Permabond 825 CA008250001Z0101 Cyanoacrylate High Temp Instant Adhesive 1 ounce bottle/case of 10
Permabond 825 CA008250001Z0101 Cyanoacrylate High Temp Instant Adhesive 1 ounce bottle/case of 10
Permabond 825 CA008250001Z0101 Cyanoacrylate High Temp Instant Adhesive 1 ounce bottle/case of 10
Permabond introduces new high temperature resistant cyanoacrylate adhesives!
PERMABOND® 825 is a low viscosity cyanoacrylate adhesive that provides higher strength at high temperatures. Additionally, this fast-setting cyanoacrylate bonds metals, rubbers, plastics, and more. In fact, Permabond 825 resists up to 392°F (200°C) and has excellent retention of strength during thermal aging. PATENTED TECHNOLOGY
Features and Benefits
- Strong bonds that resist up to 392°F (200°C)
- No secondary or post-cure required to achieve temperature resistance
- Low viscosity 120 cPs/mPa.s
- Tolerates stresses at high temperature
- Does not require zero-gap – better thermal stability with a larger gap
- Higher strength retention after thermal aging
- 2500 psi (17 MPa) bonds to mild steel at 77°F (25°C)
- 600 psi (4MPa) bonds to mild steel at 300°F (150°C)
Typical ethyl cyanoacrylates resist up to 180°F (82°C) with special grades resisting as high as 250°F (120°C). Generally, methyl cyanoacrylates resist 195°F (90°C). Specialty allyl cyanoacrylates can resist up to 482°F (250°C). However, these require a post-cure or secondary heat cure to achieve the temperature resistance.
Cyanoacrylate adhesives are single component adhesives that polymerize rapidly when pressed into a thin film between parts. The moisture adsorbed on the surface initiates the curing of the adhesive. Strong bonds are developed extremely fast and on a great variety of materials.
Directions for using Permabond 825:
1) Apply the adhesive sparingly to one surface.
2) Then, bring the components together quickly and correctly aligned.
3) Apply sufficient pressure to ensure the adhesive spreads into a thin film.
4) Do not disturb or re–align until sufficient strength is achieved, normally in a few seconds.