Mirror Silicon (Si) 25.4mm Diameter High Durability 99.7% Reflective Coating for CO₂ Laser 10.6µm (1-Piece)
Mirror Silicon (Si) 25.4mm Diameter High Durability 99.7% Reflective Coating for CO₂ Laser 10.6µm (1-Piece) 이월 주문되었으며 재고가 확보되는 즉시 배송됩니다.
Care information
Care information
High care information about CO2 laser lenses, fiber laser protective windows, and
fiber laser lenses is essential to ensure the optimal performance and longevity
of these critical components in laser systems. Here are some key points to consider:
CO2 Laser Lenses:
Cleaning:
Regularly clean CO2 laser lenses to remove dust, debris, and residue. Use a
soft, lint-free cloth or lens cleaning tissue. Avoid using abrasive materials
that may scratch the lens.
Handling:
Always handle CO2 lenses with clean hands or lint-free gloves to avoid transferring oils or contaminants onto the lens surface.
Storage:
Store lenses in a clean, dry, and dust-free environment to prevent damage and
maintain their integrity.
Alignment:
Properly align CO2 lenses within the laser system to ensure efficient laser
beam delivery and focus.
Inspection:
Regularly inspect lenses for signs of damage, scratches, or deterioration.
Replace any damaged or worn lenses promptly.
Fiber
Laser Protective Windows:
Cleaning:
Clean fiber laser protective windows with care to avoid scratches. Use a gentle
cleaning solution and a soft, lint-free cloth.
Protection:
Keep protective windows in place when the laser system is not in use to prevent
contamination and damage.
Replacement:
If protective windows become damaged, replace them immediately to maintain
laser system safety and performance.
Fiber Laser Lenses:
Cleaning:
Clean fiber laser lenses carefully to prevent damage. Use a lens cleaning
solution and a soft, lint-free cloth or lens tissue.
Handling:
Handle fiber laser lenses with care to avoid fingerprints, oils, or scratches
on the lens surface.
Alignment:
Properly align fiber laser lenses to ensure accurate laser beam focusing and
efficient performance.
Inspection:
Regularly inspect fiber laser lenses for signs of wear, damage, or contamination. Replace any compromised lenses promptly.
Environmental Considerations: Be mindful of environmental factors such as temperature and
humidity, as extreme conditions may affect lens performance.
Overall,
maintaining high care and attention to detail when handling, cleaning, and
storing CO2 laser lenses, fiber laser protective windows, and fiber laser
lenses will enhance their longevity and contribute to the smooth and reliable
operation of your laser systems. Always follow the manufacturer's guidelines
and best practices for each specific component to ensure optimal results.
Delivery and Shipping
Delivery and Shipping
FOR ITEMS IN STOCK:
Orders placed before 2:00 pm EST/EDT on a business day
(Monday - Friday) will ship the same day.
Orders placed after 2:00 pm EST/EDT may not be be shipped
until the next business day.
Our business hours are Monday to Friday, 9 am-4:30 pm.
Orders placed after business hours will not be processed
until the next business day.
Orders placed during the weekend (Saturday - Sunday) or
holiday will be shipped on the next business day.
All packages are shipped FOB ORIGIN – These shipping terms
are characteristic of a “SHIPMENT CONTRACT” and the seller bears the expense
and risk of putting the goods in the possession of the carrier. Title transfers to the buyer at the point when the goods leave the shipper’s loading dock but reverts back to the seller if the buyer follows the correct procedures of notifying the seller of “breach” by “rightfully revoking cceptance.” Even if “breach” has occurred, the buyer remains responsible for filing “carrier loss
claims.”
Mirror Silicon (Si) 25.4mm Diameter High Durability 99.7% Reflective Coating for CO₂ Laser 10.6µm (1-Piece)
Why Choose a Silicon (Si) CO₂ Laser Mirror?
Silicon (Si) mirrors are among the most widely used reflective optics in CO₂ laser systems because they provide excellent reflectivity at the 10.6 µm wavelength while offering outstanding durability for engraving and cutting applications. Their precision-polished optical surface and enhanced reflective coating help maximize beam efficiency, resulting in consistent laser performance across a wide range of materials.
Compared to conventional molybdenum mirrors, silicon mirrors with reflective coatings are commonly selected for applications where higher optical efficiency and reduced absorbed laser energy are desired. They are an excellent choice for both routine maintenance and performance upgrades in CO₂ laser systems.
Product Overview
The American Photonics 25.4 mm Silicon (Si) CO₂ Laser Mirror is engineered for CO₂ laser systems operating at 10.6 µm and laser powers from 40W to 200W. Manufactured from precision optical-grade silicon and finished with a high-durability reflective coating, this mirror efficiently redirects the laser beam while maintaining beam quality throughout the optical path.
Over time, laser mirrors can become contaminated, scratched, or thermally damaged, leading to reduced cutting performance, inconsistent engraving quality, and beam alignment issues. Replacing worn mirrors helps restore optical efficiency and maintain reliable machine performance.
Whether you're performing preventative maintenance or replacing a damaged optic, this precision replacement mirror is designed to meet the demanding requirements of industrial, commercial, educational, and OEM CO₂ laser systems.
