ConductScience Safety Glasses, Clear, Anti-Fog (Bulk 15-Pack)
$38.00 per unit | 15 units per pack Bulk pricing: Bulk 15-Pack at $570.00 ($38.00 per unit)
Clear polycarbonate safety glasses designed for laboratory and research environments. These protective eyewear feature wrap-around design with side shields to provide comprehensive eye protection from chemical splashes, particulate matter, and UV exposure. The anti-fog and anti-scratch coatings maintain clear vision during extended use in humid laboratory conditions.
The polycarbonate lens material offers high impact resistance while maintaining optical clarity essential for precision work. The wrap-around frame design extends protection beyond the eye area to include peripheral vision zones, making these glasses suitable for various laboratory protocols where eye protection is required.
How It Works
The safety glasses utilize high-impact polycarbonate lenses that absorb and disperse kinetic energy from flying particles or chemical splashes. The polycarbonate material provides inherent UV protection while maintaining high optical clarity across the visible spectrum. The wrap-around frame design creates a protective barrier that extends beyond the direct line of sight to shield the orbital area and temple regions.
The anti-fog coating employs hydrophilic surface treatment that spreads moisture evenly across the lens surface, preventing condensation droplet formation that would obstruct vision. The anti-scratch coating provides a harder surface layer that resists abrasion from cleaning and handling, maintaining optical clarity over extended use periods.
Features & Benefits
Research Domain
- Analytical Chemistry
- Clinical Diagnostics
- Environmental Monitoring
- Industrial Hygiene
- Materials Science
- Microbiology
- Pharmaceutical QC
Weight
- 30.92 kg
Dimensions
- L: 43.2 mm
- W: 36.0 mm
- H: 28.8 mm
Comparison Guide
| Feature | This Product | Typical Alternative | Advantage |
|---|---|---|---|
| Lens Material | Polycarbonate with anti-fog and anti-scratch coatings | Basic polycarbonate or plastic lenses without specialized coatings | Maintains clear vision in varying humidity conditions while resisting surface damage from routine cleaning |
| Frame Design | Wrap-around design with side shields | Standard frame styles offer limited peripheral protection | Provides comprehensive coverage against splashes and particles from multiple angles |
| Optical Clarity | Clear polycarbonate with anti-scratch protection | Entry-level models may lack scratch resistance | Maintains visual accuracy for precision work over extended use periods |
| Fog Resistance | Anti-fog coating treatment | Basic safety glasses often lack anti-fog properties | Eliminates vision obstruction during temperature transitions and humid conditions |
These safety glasses combine impact-resistant polycarbonate lenses with specialized coatings for anti-fog and anti-scratch protection. The wrap-around design with side shields provides comprehensive eye protection suitable for diverse laboratory applications.
Practical Tips
Clean lenses daily with mild soap solution and lint-free cloth to preserve coating integrity.
Why: Regular cleaning prevents buildup of residues that can degrade anti-fog performance and optical clarity.
Store glasses in protective case when not in use to prevent lens scratching and frame damage.
Why: Proper storage extends useful life and maintains protective effectiveness of coatings.
Replace immediately if lenses show any cracks, deep scratches, or coating degradation.
Why: Damaged lenses compromise both protective function and visual clarity needed for safe laboratory work.
Ensure proper fit with no gaps between frame and face before entering laboratory areas.
Why: Gaps allow chemical vapors and particles to reach the eyes, reducing protective effectiveness.
If fogging occurs despite coating, check for damage to anti-fog treatment or excessive residue buildup.
Why: Persistent fogging indicates coating failure or contamination that requires cleaning or replacement.
Verify optical clarity does not interfere with color-critical observations or measurements.
Why: Any lens distortion or tinting could affect accurate visual assessment of experimental results.
Avoid paper towels or tissues for lens cleaning as these can scratch the surface coatings.
Why: Abrasive materials damage protective coatings and create scratches that impair vision and protection.
Setup Guide
What’s in the Box
- Safety glasses with clear lenses
- Protective case (typical)
- Cleaning cloth (typical)
- User instructions (typical)
Warranty
ConductScience provides standard manufacturer warranty coverage for material defects and workmanship. Technical support is available for proper use and maintenance guidance.
Compliance
Are these glasses compatible with prescription eyewear?
The wrap-around design may accommodate thin prescription frames underneath, but fit should be verified to ensure proper seal and protection. Over-prescription safety glasses may be more suitable for regular prescription wearers.
How should the anti-fog coating be maintained?
Clean with mild soap solution and soft cloth. Avoid abrasive cleaners or paper towels that could damage the coating. Allow air drying or use lint-free cloth to prevent scratching.
What chemical compatibility does the polycarbonate provide?
Polycarbonate resists most aqueous solutions and dilute acids but may be affected by strong solvents like acetone or methylene chloride. Consult chemical compatibility charts for specific exposures.
Can these be sterilized for sterile environments?
The polycarbonate material can typically withstand alcohol-based disinfection. Autoclave sterilization may damage the anti-fog coating and should be verified with manufacturer specifications.
How long does the anti-fog coating remain effective?
Coating effectiveness depends on cleaning frequency and methods used. Proper maintenance typically provides months of reliable anti-fog performance under normal laboratory use.
What level of UV protection is provided?
Polycarbonate inherently blocks most UV radiation, but specific UV transmission values should be confirmed from product specifications for applications requiring defined UV protection levels.
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