NO SURFACE PREP REQUIRED: SG400LSE methyl methacrylate adhesive bonds directly to Low Surface Energy plastics like polypropylene (PP) and polyethylene (PE) without priming or surface treatment, saving time and cost
VERSATILE BONDING: Creates strong structural bonds between LSE plastics and multiple substrates including metals (aluminum, stainless steel), ABS, acrylic, nylon, glass filled PP, and talc filled PP with shear strengths ranging from 480 to 730 psi
FAST WORKING TIME: Two-component adhesive with 10 to 1 mix ratio features 1 to 3 minute working time at 75 degrees Fahrenheit and 6 hour fixture time for efficient manufacturing and assembly operations
NON-SAG FORMULA: Translucent, off-white adhesive maintains position during application and curing, ideal for vertical surfaces and complex bonding applications in fast-paced fabrication environments
HIGH PERFORMANCE: Achieves substrate failure rates on difficult-to-bond materials with excellent shear strength, including 520 psi for PP to aluminum and 560 psi for PP to stainless steel bonds
DISPENSER REQUIRED: This adhesive comes in a 10:1 ratio and we highly reccomend purchasing one of our dispensing options if you don't already have a dispenser.
Description
Maven Adhesive Kits (SG400-LSE) deliver professional-grade bonding solutions for challenging low surface energy plastics without surface preparation. This two-component methyl methacrylate adhesive features a 10:1 mix ratio and bonds directly to polypropylene, polyethylene, and their filled variants including glass-filled and talc-filled PP. The formula excels at cross-bonding LSE plastics to metals like aluminum and stainless steel, as well as ABS and acrylic. With a working time of 1-3 minutes at 75°F and fixture time of 6 hours, this translucent, non-sag adhesive enables fast-paced assembly. Impressive shear strengths range from 480 psi on standard PP to 730 psi on LDPE, with substrate failure rates demonstrating superior bond integrity. Ideal for manufacturing and fabrication applications requiring reliable structural bonds on difficult-to-bond materials.
