- Product description
- Technical details
Features and benefits:
LOCTITE HY 4070 Universal Bonder is designed for the assembly of parts with bond gaps up to 0.2 in (5 mm), and/or for applications where the complete cure of excess adhesive is a must.
The gel consistency prevents adhesive flow even on vertical surfaces. HY 4070 is ideally suited for applications where temperature and moisture resistance is required. Best application results are achieved with use of the LOCTITE cyanoacrylate mixing nozzle (contained in the 11 gram kit).
- Fast fixturing
- Moisture resistant
- Temperature resistance from -40 to +100°C
- Gap filling up to 0.2 in (5 mm)
- Gel consistency prevents adhesive flow, even on vertical surfaces.
- Excellent bonding characteristics to a variety of substrates including plastics, rubbers, and metals
Technical data:
Size: 11 g
Application method: Dispense System
Applications: Bonding Dissimilar Materials, Bonding Plastic, Bonding Rubber, Construction, Direct Bonding, Edge Bonding, Interior Repairs, Structural Bonding
Cure type: Room Temperature (Ambient) Cure, Two Component Mix
FEA (finite element analysis): Finite Strain, Viscoelastic
Fixture time, Aluminum (etched) 0.5mm gap: <60.0 sec.
Gap fill: 5.0 mm
Mix ratio, by volume: 10 : 1
Number of components: 2 Part
Physical form: Gel
Recommended for use with: Composite, Composite: Advanced Composites, Dry Surface, Elastomer: Highly Filled Elastomer, Epoxy, Fiberboard, Gel Coat, Laminate, Metal, Non-Gel Coat, Painted Surface, Phenolic, Plastic, Rubber, Thermoplastic, Thermoset, Urethane: Cast Urethane, Vinyl, Wood
Shear strength, Steel (grit blasted): 25.0 N/mm² (3625.0 psi )
Mixed:
Key characteristics, Mixed: Cure Speed: Ultra Fast Cure, Gap Filling, Moisture Resistant, Multipurpose
Operating temperature, Mixed: -40.0 - 100.0 °C (-40.0 - 212.0 °F )
Resin:
Casson viscosity, cone & plate, Resin 25.0 °C: 200.0 - 1300.0 mPa·s (cP)
Color, Resin: Yellow
Hardener:
Color, Hardener: Clear
Viscosity, cone & plate, Hardener 25.0 °C Shear Rate 1,000 s?¹: 1.0 - 30.0 mPa·s (cP)