Effect of Milling Tools on the Microstructure and Property of Cu-Based Composites Prepared by Mechanical Alloying

doi:10.1007/s40195-017-0582-7

Abstract

Abstract:

Cu and Nb powders were used as starting materials to produce Cu-Nb and Cu-NbC-WC composites by mechanical alloying. X-ray diffraction, scanning electron microscopy, transmission electron microscopy observations and microhardness measurements have been used to study the effects of milling tools on the phase, microstructure and property of the composites. The results revealed that a single-phase nanocrystalline solid solution was obtained using stainless steel vials and balls (Alloy 1). Nevertheless, Cu-7 wt% Nb powders milled by tungsten carbon vials and balls exhibited an amorphous phase (Alloy 2). The as-milled powders were then vacuum hot-pressing sintered. The microstructure of sintered Alloy 1 consisted of Nb nanoparticles and Cu nanograins. Instead, Alloy 2 showed a microstructure with NbC nanoparticles and WC submicron-sized particles dispersed throughout the Cu matrix. Furthermore, Alloy 2 (~322 HV) had a higher microhardness than Alloy 1 (~302 HV).

Key words: Mechanical alloying, Cu-based composite, Mechanical property, Nanostructured materials

Ruo-Shan Lei, Ming-Pu Wang. Effect of Milling Tools on the Microstructure and Property of Cu-Based Composites Prepared by Mechanical Alloying[J]. Acta Metallurgica Sinica (English Letters), 2017, 30(12): 1155-1162.

Figures/Tables 6

Fig. 1 XRD patterns of Cu-7 wt% Nb powders at different stages of milling: a Alloy 1; b Alloy 2. Inset is the enlarge image of the region marked by the red box

Fig. 2 Variations of crystallite size a and internal strain b of the Cu matrix with different milling time for the powders of Alloy 1; Alloy 2, respectively

Fig. 3 SEM images of the 40-h milled powders of Alloy 1 a; Alloy 2 b. The corresponding EDS of the region A c, region B d marked in Fig. 3b

Fig. 4 XRD patterns of Alloy 1 a and Alloy 2 b consolidated at 900 °C for 2 h

Fig. 5 SEM images of the sintered products of: Alloy 1 a; Alloy 2 b

Fig. 6 TEM images of Alloy 1 and Alloy 2 after hot pressing at 900 °C for 2 h: a Cu nanograins of Alloy 1; b Cu grain size distribution histogram of Alloy 1; c Nb nanoparticles of Alloy 1; d EDP of Alloy 1; e Cu grains of Alloy 2; f Cu grain size distribution histogram of Alloy 2; g NbC nanoparticles of Alloy 2, inset showing an HRTEM image of a NbC nanoparticle; h EDP of Alloy 2

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