Title :
Adhesion strength and microstructural evaluation in electroless Ni-P metallized AlN substrate
Author :
Young, Chung-Daw ; Duh, Jenq-Gong
Author_Institution :
Dept. of Mater. Sci. & Eng., Nat. Tsing Hua Univ., Hsinchu, Taiwan
fDate :
9/1/1997 12:00:00 AM
Abstract :
The adhesion strength of the electroless Ni (EN)-plated AlN substrates is studied through investigation of the microstructural morphologies at the AlN-EN interfaces. Etching sites around the Al-Y-O compounds on the etched AlN substrate provide the anchor acceptors for interlocking the EN film to achieve a high adhesion strength. Separation of the EN film from the AlN substrate under the action of force leaves the fracture cracks propagating along the AlN/EN interface, cutting through the anchors and making the fragmental EN films around the etching sites reside on the AlN fracture surface. However, the polished AlN substrate lacks the interlocking sites and fails to obstruct the cracks propagating along the AlN/EN interface, and thus results in a poor adhesion strength. An appropriate adhesion strength of 13.7 MPa with a small standard deviation (±2.3 MPa) can be obtained for the previously etched and 10 μm thick EN-plated AlN substrate
Keywords :
adhesion; aluminium compounds; ceramics; cracks; electroless deposited coatings; etching; fracture; interface phenomena; metallisation; nickel alloys; packaging; phosphorus alloys; substrates; surface structure; 10 micron; AlN; NiP-AlN; adhesion strength; anchor acceptors; electroless Ni-P coating; electroless plating; etching sites; fracture cracks; interlocking; metallized AlN substrate; microstructural evaluation; plated AlN substrates; Adhesives; Coatings; Dielectric substrates; Etching; Metallization; Rough surfaces; Surface cracks; Surface morphology; Surface resistance; Surface roughness;
Journal_Title :
Components, Packaging, and Manufacturing Technology, Part A, IEEE Transactions on
