Litcius/Paper detail

Anomaly in the relation between thermal conductivity and crystallinity of silicate glass-ceramics

Line Ebdrup Thomsen, Hicham Johra, Yuanzheng Yue, Martin B. Østergaard

2023Ceramics International23 citationsDOIOpen Access PDF

Abstract

Thermal conductivity is a key property of oxide glass, especially for building applications such as thermal insulation materials and windows or glazed facades. However, this property is difficult to be predicted since it depends on several factors such as the degree of order/disorder and porosity. Here, we report on the effects of crystallization, crystalline phase, and crystal size on the thermal conductivity of a melt-quenched soda-lime silica glass. These effects were studied by heat-treating the glass at the onset crystallization temperature for different durations to vary crystallinity in the samples. The results show a general increase in thermal conductivity with crystallinity and crystal size in the nano-range (<75 nm). The growth of devitrite and combeite phases in the glass has a great impact on the thermal conductivity. Interestingly, an anomaly of thermal conductivity is found, i.e., the thermal conductivity of the sample with a relatively low crystallinity of <15 % is reduced by >20 % compared to that of the pure glass phase. This may be attributed to the grain boundaries between amorphous and crystalline phases, which scatter the phonons and thus reduce the thermal conductivity. These results imply that nano-crystallization in window glass might be a useful way to reduce the heat loss from glazed facades in the building envelope.

Topics & Concepts

Materials scienceCrystallinitySilicateSilicate glassCeramicThermal conductivityAnomaly (physics)Composite materialMineralogyConductivityChemical engineeringCondensed matter physicsGeologyPhysical chemistryPhysicsChemistryEngineeringGlass properties and applicationsAerogels and thermal insulationRecycling and utilization of industrial and municipal waste in materials production