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Keyword [lead-free]
Result: 121 - 140 | Page: 7 of 10
121. Synthesis And Characterization Of BaO-TiO2System Ferroelectric Materials By Hydrothermal Method
122. Morphotropic Phase Transition And Electric Properties Of NBT-KBT-BT Ternary Lead-free Piezoelectric Ceramics
123. Preperation And Electric Properties Of (K0.4Na0.6)NbO3/BiFeO3/(K0.4Na0.6)NbO3Multilayers Films
124. Influence Of A-site Nonstoichiometry On Structure Of Undoped K0.5Na0.5NBO3Lead-free Piezoelectric Ceramics
125. Preparation And Characterization Of Lead-free Glass Frit For Solar Cell Front Contact
126. A Study On The Lead-free Barium Strontium Titanate Based Relaxor Ferroelectric
127. Interface Optimization And Dielectric Properties Of Lead-free Barium Calcium Zirconate Titanate Piezoelectric Films
128. Research On Preparation And Tribological Properties Of WS2-Contained Copper-Steel Bimetal Lead-free Solid Self-lubricating Materials
129. The Study On Piezoelectric Properties Of BaTiO3based Lead-free Piezoelectric Ceramics
130. Sodium Bismuth Titanate Lead-Free Piezoelectric Device’s Fabrication And Performance Optimization
131. Positive Study Solar Cell Conductive Silver Paste Of
132. Research On New Lead-free Bi 0.5 Na 0.5 TiO 3 Based Piezoelectric Transducer Material Structure And Process
133. Potassium And Sodium Bismuth Titanate Based Lead-free Piezoelectric Ceramics And Doping
134. Preparation And Properties Of BNT Based Lead-free Piezoelectric Film
135. Study Of The Composition-structure-property Relationship In Alkaline Niobate Based Lead-free Piezoelectric Ceramics
136. Study On Sintering Characteristic And Piezoelectric Properties Of Sodium Niobate Based Lead-free Piezoceramics
137. A Study On High-temperature Resistant Metallization For Ferrite And Its Key Issues In Industrialization
138. Lattice Vibrations And Electronic Transitions Properties Of Lead-free Ferroelectric Ceramics
139. Fill Type Tungsten Bronze Structure Based Lead SNN Preparation And Electrical Properties Of The Ceramic Texture
140. Investigation On The Energy-storage Performance Of NBT-based Ferroelectric Thick Films Fabricated Via Screen-printing Method
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