| Наименование марки: | ZMSH |
| MOQ: | 50 |
| Время доставки: | 2-4-недельный |
| Условия оплаты: | Т/Т |
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The Quartz Thermal Insulation Plate, also known as a quartz thermal barrier plate or quartz furnace heat shield, is installed around the entrance or exit of a photovoltaic or semiconductor furnace tube.
Multiple quartz plates are typically arranged at controlled intervals using a matching slotted quartz holder. Together, they form a layered thermal barrier assembly that helps control radiant heat transfer, reduce heat loss around the furnace opening, stabilize the local thermal environment, and protect surrounding furnace components.
Manufactured from high-purity fused quartz or opaque fused quartz, the plate offers low thermal expansion, good thermal-shock resistance, high-temperature compatibility, and low contamination potential. Custom machining is available for circular plates, rectangular plates, center openings, slots, notches, positioning holes, and special installation profiles.
High-purity fused quartz helps reduce the risk of metallic contamination in photovoltaic and semiconductor thermal-processing environments.
Fused quartz has a very low coefficient of thermal expansion, helping the plate maintain dimensional stability during heating and cooling cycles.
When multiple plates are installed with controlled spacing, the assembly helps limit radiant and convective heat transfer around the furnace tube opening.
Fused quartz performs well under temperature changes when the plate is correctly designed, installed, heated, and cooled.
CNC cutting, drilling, grinding, slotting, and edge finishing are available to ensure compatibility with the furnace tube, holder, and surrounding assembly.
Plate diameter, thickness, openings, notches, mounting features, and surface condition can be manufactured according to drawings or samples.
| Item | Available Specification |
|---|---|
| Product name | Quartz Thermal Insulation Plate |
| Alternative names | Quartz Thermal Barrier Plate, Quartz Heat Shield, Quartz Furnace Plate, Quartz Insulation Disc |
| Material | High-Purity Fused Quartz / Opaque Fused Quartz |
| Reference diameter | Ø420 mm |
| Reference thickness | 5 mm |
| Shape | Round, square, rectangular, ring-shaped, or custom |
| Outer dimensions | Customized |
| Thickness | Customized |
| Central opening | Optional and customized |
| Slots and cutouts | Customized according to drawing |
| Surface finish | Ground, frosted, lapped, or polished |
| Edge treatment | Ground, chamfered, rounded, or polished |
| SiO₂ purity | Up to ≥99.99%, depending on material grade |
| Thermal expansion coefficient | Approximately 5.5 × 10⁻⁷/K |
| Softening point | Approximately 1,680°C, depending on quartz grade |
| Service temperature | Confirmed according to material, dimensions, load, and operating conditions |
| Flatness | Customized according to application |
| Dimensional tolerances | Confirmed according to size and geometry |
| Manufacturing methods | Cutting, CNC machining, drilling, grinding, polishing, and cleaning |
| Custom service | OEM, ODM, drawing-based, and sample-based manufacturing |
The Ø420 × 5 mm specification is a reference size for the displayed product. All dimensions can be customized.
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The quartz plate is generally used as part of a multi-layer insulation assembly rather than as a standalone insulating material.
Several plates are inserted into a slotted quartz holder with a controlled air gap between adjacent plates. This structure helps:
Actual thermal performance depends on the number of plates, plate spacing, surface condition, furnace temperature, airflow, plate thickness, and installation position.
Suitable when high purity, visual observation, or controlled infrared transmission is required.
Contains a controlled microstructure that increases light scattering and reduces direct radiant heat transmission. It is often selected for furnace heat-shield and thermal-barrier applications.
A ground or frosted surface can increase light scattering and may be specified according to the thermal design and installation requirements.
The most suitable quartz grade should be selected according to the required purity, thermal behavior, mechanical conditions, and furnace atmosphere.
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We can manufacture quartz insulation plates with:
For replacement parts, production can be based on a technical drawing, CAD file, physical sample, or measured equipment dimensions.
A typical production process includes:
The manufacturing process is adjusted according to plate diameter, thickness, opening geometry, surface requirements, and order quantity.
Each quartz thermal insulation plate can be inspected for:
Inspection reports can be provided according to the agreed technical requirements.
Please provide:
If the plate will be installed in an existing quartz holder, please also provide the slot width, slot depth, and required assembly clearance.
Quartz plates are fragile and require suitable packaging protection. Available packaging methods include:
Large-diameter plates can be individually separated to reduce contact, scratching, and edge damage during transportation.
It is used as part of a thermal-barrier assembly near a furnace tube opening. Multiple plates installed with controlled spacing help limit radiant heat transfer and protect nearby furnace components.
No. Ø420 mm with a 5 mm thickness is a reference specification. Diameter, thickness, openings, and other dimensions can be customized.
Yes. Transparent, opaque, ground, and frosted quartz options are available. Opaque quartz is often selected when reducing direct radiant heat transmission is an important requirement.
Yes. We support production based on technical drawings, CAD files, equipment dimensions, or physical samples.
Yes. Central openings, positioning holes, edge notches, mounting slots, and custom profiles can be precision-machined according to the drawing.
Yes. We can manufacture matching multi-slot quartz holders and supply the plates and holder as a complete furnace insulation assembly.
Fused quartz may be suitable for this temperature range, but long-term performance depends on quartz grade, plate size, thickness, mechanical loading, mounting method, furnace atmosphere, and thermal cycling. The complete operating conditions should be reviewed before confirming the specification.
Thickness should be selected according to plate diameter, holder-slot width, installation orientation, mechanical support, thermal conditions, required service life, and allowable deformation.