This article investigates dense CaZrO 3 produced by electric arc melting and compares it to solid state synthesized CaZrO 3 . The fused CaZrO 3 had a considerable lower porosity than the solid state synthesized material, however due to evaporation of some CaO during the electric arc melting the stoichiometric ratio of CaO/ZrO 2 was slightly smaller than one, resulting in the formation of cubic ZrO 2 as a second phase. To determine the local phase distribution the materials were investigated with EBSD in addition to integral XRD. The vibration polishing of the ceramics resulted in excellent EBSD patterns. Die pressed cylinders of the fused material led to a porosity as low as 14.3%. The linear thermal expansion coefficient from 25°C to 1000°C was 10.45×10 −6 K −1 . The cold isostatic pressing of larger crucibles resulted in higher porosity of 15.9–16.5%. The EBSD analysis and the cold isostatic pressed crucibles can be applied in corrosion tests for titanium melts.