The Al2-xInxW3O12 family is part of thermomiotic ceramics (from the Greek thermo for heat and mio for contraction) and belongs to the A2M3O12 family (A = trivalent cation, M = hexavalent cation), wich can show negative or near zero thermal expansion. This fact makes this ceramic a potential candidate in applications that require materials with high resistance to thermal shock. In the literature, we found few systematic studies that report parameters of interest in Al2-xInxW3O12 system such as the coefficients of thermal expansion (CTE) and its phase transitions. Therefore, the present work aims to determine the intrinsic coefficients of expansion (determined by X-ray diffraction that is relative to variations in the material s lattice parameters) and the extrinsic coefficient of expansion (obtained by dilatometry which takes into account intrinsic and also extrinsic variations in dimension, these later related to microstructural defects) of Al2-xInxW3O12, phase transition temperatures (monoclinic to orthorhombic) in the range between x = 0.2 to x = 1. In addition, this study intends to report hygroscopicity of this system (using thermogravimetry). The results showed that Al2-xInxW3O12 adopted an orthorhombic structure at room temperature (RT) for x = 0.2; 0.4; 0.7 compositions and monoclinic structure for x = 1 composition. In x = 1 phase, a monoclinic to orthorhombic phase transition occurred close to 200 oC. Finally, the Al2-xInxW3O12 system presented low hygroscopicity in all four studied phases.