Title :
Multi-layer Lamination of Embedded Channels in Low Shrinkage Ceramics based Platform
Author :
Khoong, L.E. ; Tan, Y.M. ; Lam, Y.C. ; Lu, C.W.
Author_Institution :
Singapore Inst. of Manuf. Technol., Singapore
Abstract :
Multi-layer lamination with carbon fugitive material to realize embedded channels in low shrinkage LTCC laminates was investigated. The sagging behaviors of suspended LTCC laminates over the cavity after lamination and co-firing were studied. Suspended LTCC laminates over the channels of width 1 to 10 mm were dimensionally stable after sintering with maximum deflection of less than 20 mum. Swelling (i.e. deflection in the opposite direction of sagging) was observed for suspended LTCC laminates over the channels of width 15 to 30 mm after co-firing. The LTCC material and carbon burnout behavior were characterized using thermal analysis techniques. Based on the thermal analyses, a multi-step burnout process was proposed to control the carbon burnout in realizing dimensionally stable embedded channels.
Keywords :
ceramics; firing (materials); laminations; sintering; carbon burnout behavior; carbon fugitive material; dimensionally stable embedded channels; low shrinkage LTCC laminates; low shrinkage ceramics; low temperature co-fired ceramic; multilayer lamination; multistep burnout process; sagging behaviors; suspended LTCC laminates; Atmosphere; Ceramics; Glass; Laminates; Lamination; Manufacturing; Organic materials; Polymers; Size control; Temperature;
Conference_Titel :
Electronics Packaging Technology Conference, 2007. EPTC 2007. 9th
Conference_Location :
Singapore
Print_ISBN :
978-1-4244-1323-2
Electronic_ISBN :
978-1-4244-1323-2
DOI :
10.1109/EPTC.2007.4469734
