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Thermal behaviour of cermets and hardmetals during debinding and sintering

: Gestrich, Tim; Kaiser, Arno; Pötschke, Johannes; Meinl, Juliane; Höhn, Sören

Sigl, L.S. ; Plansee AG, Reutte:
19. Plansee Seminar 2017. Proceedings. Vol.2 : International Conference on Refractory Metals and Hard Materials; Reutte/Austria, 29 May-2 June, 2017
Reutte: Plansee, 2017
8 pp.
International Conference on Refractory Metals and Hard Materials <2017, Reutte>
Plansee Seminar <19, 2017, Reutte>
Conference Paper
Fraunhofer IKTS ()
Sintertechnik; Massenspektrometer; Ofenatmosphäre; Elektronenmikroskopie; Gasdruck; thermisches Verhalten; Thermowaage; Stickstoff; Feldemission; Differenzialthermoanalyse; Mehrphasenreaktion; Ausgasung; Wärmebehandlung; Helium; Cermet; Hartmetall; Thermoanalyse; Gasphasenreaktion

Most important processes during heat treatment of powder mixtures for production of cermets and hardmetals are drying, dewaxing, outgassing, melting of the binder phase and sintering. Results of sintering experiments on the lab scale are presented and discussed. The experiments include sintering of materials with various compositions of hard phases (WC, TiCN) and metallic binder phases (Co, Ni). The multiphase reactions are investigated by methods of thermal analysis (Thermodilatometry, Differential Thermal Analysis, Thermogravimetry). Selected microstructures are inspected by high resolution field emission scanning electron microscopy. The influence of furnace atmosphere (cermets in helium or nitrogen and hardmetals in helium) and gas pressure on gas reactions are investigated by a thermobalance-mass spectrometer-system. For these studies an orifice coupling system for normal pressure in the thermobalance (1000 mbar) was modified in order to use this system also at a pressure range of approximately 0.1 to 10 mbar. The achieved process knowledge enables better understanding for sintering cermets and hardmetals and to improve both the processes and the material quality.