This study was carried out to investigate the effect of high temperature on the functional groups, microstructure and physical characteristics of cordierite ceramics obtained from an aqueous solution of magnesium nitrate hydrate ((Mg(NO3)2.6.12H2O)), aluminium nitrate hydrate (Al(NO3)2.9.15H2O) and silica sols extracted from rice husk. The samples were sintered at temperature of 1000◦C, 1200◦C and 1400◦C. Functional groups and microstructural characteristics of cordierite ceramics were examined by FTIR and SEM, respectivelly. FTIR study shows that the absence of the vibration bands of Na-OH, Si-OH, C-O, Si-O-Si on the samples. However, the formation of cordierite structure was dominated on this high temperature. Microstructure results confirmed the presence of irregular morphology of the solid and compact phases. In addition, the densities, shrinkage and
hardness of cordierite increase significantly with increasing temperature, but porosity decreases with increasing
temperature.

rice husk; cordierite; mikrostructure; sintering

Kingrey, W.D, Bowen, H.H, Uhlmann, D.R, Introduction to Ceramics (2nd, Eddition, Jhon Wiley & Sons, 1976).

Goncalves, M.R.F, Bergmann, C.P, Thermal Insulator made with Cordierite: Production and Correlation between Properties and Microstructure (Contruction and Building Materials, 2006).

Kurama, S and Kurama, H, The Reaction Kinetics of Rice Husk Based Cordierite Ceramic (Ceramic International, 1 - 4, 2006).

Kurama, S and Ozel, N., Synthesis and Sintering of Cordierite at Low Temperature from Kaolinite and Magnesium Hydroxide, Key Engineering Materials, 92 - 928 (2004).

Douy, A., Organics Gels in The Preparation of Silicate Powders Example of Mullite and Cordierite, In Chemical Processing of Advanced Materials, New York, pp. 585 - 594, 1992.

Naskar, M.K and Chatterjee, Materials Letters, 59, 998-1003 (2005).

Rudolph, T; Pannhorst, W; Petzow, G.,Journal Non-Crystalline Solid, 155, 273-281 (1993).

Amista, P; Cesari, M; Montenero, A; Gnappi, G; Lan, L., Journal Non-Crystalline Solid, 192, 529-533 (1995).

Sembiring, S, Karakteristik Keramik Cordierite Berbasis Silika Sekam Padi Pada Temperatur Rendah (Low Temperature), to be submitted in Journal Saintika, Universitas Medan (UNIMED) (2008).

Sembiring, S dan Karo-Karo, K, Pengaruh suhu Sintering Terhadap Karakteristik Termal dan Mikrostruktur Silika Sekam Padi, jurnal Sains dan Teknologi, Mipa Unila (2007).

Triyanti, S, Pengaruh Suhu Sintering Terhadap Fungsionalitas dan Karakteristik Thermal Bahan Keramik Cordierite Berbasis Silika Sekam Padi, Thesis Universitas Lampung , 2008.

Adam, F, Kandasamy, Balakrishnan, S., J. Coloid and Interface Science, 304, 137-143 (2006).

Ndazi, B.S, Karlsoon, S, Tesha,J.V, Nyahumwa, C.W, Chemical and Physical Modification of Rice Husks for Use as Composite panels, Composite Part A: Applied Science and Manufacturing, p1-11 (2006).

Ebsworth, E.A.V, Rankin, D.W.H, Cradock, S,Structural Methods in Organic Chemistry (Second ed, Blackwell Scientific Publication Oxford United Kingdom, p222, 1991).

Daifullah, A.A.M; Girgis, B.S and Gad, H.M.H, Materials Letters, 57, 1723-1731 (2003).

Chatterjee, M and Naskar M.K., Ceramic International, 32, 623-632 (2006).

Naskar, M.K dan Chatterjjee, M., Journal of The EuropeanCeramic Society, 24, 3499-3507 (2004).

Petrovic, R, Janaclovic, D, Bozovic, B, Zec, S and Gvozdenovic, L.K, Journal Sebian Chemical Society, 66(3), 335-343 (2001).