Title :
Etching resistivity of AlN ceramics surface
Author :
Yasumoto, Taka-aki ; Asai, Hironori ; Monma, Jun ; Iwase, Nobuo
Author_Institution :
Mater. & Devices Dev. Center, Toshiba Corp., Yokohama, Japan
Abstract :
The etching resistivity of aluminum nitride (AlN) surface was investigated on properties of pull-out for AlN ceramics grain and uneven dissolution in chemical agents. Maximum step irregularity (MSI) of AIN with Y2O3 finally reaches to 7×10-7 m at 10 k s at 50°C in the aqueous solution of 2.5 mol KCN. This value is below the grain size of AlN, 4×10-6m. AlN grains did not begin to pullout, when the MSI value was below the AlN grain size. MSI of AlN with CaO reached to 2×10-2m at 3 ks in the same solution. This value is equal to the limit value of 2×10-4m. No pit was observed on the surface of AIN with Y2O3 until 10 ks from SEM result. However, many pits were observed at the grain boundary even at 30 s on the surface of AlN with CaO. The etching resistivity for AlN with Y2O3 is about 300 times as long as that with CaO. The surface of AlN ceramics with Y2O3 was confirmed to be stable against the KCN aqueous solution. The surface of AlN with CaO received a great deal of damage in etching solution. The AlN with Y2O 3 is suitable choice for a MCM substrate with wet etching process
Keywords :
aluminium compounds; ceramics; etching; grain size; 50 C; AlN; AlN-CaO; AlN-Y2O3; KCN; KCN aqueous solution; MCM substrate; SEM; aluminum nitride ceramic surface; chemical agent; dissolution; grain boundary; grain size; maximum step irregularity; pull-out; wet etching resistivity; Additives; Ceramics; Conductivity; Etching; Grain boundaries; Grain size; Metallization; Rough surfaces; Substrates; Surface morphology;
Conference_Titel :
Electronic Manufacturing Technology Symposium, 1995, Proceedings of 1995 Japan International, 18th IEEE/CPMT International
Conference_Location :
Omiya
Print_ISBN :
0-7803-3622-4
DOI :
10.1109/IEMT.1995.541036
