, A. Svidró, J. Ferenczi, T. (2017). Thermophysical aspects of reclaimed moulding sand addition to the epoxy-SO2 coremaking system studied by Fourier thermal analysis. More information
Svidró, J. Diószegi, A. Svidró, J. Ferenczi, T. (2017). The effect of different binder levels on the heat absorption capacity of moulding mixtures made by the phenolic urethane cold-box process. : Springer More information
Tóth, J. Svidró, J. Diószegi, A. Stevenson, D. (2016). Heat absorption capacity and binder degradation characteristics of 3D printed cores investigated by inverse fourier thermal analysis. More information
Diószegi, A. Diószegi, E. Tóth, J. Svidró, J. (2016). Modelling and simulation of heat conduction in 1-D polar spherical coordinates using control volume-based finite difference method. More information
Svidró, J. Diószegi, A. Tóth, J. (2014). The novel application of Fourier thermal analysis in foundry technologies. More information
Svidró, J. Diószegi, A. (2011). Studying binder decomposition characteristics in resin bonded moulding materials through core gas measurement. Germany: More information
Svidró, J. (2010). The effect of sulphur content in chemical bonded sand moulds on the mechanism of penetration. Germany: More information

Konferensbidrag

Svidró, J. Diószegi, A. Stevenson, D. Tóth, J. (2015). Heat absorption capacity and binder degradation characteristics of 3D printed cores investigated by inverse Fourier thermal analysis. Transactions of the American Foundry Society. : American Foundry Society More information






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