£58.99
Ex VAT
£70.79
Inc VAT
Product Details
Product Specification
Product Documents
Loctite UV/Visible Cure High Viscosity Adhesive is a cutting-edge solution for fast and efficient bonding applications. With its rapid cure capability and colorless bond formation, this adhesive is ideal for a variety of materials, including glass, metal, and plastics. Its exceptional flexibility, toughness, and durability make it resistant to moisture exposure, ensuring reliable performance even in challenging conditions. The adhesive is fluorescent, facilitating easy verification of coverage during application. Whether you're working with delicate glass surfaces or robust metals and plastics, Loctite's UV/Visible Cure High Viscosity Adhesive delivers strong, transparent bonds with speed and precision, making it a versatile choice for various industrial and manufacturing needs.
Features and benefits
• Fluorescent in UV light
• Perfect for a wide range of substrates
Typical Applications
• Light Cure - Acrylic
Notes
• % Elongation @ Break: 260
• Color: Clear, Straw: Light Straw
• Cure Type: UV Cure, Visible Cure
Technical Information
• Cure Speed: Fast Cure, Flexible, Toughened, Fluorescent, Repositionable,
• Mix: No Mix Required, Viscosity: High Viscosity
• Number of Components: 1 Part
• Physical Form: Liquid
• Shear Strength, Grit Blasted Steel to Glass (psi): 1480
• Shore Hardness Durometer: 60
• Shore Hardness Scale: D
• Substrates: Glass, Plastic, Metal, Plastic: Thermoset Plastic
• Technology: Acrylic
• Viscosity (Brookfield mPa.s (cP)): 15000
• Viscosity Temperature (°C): 25
• Viscosity Temperature (°F): 77
Attribute | Value |
---|---|
Brand | Loctite |
Compatible Materials | Glass Metal Plastic |
Drying / Bonding Time | 1 to 10min. |
ECLASS Code | 23330105 |
Features | Applications Light Cure - Acrylic High Strength Ideal for Electric Motor Balancing Applications Low Yellowing in Sunlight Toughened |
MFR Part No. | 1170171 |
Pack Size | 25ml |
Temperature Resistance Range | 140° |
Type | Contact Adhesive |
UNSPSC Code | 31201601 |