Atmospheric Effect on Wettirng of (Pb, La)(Zr, Ti)O_3 with Electrode Metals
スポンサーリンク
概要
- 論文の詳細を見る
Wetting studies of (Pb_<0.905>, La_<0.095>)(Zr_<0.65>, Ti_<0.35>)O_3 with electrode metals were carried out under different atmospheres such as Ar, N_2 and O_2(Ar-mixed O_2, except for 100% O_2). Wettability was evaluated by measuring the contact angle after wetting experiments. As a result, Cu was found to spread onto (Pb, La)(Zr, Ti)O_3 in oxygen atmosphere, to more than 1.2%, and the contact angles of Ag and Sn on (Pb, La)(Zr, Ti)O_3 decreased by about 10° in 100% oxygen atmosphere. The mechanism of wettability can be theoretically explained in terms of the potential change, taking into consideration the time of interaction at the interfaces between the metal and the oxide substrate.
- 社団法人応用物理学会の論文
- 1993-09-30
著者
-
Sugihara Sunao
Department Of Material Science And Ceramic Technology Shonan Institute Of Technology
-
MORIYA Yoshimizu
Department of Functional Materials Science, Faculty of Engineering, Saitama University
-
Moriya Yoshinori
Department Of Functional Materials Science Faculty Of Engineering Saitama University
関連論文
- Improvement of Thermoelectric Properties of β-FeSi_2 by the Addition of Ta_2O_5
- Fast Deposition of Microcrystalline Silicon Using High-Density SiH_4 Microwave Plasma
- New Dielectric Materials System with High-Temperature Oxide Superconductor
- Electronic Structures and Dielectric Properties of Substituted BaTiO_3
- Dielectric Property Change of Ferroelectrics and Electronic Structures
- Enhanced Crystallinity at Initial Growth Stage of Microcrystalline Silicon on Corning #7059 Glass Using SiH_2Cl_2
- Atmospheric Effect on Wettirng of (Pb, La)(Zr, Ti)O_3 with Electrode Metals
- Processing of Porous 3-3 PZT Ceramics Using Capsule-Free O_2-HIP : Piezoelectrics
- Improved Thermoelectric Performances of Oxide-Containing FeSi_2
- Effect of Atmosphere on the Wetting of BaTiO_3 by Elecetrode Metals : Fundamentals
- Thermoelectric Properties of CuAl_M_xO_2 (M=Zn, Ca)
- Hydrolysis of Uranium Nitrides
- Hydrolysis of Uranium Carbonitrides