Your search keyword '"Novák, Pavel"' showing total 2 results

1. Finding the energy source for self-propagating high-temperature synthesis production of NiTi shape memory alloy.

Author

Novák, Pavel, Školáková, Andrea, Pignol, Damien, Průša, Filip, Salvetr, Pavel, Kubatík, Tomáš František, Perriere, Loïc, and Karlík, Miroslav

Subjects

*SELF-propagating high-temperature synthesis, *SHAPE memory alloys, *NICKEL-titanium alloys, *INTERMETALLIC compounds synthesis, *MICROSTRUCTURE, *DIFFUSION, *SINTERING

Abstract

Our previous works on the synthesis of intermetallics by Self-propagating High-temperature Synthesis revealed strong dependence of microstructure of the products on heating rate. In this paper, the application of various heating regimes and sources was tested in preparation of Ni Ti shape memory alloy. It was found that high heating rate (approx. over 100 °C min −1 ) was required to obtain the material with maximized amount of NiTi shape memory phase and no unreacted metals. Heating in electric resistance furnace preheated to the process temperature or induction heating furnace seemed to be promising for this purpose. On the other hand, Spark Plasma Sintering was found to be inapplicable, because the strongest increase of the temperature occurred on the surface of the particles, producing layers of intermetallics that further acted as diffusion barriers. [ABSTRACT FROM AUTHOR]

Published

2016

2. Formation of Ni–Ti intermetallics during reactive sintering at 500–650 °C.

Author

Novák, Pavel, Pokorný, Petr, Vojtěch, Vladimír, Knaislová, Anna, Školáková, Andrea, Čapek, Jaroslav, Karlík, Miroslav, and Kopeček, Jaromír

Subjects

*NICKEL-titanium-carbon alloys, *SINTERING, *CHEMICAL kinetics, *NICKEL-plating, *MICROSTRUCTURE, *ELECTRON microscopy

Abstract

In this work, the formation of intermetallics in Ni–Ti system by reactive sintering at 500 and 650 °C was studied. Mechanism and kinetics of the reactions leading to Ni–Ti phases were determined by DTA and the application of an experimental model consisted of nickel-plated titanium. It was found that Ti 2 Ni phase forms already at 500 °C. At 650 °C this phase undergoes a reaction with nickel to NiTi and Ni 3 Ti. The reactions were determined to be diffusion-controlled. The formation of Ni 3 Ti contributes to the porosity evolution during reactive sintering production of NiTi alloy. [ABSTRACT FROM AUTHOR]

Published

2015