Quartz discs are thin, round slices of high-purity silicon dioxide. Their high-temperature resistance, low thermal expansion, and excellent optical and electrical properties make them essential in the semiconductor, optoelectronics, and precision instrument fields. These discs feature high purity, dimensional stability, and chemical stability, making them crucial for high-tech applications.

Diameter	Thickness
3mm	1mm
4mm	1mm
5mm	1mm
6mm	1mm
7mm	1mm
8mm	1mm
8mm	2mm
9mm	1mm
10mm	0.5mm
10mm	1mm
10mm	2mm
11mm	1mm
12mm	1mm
15mm	0.5mm
15mm	1mm
15mm	2mm
16mm	1mm
18mm	1mm
20mm	0.5mm
20mm	1mm
20mm	2mm
20mm	3mm
22mm	1mm
25mm	0.5mm
25mm	1mm
25mm	2mm
25mm	3mm
25mm	5mm
25mm	8mm
30mm	0.5mm
30mm	1mm
30mm	2mm
30mm	3mm
30mm	4mm
30mm	5mm
35mm	1mm
35mm	2mm
35mm	3mm
35mm	5mm
40mm	0.5mm
40mm	1mm
40mm	1.5mm
40mm	2mm
40mm	3mm
40mm	4mm
40mm	5mm
45mm	1mm
45mm	2mm
45mm	3mm
50mm	0.5mm
50mm	1mm
50mm	2mm
50mm	3mm
50mm	4mm
50mm	5mm
50mm	8mm
50mm	10mm
55mm	1mm
55mm	3mm
55mm	5mm
60mm	1mm
60mm	2mm
60mm	3mm
60mm	5mm
70mm	2mm
70mm	3mm
70mm	5mm
80mm	2mm
80mm	3mm
80mm	5mm
80mm	10mm
90mm	2mm
90mm	3mm
90mm	5mm
100mm	0.5mm
100mm	1mm
100mm	2mm
100mm	3mm
100mm	5mm
100mm	10mm
150mm	2mm
150mm	3mm
150mm	5mm

ayment method: By wire transfer or advance payment, depending on the quantity of the order.
Delivery time: According to the order quantity.
Transportation method: Sea freight or air freight, depending on the customer.

Remarks：

To confirm the order, The following parameters need to be provided: ① Square: length, width, thickness ② Circle: diameter, thickness ③ Accuracy ④ Quantity

Contenido de la propiedad	Valores inmobiliarios
SiO2	99.99%
Densidad	2,2×10³ kg/cm³
Dureza	5,5 - 6,5 Escala de Mohs 570 KHN 100
Resistencia a la tracción	4,8×10⁷ Pa (N/mm2) (7000 psi)
Resistencia a la compresión	>1,1×10⁹ Pa (160.000 psi)
Coeficiente de dilatación térmica	5,5×10-⁷ cm/cm-°C (20°C-320°C)
Conductividad térmica	1,4 W/m-°C
Calor específico	670 J/kg-°C
Punto de ablandamiento	1730°C (3146°F)
Punto de recocido	1210°C (2210°F)
Punto de deformación	1120°C (2048°F)
Temperatura de trabajo	1200°C (2192°F)
Resistividad eléctrica	7×10⁷ ohm cm (350°C)
Talla	Personalizado
Logotipo	Logotipo personalizado Aceptar

JGS1

Commonly known as UV-grade fused silica, this material exhibits exceptionally low dispersion and very high transmittance in the ultraviolet (UV) spectral range.

JGS2

Similar to JGS1, but may have variations in specific performance parameters such as transmittance and thermal expansion coefficient, depending on the manufacturer’s standards.

JGS3

Typically used in applications requiring higher purity or specialized performance characteristics. Specific performance parameters can vary based on the manufacturer.

High Heat Resistance

Quartz glass softens around 1730°C, can be used continuously at 1100°C, and briefly up to 1450°C.

Low Thermal Expansion

Quartz discs have a very low thermal expansion, resisting cracking from quick temperature changes.

Corrosion Resistance

Quartz glass resists most acids, except hydrofluoric acid, and has acid resistance 30 times greater than ceramics and 150 times greater than stainless steel.

Excellent Light Transmission

Quartz discs transmit light well across the UV to IR range, with over 93% visible light transmission and over 80% maximum UV transmission.

Escenario de aplicación

Aplicaciones ópticas

Quartz discs are used to manufacture optical components such as lenses and prisms, as well as mask materials on photomasks. In the fabrication of photomasks, quartz discs are favored for their low expansion rate and high deep-UV (DUV) transmittance.

Electronics Applications

Quartz discs are used to fabricate semiconductor devices, electric light sources, and semiconductor communication devices. The high light transmittance and high-temperature resistance of quartz discs make them ideal for these applications.

Thermal and Mechanical Applications

Due to their good thermal stability and high corrosion resistance, quartz discs are also used to manufacture high-temperature and corrosion-resistant chemical instruments, chemical equipment, and related components in the defense industry.

Chemical and Chemical Engineering

Used as high-temperature and corrosion-resistant reaction vessels or observation windows in chemical reactions and melting experiments.

What are the benefits of the low thermal expansion coefficient of quartz discs

A low thermal expansion coefficient means that quartz discs/wafers maintain dimensional stability under temperature changes, which is crucial for high-technology applications requiring precise control.

What are the optical properties of quartz discs

Quartz discs/wafers have good light transmission, especially in the ultraviolet to infrared spectral range, making them ideal materials for optical applications.

What are the electrical properties of quartz discs

Quartz discs are excellent electrical insulators, which makes them very useful in the electronics and semiconductor industries

caja de placas de cuarzo

Preguntas más frecuentes

¿Cómo cortar un tubo de cuarzo?

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El vidrio de cuarzo es un material duro y quebradizo con excelentes propiedades físicas y químicas, dureza mecánica extremadamente alta, buen aislamiento eléctrico, resistencia a altas temperaturas y a la corrosión, rendimiento de retardo bajo y estable, buena transmitancia luminosa, etc. Se utiliza ampliamente en semiconductores, óptica, electricidad, química, aeroespacial, automoción y otros campos. Los materiales duros y quebradizos son difíciles de procesar, y muchos campos necesitan urgentemente procesos de corte con un pequeño colapso del borde, menos pérdida de material, baja rugosidad de la sección transversal y un amplio rango de grosor de corte. El método de corte tradicional del vidrio de cuarzo es el corte mecánico, es decir, el corte por disco. Los métodos de corte no tradicionales incluyen el corte por chorro de agua, el corte por hilo de descarga electroquímica, el corte por láser continuo, etc. El corte mecánico tiene un bajo coste, pero el contacto entre la rueda y el material causa un gran desgaste de la herramienta, y el material es fácilmente contaminado por la herramienta. El vidrio de cuarzo es propenso al colapso de los bordes, las microfisuras y la tensión residual, lo que afecta a la resistencia y el rendimiento del material. Es difícil conseguir un corte curvo y requiere un tratamiento posterior, como esmerilado y pulido. El corte por láser no entra en contacto directo con el material, no tiene tensión de contacto y puede realizar cortes curvos complejos. El láser de picosegundos tiene las ventajas de un diámetro de punto pequeño, alta precisión, tiempo de acción corto con el material y área de acción pequeña, y es adecuado para el procesamiento de materiales duros y quebradizos.
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¿Cómo garantizar la limpieza de los tubos de cuarzo y evitar arañazos?

Acordeón Tema 3 Título

Disco de cristal de cuarzo

Remarks：

JGS1

JGS2