Inorganic Materials 

About: Inorganic Materials is an academic journal published by Springer Science+Business Media. The journal publishes majorly in the area(s): Solid solution & Phase (matter). It has an ISSN identifier of 0020-1685. Over the lifetime, 6591 publications have been published receiving 41141 citations. The journal is also known as: Neorganičeskie materialy.

Van der Waals Radii of Elements

Abstract: The available data on the van der Waals radii of atoms in molecules and crystals are summarized. The nature of the continuous variation in interatomic distances from van der Waals to covalent values and the mechanisms of transformations between these types of chemical bonding are discussed.

Hydroxyapatite and Hydroxyapatite-Based Ceramics

Abstract: Data are summarized on the synthesis of hydroxyapatite (HA) by wet-chemical processes, solid-state reactions, and hydrothermal treatment. The conditions for HA preparation via precipitation from solutions of calcium chloride, dibasic ammonium phosphate, and aqueous ammonia are discussed at length. Detailed analysis of the fabrication and properties of calcium-phosphate-based ceramics is presented. The techniques for producing dense and porous HA ceramics are considered. The fabrication and medical applications of HA granules are discussed. Data are presented on HA-based composites.

Microwave Absorbing Materials

Abstract: Available data on microwave absorbing materials finding engineering applications or potentially attractive for use in dielectric, magnetic, and ferroelectric–seignettomagnetic absorbers are summarized.

High-purity chalcogenide glasses for fiber optics

Abstract: The data on the present degree of purity of chalcogenide glasses for fiber optics, on their methods of production and on the properties, which are essential for their actual application, are generalized. The content of limiting impurities in the best samples of chalcogenide glasses is 10–100 ppb wt.; of heterophase inclusions with size of about 100 nm is less than 103 cm−3. On the basis of chalcogenide glasses the multimode and single mode optical fibers are produced with technical and operation characteristics sufficient for a number of actual applications. The minimum optical losses of 12–14 dB/km at 3–5 µm are attained in the optical fiber from arsenic-sulfide glass. The level of losses in standard chalcogenide optical fibers is 50–300 dB/km in 2–9 µm spectral range. The factors, affecting the optical absorption of glasses and optical fibers, are analyzed, and the main directions in further development of chalcogenide glasses as the materials for fiber optics are considered.

Tungsten carbides and W-C phase diagram

Abstract: The crystal structures of the tungsten monocarbide δ-WC and the disordered lower carbide β-W2C are studied. Using magnetic susceptibility measurements, the hexagonal carbide δ-WC is shown to be stable from 300 to 1200 K. The sequence of phase transformations associated with β-W2C ordering is analyzed. The temperature and composition stability limits of the cubic carbide γ-WC1−x are evaluated, and the first data are presented on the variation of its lattice parameter with composition. An optimized W-C phase diagram is proposed which takes into account detailed structural and phase-equilibrium data for tungsten carbides.