Used in the production of fused silica crucibles for silicon melting in the semiconductor and solar industries. Quartz offers outstanding thermal shock resistance, low thermal conductivity, and minimal contamination, making it indispensable for ultra-clean environments.

Quartz’s high purity and optical transparency are vital for drawing fine, low-attenuation optical fibres. It ensures maximum signal clarity and long-distance transmission in modern communication systems.

Quartz is integral to photovoltaic manufacturing, especially in the production of quartz crucibles for monocrystalline silicon growth. Its durability supports high-temperature operations while maintaining purity in silicon production.

Quartz is used in wafer carriers, process tubes, and other fabrication equipment. Its non-reactive, highly stable nature ensures clean processing conditions, essential for advanced microelectronics.

Mica Quartz is used in the production of high-performance crucibles and refractory bricks where thermal shock resistance and structural integrity are critical. Its layered composition helps buffer against rapid temperature changes.

The mica component provides excellent electrical insulation and thermal resistance, making Mica Quartz ideal for components used in transformers, furnace linings, and electronic substrates.

In solar-grade applications, Mica Quartz is utilised in thermal insulation layers and support structures that must endure intense heat during silicon ingot formation.

Its dimensional stability and purity make it valuable in the manufacturing of moulds, crucibles, and ceramic components for the semiconductor and metal casting industries.