Professional Manufacturer's High Temperature Transparent Quartz Tube Clear Quartz Cylinder Glass for Bending Welding Services

Name: Professional Manufacturer's High Temperature Transparent Quartz Tube Clear Quartz Cylinder Glass for Bending Welding Services
Brand: Lianyungang Shenglong Semiconductor Materials Co., Ltd.
SKU: 1601348709139_1
Price: 1.00 USD
Availability: InStock
Rating: 4.8 (100 reviews)

Product overview

Core functionalities

Applicable scenarios

Unique advantages

High-Temperature Resistance: Made from pure quartz and SIO₂ materials, the tubes withstand extreme temperatures, ideal for semiconductor manufacturing and optical applications requiring heat stability.
Transparent Monitoring: The clear quartz/glass design allows real-time visibility of internal processes, critical for precision in industrial and laboratory settings.
Custom Processing: Offers cutting, bending, punching, polishing, and welding services to tailor tubes to specific project requirements.

Key features

1. Material Technology: Pure Quartz and SIO₂ Construction

With a body made of pure quartz and SIO₂, these tubes deliver unmatched high-temperature resistance and optical clarity, outperforming standard glass tubes*. The polished finish ensures minimal light distortion for precision applications.

2. Interactive Design: Customizable Processing Services

With cutting, bending, and welding capabilities, you can tailor the tubes to fit complex system designs, such as semiconductor equipment or optical devices, offering greater adaptability than rigid, pre-formed alternatives*.

3. Performance Parameters: Extreme Temperature and Clarity

Withstanding temperatures up to 1,200°C and achieving 90%+ light transmittance, these tubes ensure stable operation in harsh industrial environments compared to conventional glass solutions*.

4. Scenario Solutions: Precision for High-Tech Industries

Designed for semiconductor manufacturing and optical systems, these tubes enable precise monitoring and transmission of light or fluids in compact, space-constrained setups*.

5. Certification Standards: Industry-Compliant Materials

Manufactured to meet semiconductor and optical industry standards (e.g., SEMI or ISO certifications), ensuring reliability and compatibility with advanced technological applications*.

Product details

High Temperature Transparent Quartz Cylinder Tubes are precision-engineered for demanding semiconductor and optical applications. Crafted from ultra-pure quartz (SiO₂) or glass, these tubes feature a polished finish and circular arrangement, offering unmatched visibility and thermal stability. Customizable in size, material, and processing, they cater to specialized needs in research, manufacturing, and industrial settings.

Technical specifications

Feature	Specification	Application Scenario
Material	Pure Quartz/Glass (SiO₂)	Semiconductor manufacturing, optical systems
Temperature	Withstands 1200°C+	High-temperature environments
Finish	Mirror-polished surface	Precision optical alignment
Processing	Cutting, bending, welding, punching	Customized equipment integration

Customization guide

Adjustable tube length (10–1000mm) and diameter (1–50mm) to meet specific semiconductor or optical equipment requirements. Material composition (quartz vs. glass) and surface treatments (anti-reflective coatings) can be tailored for chemical/thermal resistance.

Get inspired

The circular tube arrangement optimizes space in compact lab setups while maintaining full visibility of fluid or gas flow. Ideal for real-time monitoring in semiconductor etching systems or laser alignment in optical devices.

Choose your model

Parameter	Base Model	Advanced Model	Pro Model
Temperature	1000°C	1100°C	1200°C
Clarity	Standard (95%透光率)	Enhanced (98%透光率)	Ultra-Clear (99.5%)
Customization	Basic (size/diameter)	Advanced (material + coating)	Full (all parameters)

Supplier's note

Key Technical Breakthroughs:
- High Purity SiO₂ Material: Reduces impurities to 0.01% for superior thermal stability in semiconductor furnaces.
- Mirror-Polished Finish: Achieves 99.5% light transmission, critical for laser alignment in optical systems.
- Multi-Process Integration: Simultaneous bending and welding reduces assembly errors by 40% compared to traditional methods.
Version Selection Guide:
- Base Model: Suitable for standard labs requiring cost-effective solutions (e.g., basic optical testing).
- Advanced Model: Ideal for R&D teams needing enhanced clarity and limited customization (e.g., laser calibration).
- Pro Model: Recommended for semiconductor manufacturers requiring extreme heat resistance (e.g., crystal growth chambers). With its 1200°C tolerance, it outperforms industry benchmarks by 20%, enabling safer high-temperature processes. Pair with quartz material for UV transparency in advanced photonics setups.

Frequently asked questions

Which quartz tube model is best suited for high-temperature semiconductor applications?
Pure Quartz vs Glass Tubes: Which is better for high-temperature industrial use?
How do I clean quartz tubes without damaging the polished surface?
Can quartz tubes be customized for optical instrument requirements?
Is pure quartz material certified for high-temperature industrial use?
Why choose quartz tubes for UV light transmission applications?
What makes your quartz tubes durable under extreme heat fluctuations?
Do your quartz tubes offer anti-reflective polished surfaces for optical clarity?

Product comparison

Category	Usage Scenarios	Characteristics	Advantages	Disadvantages
Material Composition	Semiconductor manufacturing, UV optics	Our Advanced: 99.99% pure quartz (ISO 14643) Industry Standard: 90% silica glass	▲ Superior thermal/chemical stability for extreme environments	Higher cost vs. standard glass
Temperature Resistance	High-heat labs, industrial furnaces	Industry: 1000°C (ASTM E1321) Our Base: 1200°C Our Advanced: 1450°C	▲▲ Withstands oven-grade temps (e.g., semiconductor annealing)	Base version may require protective coatings beyond 1200°C
Surface Finish	Laser alignment, precision optics	Industry: Matte finish (Ra ≤ 1.6 µm) Our Advanced: Mirror-polished (Ra ≤ 0.4 µm)	▲▲ Minimal light scattering (ideal for UV spectroscopy)	Polishing adds 20% to production time
Optical Transparency	UV filters, photonics	Industry: 85% UV transmission Our Base: 92% @ 200-400 nm Our Advanced: 96% @ 180-380 nm	▲▲ Enhanced clarity for UV-critical applications (e.g., semiconductor lithography)	Quartz’s weight limits portability in handheld devices
Processing Flexibility	Custom lab equipment, aerospace	Industry: Limited to cutting/bending Our Base: +punching Our Advanced: +welding/pattern etching	▲▲ Full-service fabrication (e.g., integrated sensor ports)	Advanced features require specialized machinery (higher cost)
Customization	R&D prototyping, niche industrial uses	Industry: Standard sizes only Our Base: Diameter ±2mm tolerance Our Advanced: ±0.1mm precision	▲▲ Tailored to micrometer-scale specs (e.g., medical imaging components)	Tight tolerances increase lead time by 30-50%