http://chineseinput.net/에서 pinyin(병음)방식으로 중국어를 변환할 수 있습니다.
변환된 중국어를 복사하여 사용하시면 됩니다.
Moussa Rabah,Djalab Yacine,Maache Mostefa,Khenata Rabah,Bin-Omran Saad,Rouf Syed Awais,Iqbal Muhammad Waqas,Abdiche Ahmed,Ahmed Waleed,Manzour Mumtaz 한국물리학회 2023 Current Applied Physics Vol.55 No.-
The wurtzite structure of the ZnO1-xTex ternary alloy was analyzed through the utilization of density functional theory (DFT) within the WIEN2k code. This investigation examines its structural, electronic, optical, and elastic properties. The results have indicated a nonlinear variation in the lattice constants of the alloy mixture. Moreover, the direct bandgap energies of the materials, including the binary mixtures ZnO and ZnTe, as well as their ordered alloy counterparts (ZnO0.75Te0.25, ZnO0.5Te0.5, and ZnO0.25Te0.75), substantiate the semiconducting characteristics of these compounds. The densities of the states (DOS) for ZnO and ZnTe binary compounds and ZnO0.75Te0.25 ternary alloy are chosen as prototypes. The reflectivity and absorption coefficients versus photon energy and the real and imaginary components concerning the refractive index are estimated at ternary alloys and their binary constituents. The ductile and brittleness nature of alloys are transformed with the composition, and they have strong ionic bonding.
Ahmad, Rizwan,Anwar, Muhammad Shoaib,Kim, Jae,Song, In-Hyuck,Abbas, Syed Zaighum,Ali, Syed Ahmad,Ali, Fahad,Ahmad, Jamil,Bin Awais, Hasan,Mehmood, Mazhar Elsevier 2016 CERAMICS INTERNATIONAL Vol.42 No.16
<P><B>Abstract</B></P> <P>Bimodal porous structures were prepared by combining conventional sacrificial template and partial sintering methods. These porous structures were analysed by comparing pore characteristics and gas permeation properties of alumina/mullite specimens sintered at different temperatures. The pore characteristics were investigated by SEM, mercury porosimetry, and capillary flow porosimetry. A bimodal pore structure was observed. One type of pore was induced by starch, which acted as a sacrificial template. The other pore type was due to partial sintering. The pores produced by starch were between 2 and 10µm whereas those produced by partial sintering exhibited pore size of 0.1–0.5µm. The effects of sintering temperature on porosity, gas permeability, and mullite phase formation were studied. The formation of the mullite phase was confirmed by XRD. Compressive strengths of 37.9MPa and 12.4MPa with porosities of 65.3% and 70% were achieved in alumina and mullite specimens sintered at 1600°C.</P>