Technical Benefits
Superior Optical Performance
- Optimized for 10.6 µm CO₂ laser wavelength
- High-durability reflective coating for efficient beam delivery
- Precision-polished optical surface for consistent beam reflection
- Helps maintain beam quality throughout the optical path
Reliable Thermal Performance
- Silicon substrate designed for CO₂ laser applications
- Suitable for laser systems from 40W to 200W
- Designed for long service life under normal operating conditions
Precision Manufacturing
- Manufactured to tight dimensional tolerances
- Laser-grade optical materials
- Optical quality inspection throughout production
- OEM-compatible replacement optic
Typical Applications
This mirror is commonly used in:
- CO₂ laser engraving
- CO₂ laser cutting
- Acrylic fabrication
- Wood engraving and cutting
- Leather processing
- Rubber stamp manufacturing
- Plastics processing
- Sign manufacturing
- Educational laboratories
- Industrial manufacturing
- OEM equipment maintenance
Product Specifications
| Parameter | Value |
|---|---|
| Product Type | CO₂ Laser Mirror |
| Material | Silicon (Si) |
| Diameter | 25.4 mm (1.000") |
| Edge Thickness | 3.0 mm (0.118") |
| Mirror Type | Plano Reflector |
| Design Wavelength | 10.6 µm |
| Reflective Coating | High Durability CO₂ Reflective Coating |
| Reflectivity | 99.7% |
| Laser Power | 40W–200W |
| Diameter Tolerance | +0 / -0.13 mm |
| Center Thickness Tolerance | ±0.10 mm |
| Clear Aperture | ≥90% |
| Scratch/Dig | 40-20 |
Key Features
- Precision-manufactured silicon CO₂ laser mirror
- Premium 99.7% reflective coating
- Optimized for 10.6 µm CO₂ laser systems
- Designed for laser powers from 40W to 200W
- Manufactured with tight optical tolerances
- OEM-compatible replacement mirror
- Laser-grade optical materials
- Suitable for engraving and cutting applications
How Does a CO₂ Laser Mirror Work?
Inside a CO₂ laser machine, mirrors guide the laser beam from the laser tube to the focusing lens. Each mirror must efficiently reflect the beam while maintaining alignment and minimizing energy loss. Even small amounts of contamination or coating damage can reduce laser performance.
A typical beam path follows this sequence:
Laser Tube → Mirror #1 → Mirror #2 → Mirror #3 → Focus Lens → Material
Maintaining clean, undamaged mirrors helps ensure consistent beam delivery, improved cutting quality, and reliable engraving performance.
When Should You Replace Your Laser Mirror?
Replace your mirror if you notice:
- Reduced cutting performance
- Poor engraving quality
- Burn marks on the mirror
- Surface scratches
- Coating damage
- Persistent contamination after cleaning
- Difficulty maintaining beam alignment
Routine inspection and replacement of worn optics can help maximize machine performance and reduce downtime.
Cleaning & Handling
To protect the optical coating and extend mirror life:
- Handle the mirror only by its edges.
- Wear powder-free gloves whenever possible.
- Use approved optical cleaning tissue or lint-free wipes.
- Clean with high-purity optical-grade isopropyl alcohol when necessary.
- Never use abrasive materials, paper towels, or household cleaners.
- Store unused mirrors in a clean, dry, dust-free environment.
Frequently Asked Questions
What does a CO₂ laser mirror do?
A CO₂ laser mirror redirects the laser beam through the machine's optical path while maintaining beam quality before it reaches the focusing lens.
Why choose a silicon mirror?
Silicon mirrors are commonly used in CO₂ laser systems because they provide excellent reflectivity at 10.6 µm and are well suited for engraving and cutting applications.
Will this mirror fit my laser machine?
This mirror is designed for machines using a 25.4 mm diameter, 3.0 mm thick silicon mirror. Always verify your existing mirror dimensions before ordering.
When should I replace my mirror?
Replace the mirror if it shows scratches, coating damage, discoloration, excessive contamination, or if laser performance has noticeably decreased.
Can I clean the mirror?
Yes. Use only approved optical cleaning materials and avoid touching the coated surface with your fingers.
Can fingerprints damage the coating?
Yes. Oils from fingerprints can contaminate the optical coating and may reduce mirror performance over time.
Is this mirror designed for CO₂ lasers?
Yes. It is designed specifically for 10.6 µm CO₂ laser systems.
Why Choose American Photonics?
American Photonics has been manufacturing precision laser optics for more than two decades, serving OEMs, manufacturers, educational institutions, and laser professionals worldwide.
When you choose American Photonics, you receive:
- Precision-manufactured laser optics
- Laser-grade optical materials
- OEM-compatible replacement components
- ISO-controlled quality processes
- Family-owned business
- Woman-owned business
- Manufactured in the USA (where applicable)
- Technical support from experienced laser optics specialists
OEM Compatibility Disclaimer
American Photonics manufactures OEM-compatible replacement laser optics. Any OEM names, trademarks, model numbers, or part numbers referenced are used solely to identify compatibility. American Photonics is not affiliated with or endorsed by the respective OEM manufacturers.
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