Showing results 241 - 260 out of 780
2014
Neumeyer J, Nacke B. Induktive Unterstützung von Hybrid-Schweißprozessen. Elektrowärme international : EWI ; Zeitschrift für elektrothermische Prozesse. 2014;72(1):57-60.
Neumeyer J, Nacke B. Induktive unterstützung von hybrid-schweißverfahren. Elektrowaerme International. 2014;(1):57-60.
Neumeyer J, Nacke B, Schülbe H. Induktiv unterstützte Laser- und Hybridschweißverfahren. In Induktives Erwärmen : Wärmen, Härten, Glühen, Löten, Schweißen. Essen: Vulkan Verlag. 2014. p. 177-182
Nikanorov A, Baake E, Schülbe H. Approaches for numerical simulation of high frequency tube welding process. In Proceedings of the International Scientific Colloquium "Modelling for Electromagnetic Processing": Hannover, September 16 - 19, 2014. Hannover: Institut für Elektroprozesstechnik. 2014. p. 177-182
Pavlovs S, Jakovics A, Baake E, Nacke B. LES-study of melt flow driven by combined inductive and conductive power supply in metallurgical MHD devices. In 9th PAMIR International Conference "Thermo Acoustic and Space Technologies": Riga, Latvia, June 16 - 20, 2014. Salaspils: Inst. of Physics. 2014. p. 289-293
Pavlovs S, Jakovičs A, Baake E, Nacke B. Melt flow patterns in metallurgical MHD devices with combined inductive and conductive power supply. Magnetohydrodynamics. 2014;50(3):303-315. doi: 10.22364/mhd.50.3.8
Pavlovs S, Jakovics A, Baake E, Nacke B, Sushkovs V. Numerical modeling of melt circulation in industrial-size furnaces with power supply by inductor and over electrodes. In Proceedings of the International Scientific Colloquium "Modelling for Electromagnetic Processing": Hannover, September 16 - 19, 2014. Hannover: Institut für Elektroprozesstechnik. 2014. p. 363-369
Pleshivtseva Y, Di Barba P, Rapoport E, Nacke B, Nikanorov A, Lupi S et al. Multi-objective optimisation of induction heaters design based on numerical coupled field analysis. International Journal of Microstructure and Materials Properties. 2014;9(6):532-551. doi: 10.1504/IJMMP.2014.067318
Pleshivtseva Y, Di Barba P, Rapoport E, Nacke B, Nikanorov A, Forzan M et al. Multi-objective optimization as an innovative method to design induction heaters. In Proceedings of the International Scientific Colloquium "Modelling for Electromagnetic Processing": Hannover, September 16 - 19, 2014. Hannover: Institut für Elektroprozesstechnik. 2014. p. 127-136
Ščepanskis M, Jakovičs A, Kaldre I, Maniks J, Nacke B, Holweger W. Electromagnetic impact on early white etching cracks in inhomogeneous structure of bearing steel. In Society of Tribologists and Lubrication Engineers Annual Meeting and Exhibition 2014. 1 ed. Society of Tribologists and Lubrication Engineers. 2014. p. 341-343. (Society of Tribologists and Lubrication Engineers Annual Meeting and Exhibition 2014).
Ščepanskis M, Jakovičs A, Baake E, Nacke B. Solid inclusions in an electromagnetically induced recirculated turbulent flow: Simulation and experiment. International Journal of Multiphase Flow. 2014 Sept;64:19-27. Epub 2014 Apr 24. doi: 10.1016/j.ijmultiphaseflow.2014.04.004
Schaumann P, Collmann M, Schülbe H, Neumeyer J, Nacke B, Lahdo R et al. Numerical and experimental investigations of induction assisted GMA-laser hybrid welding. In Proceedings of the International Scientific Colloquium "Modelling for Electromagnetic Processing": Hannover, September 16 - 19, 2014. Hannover: Institut für Elektroprozesstechnik. 2014. p. 251-258
Schlesselmann D, Nikanorov A, Nacke B, Galunin S, Schön M, Yu Z. Numerical calculation and comparison of temperature profiles and martensite microstructures in induction surface hardening processes. International Journal of Applied Electromagnetics and Mechanics. 2014 Jan 20;44(2):137-145. doi: 10.3233/JAE-141753
Schlesselmann D, Yu Z, Krause C, Boyarkin V, Nacke B. Process design for inductive surface hardening using an inverse numerical approach. Heat processing : international magazine for industrial furnaces, heat treatment plants, equipment. 2014;12(4):65-71.
Schlesselmann D, Yu Z, Krause C, Boyarkin V, Nacke B. Prozessauslegung für das induktive Randschichthärten mittels inverser numerischer Methoden. Elektrowärme international : EWI ; Zeitschrift für elektrothermische Prozesse. 2014;725(3):85-91.
Spitans S, Baake E, Nacke B, Jakovics A. 3D LES two-phase flow simulation of conventional electromagnetic levitation melting experiment. In 9th PAMIR International Conference "Thermo Acoustic and Space Technologies": Riga, Latvia, June 16 - 20, 2014. Salaspils: Inst. of Physics. 2014. p. 261-265
Spitans S, Baake E, Nacke B, Jakovics A. A numerical model for coupled free surface and liquid metal flow calculation in electromagnetic field. International Journal of Applied Electromagnetics and Mechanics. 2014 Jan 20;44(2):171-182. doi: 10.3233/JAE-141757
Spitans S, Baake E, Nacke B, Jakovics A. Coupled 3D simulation of free surface dynamics and liquid metal flow in EM levitation melting furnaces. In Proceedings of the International Scientific Colloquium "Modelling for Electromagnetic Processing": Hannover, September 16 - 19, 2014. Hannover: Institut für Elektroprozesstechnik. 2014. p. 195-202
Steinberg T, Baake E. CO2-freie Produktion von Wasserstoff durch den Einsatz von Flüssigmetall. Elektrowärme international : EWI ; Zeitschrift für elektrothermische Prozesse. 2014;72(2):59-62.
Steunberg T, Baake E. CO2-freie Produktion von Wasserstoff durch den Einsatz von FlüssgmetaII. Elektrowaerme International. 2014;(2):59-62.
