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Riding on bottomless volumes of market expertise, we are offering optimal quality collection of Mica Window. Extensively appreciated due to their ability of absorbing ionize radiation, this window is used in microprocessor controlled measuring instruments. The offered window is designed and crafted by our trained professionals using top-notch basic materials and allied components in tandem with set market standards. To fulfill the wide requirements of our customers, we are offering this Mica Window in diverse specifications at most reasonable prices.
Transparent and scratch-free
Details: MUSKOVITE MICA of superior high quality in extremely thin sheets having an outstanding even surfaces and uniformlayers,transparent,scratch-free are suitably used in microprocessor controlled measuring instruments, namely, GEIGER-MULLER (GM) TUBES as thin mica-window for detection and measuring of sophisticated ionizing radiations,such as, ALPHA, BETA, GAMA and X-RAY rays.
This particular application calls for the thinnest mica of 1.5-2.0 mg/cm2 areal density thickness, because the efficacy of the geiser counter is supposed to be directly proportionate to thickness of mica sheets used.
Muscovite mica crystals have alternating layers of aluminosilicate and potassium ions. The one-atom thick layersd of potassium ions are very easy to split apart into thinnest film,while aluminosilicate layers are tightly bonded together. As a result, extremely thin sheets of muscovite mica can easily separated, yet these thin sheets are flexible and though. Besides, muscovite mica have excellent dielectric, thermal, mechanical and chemical properties and can withstand rigorous shock and vibration testing.
Muskovite mica being a natural inorganic mineral, it can also absorb ionizing radiation effects. It aso has the advantage of fairly low specific gravity, besides it does not have an abrasive effect on machinery. As such, muscovite mica is the obvios choice for dicerning user of GM tubes which are supposed to exhibit superior performance, reliability and long-term stability to meet the wide range of environments varying from laboratory to severe military and industrial conditions.