Mechanical alloying of the Pd-Si system in controlled conditions of energy transfer

Journal of The Less Common Metals Pub Date : 1991-09-20 DOI:10.1016/0022-5088(91)90351-4

F. Padella, E. Paradiso, N. Burgio, M. Magini, S. Martelli, W. Guo, A. Iasonna

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引用次数: 38

Abstract

The conditions of milling are of crucial importance in determining the kind of solid state reaction that can take place, among various possible paths, in a given system submitted to the mechanical alloying (MA) process. A model correlating the energy transfer during milling with the experimental parameters (rotation speed, mass and diameter of the balls) has been verified with the Pd-Si system. The composition Pd₈₀Si₂₀ has been milled, starting from pure elemental powders, in different milling conditions and the MA process followed by X-ray and differential scanning calorimetry measurements. It has been found that for high levels of energy transfer the system evolves towards the formation of the intermetallic Pd₃Si. At lower levels of energy transfer, formation of a stable intermetallic phase is hindered and the reaction product is a fully amorphous phase. The amorphous structure of the MA sample has been compared with an amorphous melt-spun ribbon of the same composition.

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能量传递受控条件下Pd-Si体系的机械合金化

在接受机械合金化（MA）工艺的给定系统中，在各种可能的路径中，研磨条件对于确定可能发生的固态反应的类型至关重要。用Pd-Si系统验证了铣削过程中能量传递与实验参数（转速、质量和球直径）之间的关系模型。从纯元素粉末开始，在不同的研磨条件和MA工艺中研磨组合物Pd80Si20，然后进行X射线和差示扫描量热法测量。已经发现，对于高水平的能量转移，系统朝着形成金属间Pd3Si的方向发展。在较低的能量转移水平下，稳定的金属间相的形成受到阻碍，并且反应产物是完全无定形相。MA样品的无定形结构已经与相同组成的无定形熔纺带进行了比较。

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Journal of The Less Common Metals

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