Syntheses of the Ni3Ti, NiTi, and NiTi2 Compounds by Mechanical Alloying

C.B. Martins; Bruno Bacci Fernandes; Erika Coaglia Trindade Ramos; Gilbert Silva; Alfeu Saraiva Ramos

doi:10.4028/www.scientific.net/MSF.530-531.217

Paper Titles

Design of a Machine by Low Cost and the High Performance for Produced Powder Materials
p.192

Preparation of Ta-12.5Si-25B Powders by Mechanical Alloying
p.197

Mechanical Activation of Nb75Al Mixtures Using Shaker and Planetary Ball Mills
p.203

High-Energy Ball Milling of Ni-Ti and Ni-Ti-Nb Powders
p.211

Syntheses of the Ni₃Ti, NiTi, and NiTi₂ Compounds by Mechanical Alloying
p.217

Plasma Assisted Debinding and Sintering (PADS) – Metal Injection Molding Application
p.224

On the Use of Elemental Powders to Process Fe-50Co Alloys by Powder Injection Molding
p.230

Production of Composite Parts of H13 and 316L by Two Components Injection Molding
p.236

Composite Materials Based on EN AW-Al Cu4Mg1(A) Aluminum Alloy Reinforced with the Ti(C,N) Ceramic Particles
p.243

HomeMaterials Science ForumMaterials Science Forum Vols. 530-531Syntheses of the Ni3Ti, NiTi, and NiTi2 Compounds...

Syntheses of the Ni₃Ti, NiTi, and NiTi₂ Compounds by Mechanical Alloying

Abstract:

The aim of this work is to prepare the Ni3Ti, NiTi, and NiTi2 compounds by mechanical alloying from elemental Ni-25at.%Ti, Ni-50at.%Ti, and Ni-66.6at.%Ti powder mixtures. The milling process was carried out in a planetary ball mill under argon atmosphere using a rotary speed of 200rpm, stainless steel balls (10 and 19 mm diameters) and vials (225mL), and a ball-to-powder weight ratio of 10:1. Following, the milled powders were heat treated at 900oC for 1h in order to attain the equilibrium microstructures. The milled powders were characterized by means of X-ray diffraction (XRD), scanning electron microscopy (SEM), and microanalysis via EDS. Similar ball milling behavior of Ni-Ti powders was noted in this work, e.g., a pronounced cold-welding between ductile powders occurred during the initial milling times. The Ni3Ti, NiTi, and NiTi2 compounds were synthesized after milling for 30h. Atomic disordering of the NiTi and NiTi2 compounds was achieved, and amorphous structures were then formed in Ni-50Ti e Ni-66.6Ti powders milled for 60h and 210h, respectively. Homogeneous matrixes constituted by the Ni3Ti, NiTi, and NiTi2 phases were formed in Ni-Ti powders after heat treatments at 900oC for 1h. Iron contamination lower than 2 at-% was measured by EDS analysis in heat-treated Ni-Ti alloys.