In this work, the effect of calcination temperatures on phase formation andmicrostructure of (Ba0.6 Pb0.4)TiO3, (BPT) powders was investigated. BPT powders wereprepared via combustion technique by using urea as a fuel. The raw materials were heated atvarious calcination temperatures ranging from 700 to 1,150 oC for 2 h at a heating/coolingrate of 5 oC/min. Powder samples were characterized using thermogravimetric analysis(TGA), differential thermal analysis (DTA), X-ray diffractometer (XRD) and scanningelectron microscopy (SEM). The results showed that a second phase such as PbO2, BaCO3,and TiO2 was detected in the powders calcined below 1,100 ??C. A single perovskite phase ofthe BPT powders was found with calcination temperatures above 1,100 ??C. The latticeparameter c and c/a ratio increased while, the lattice parameter a decreased with increasingcalcinations temperatures. The TGA-DTA results corresponded to the XRD investigation.The particle size tended to increase with increasing calcining temperature.

Keywords: Ferroelectric Perovskite, Barium Lead Titanate, Combustion Technique, PhaseFormation