Preparation and properties of the glass‐ceramics from low Ti‐bearing blast furnace slag and waste glass

Abstract

AbstractTi‐bearing blast furnace slag is a typical silicate material, which can be an important component for the preparation of silicate‐based glass‐ceramics. Quartz‐based waste glass is commonly used as an additive to adjust the basicity of slag‐based glass‐ceramics. In this study, the quartz‐based waste glasses were added to the Ti‐bearing blast furnace slag to prepare the mixed solid waste glass‐ceramics. The effects of waste glass content and heat treatment temperatures on the crystallization and performances of the prepared glass‐ceramics were investigated. The results showed that as the waste glass content increased, the crystallization ability of the glass was weakened. Fassaite and nepheline were identified as the dominant crystalline phases in the prepared glass‐ceramics and mainly featured a combination of both massive and dendritic forms. With increasing the heat treatment temperatures, the size of dendritic crystals first increased and then decreased. The optimal experimental conditions were identified as a waste glass content of 45%, a crystallization temperature of 900°C, and a nucleation temperature of 730°C. Under these conditions, the prepared glass‐ceramics exhibited good crystalline phase distribution and excellent mechanical properties, including a Vickers hardness of 991.67 MPa and a flexural strength of 89.81 MPa. All the prepared solid waste‐based glass‐ceramics exhibited excellent chemical durabilities.