Spectrophotometer cuvettes, fluorometer cuvettes, flow channel cells, quartz microfluidic chips, and numerous other optical products for flow cytometers and particle sizers are all made from fused silica quartz, an industrial raw material. Combined silica quartz can likewise be utilized to fabricate unmanageable shapes because of the way that the quartz material has extraordinary warm shock opposition and are very steady to most substance components and mixtures.
This kind of quartz can deal with high centralizations of acids and not be impacted. Hydrofluoric acid is the only acid that influences fused silica. This would be detrimental to the material, even at low concentrations. This material is frequently used in flow cytometry, particle counting, particle sizing, and other diverse applications for flow channel cuvettes and uv fused quartz cuvettes.
Glasses known as fused silica quartz and fused quartz are primarily composed of non-crystalline silica. They are produced utilizing a few unique cycles. Vitreous is the quartz that results from heating the material to its melting point and rapidly cooling it (also known as splat-quenching or melt-quenching). Using this term is equivalent to using the word "glass," such as "glass quartz."
High-purity silica is fused in a special furnace to create fused quartz or silica. This process is carried out at temperatures exceeding 1,000 degrees Fahrenheit.
10 MM Quartz Cuvettes With Stoppers
Properties of Fused Silica Quartz Refractive Index The fused silica material has an absolute refractive index (ARI) of up to approximately 1.560835, measured at a wavelength of 193.368 nm. In another encapsulation, without a doubt, the refractive file of the quartz article is not exactly equivalent to around 1.560820. The 10 mm quartz cuvettes with stoppers article's absolute refractive index is less than or equal to 1.560815, according to a third embodiment.