부산대학교 도서관

The evolution of the local atomic order of an amorphous [Ni.sub.46]Ti.sub.54 alloy produced by mechanical alloying as a function of temperature was studied by synchrotron X-ray diffraction (XRD) and differential scanning calorimetry (DSC) techniques. XRD measurements at several temperatures (25 degC, 350 degC, 412 degC, 430 degC, 450 degC and 515 degC) were performed and analyzed using the reverse Monte Carlo (RMC) simulations method or the Rietveld refinement procedure. The experimental total structure factor for samples at 25 degC and 350 degC, which are amorphous in nature, were simulated by using the RMC method, and the local structures of the alloy at both temperatures were determined, indicating a decrease in its density as the temperature increases. At 412 degC, the XRD pattern shows a partially crystalline sample, indicating that the crystallization process is in progress. At 430 degC, 450 degC and 515 degC, the XRD measurements indicate the presence of two crystalline phases, NiTi and NiTi.sub.2, whose structural parameters (lattice parameters, coherently diffracting domains (CDD) sizes, microstrains and relative amount of phases) were determined using the Rietveld refinement procedure. DSC measurements at different heating rates furnished the crystallization temperature, enthalpy and activation energy of the crystallization process, and these values are similar to those found in other amorphous alloys of the Ni-Ti system. They also showed the existence of a second exothermic process, which was related to diffusive processes in the crystalline phases, which could be associated with the changes in the CDD sizes happening from 450 degC to 515 degC.