Method and structure to reduce low force pin pull failures in ceramic substrates
作者: Raschid J. Bezama , Govindarajan Natarajan
DOI:
关键词: Structural engineering 、 Structural failure 、 Ceramic 、 Interlock 、 Materials science 、 Composite material
摘要: The surface metallurgy of a green sheet may be controlled during processing to provide an increased resistance low strength structural failure the metal-ceramic interface under input-output pad structure and pin-pull pads on alumina multilayer ceramic substrates. area in region where is screened roughened order increase contact between pad. mechanical interlock strengthened by number bonding points use different screening materials.
lens.org 参考文章(24)
Thomas Stoecklein, Process for the production of a pencil ,(1992)
Koichiro Satonaka, Semiconductor device having multi-layer wiring structure with additional through-hole interconnection ,(1976)
David R. Clarke, Linda L. Rapp, Sarah H. Knickerbocker, Bernard Schwartz, Richard W. Adams, Zirconia toughening of glass-ceramic materials ,(1991)
Ryuji Imai, Toshikatsu Takada, Input/output terminal for electronic circuit device ,(1993)
Anthony F. Arnold, Arnold F. Schmeckenbecher, Process for forming a high density metallurgy system on a substrate and structure thereof ,(1984)
Kyohei Murakawa, Koichi Niwa, Teruo Murase, Masatoshi Fujimori, Method of manufacturing multilayer ceramic board ,(1978)
Robert W. Nufer, Gerald F. Hait, Process for the elimination of dimensional changes in ceramic green sheets ,(1974)
Susanne M. Opalka, George H. Armstrong, Todd T. Stanzione, Frankie E. Phelps, Anthony A. Parker, Densified ceramic green sheet and stack having conductors therein ,(1992)
Manfred Dr. Sammet, Glass-ceramic structure and method for making same ,(1989)
Sampath Purushothaman, Srinivasa S. N. Reddy, Shaji Farooq, Vivek M. Sura, I/O pad adhesion layer for a ceramic substrate ,(1992)