Mathematical modeling and numerical simulations of the extrinsic pro-apoptotic signaling pathway Markus Daub Institut für Analysis, Dymanik und Modellierung Link zum Volltext
Simulation of the austenite-ferrite transformation; effect of applied stress Mostafa Biglari Institut für Materialwissenschaft Link zum Volltext
Numerical methods for sharp-interface dynamics of phase boundaries Patrick Engel Lehrstuhl für Angewandte Mathematik Link
www.simtech.uni-stuttgart.deMathematical modeling and numerical simulations of the extrinsic pro-apoptotic signaling pathway Markus Daub Institute for Analysis, Dynamic and Modelling Link to full text
Simulation of the austenite-ferrite transformation; effect of applied stress Mostafa Biglari Institut for Materials Science Link to full text
Numerical methods for sharp-interface dynamics of phase boundaries Patrick Engel Chair of Applied Mathematics Link
www.simtech.uni-stuttgart.deMathematical modeling and numerical simulations of the extrinsic pro-apoptotic signaling pathway Markus Daub Institute for Analysis, Dynamic and Modelling Link to full text
Simulation of the austenite-ferrite transformation; effect of applied stress Mostafa Biglari Institut for Materials Science Link to full text
Numerical methods for sharp-interface dynamics of phase boundaries Patrick Engel Chair of Applied Mathematics Link
www.simtech.uni-stuttgart.deMathematical modeling and numerical simulations of the extrinsic pro-apoptotic signaling pathway Markus Daub Institut für Analysis, Dymanik und Modellierung Link zum Volltext
Simulation of the austenite-ferrite transformation; effect of applied stress Mostafa Biglari Institut für Materialwissenschaft Link zum Volltext
Numerical methods for sharp-interface dynamics of phase boundaries Patrick Engel Lehrstuhl für Angewandte Mathematik Link
www.simtech.uni-stuttgart.deVuoi aggiungere una parola, una frase o una traduzione?
Inserisci una nuova voce.