Resorep 170 — Top
The ultra-low shrinkage (<0.02%) ensures precision fits for bearing seats and shafts without secondary machining in many cases. The compressive strength of 170 MPa means the cured material is harder than many grades of mild steel (which typically have compressive strength of 150-200 MPa). Resorep 170 Top vs. Competing Products How does Resorep 170 Top compare to standard two-part epoxies like Belzona 1111, Devcon Plastic Steel, or Loctite Metal/Redi-Patch?
While no epoxy can replace a precision-welded repair in the highest temperature or extreme dynamic load scenarios, for 90% of industrial repairs – from pump volutes to bearing housings – Resorep 170 Top delivers reliable, long-lasting results at a fraction of the cost and downtime of traditional methods. resorep 170 top
This comprehensive guide will explore the technical specifications, application methods, real-world performance data, and comparative advantages of Resorep 170 Top. Whether you are a maintenance manager, a field service technician, or a plant engineer, this article will provide the actionable knowledge you need to leverage this powerful product. Resorep 170 Top is a high-viscosity, thixotropic, steel-reinforced epoxy resin system designed for the rebuilding and repair of metal components. The "170" in its name refers to its high compressive strength (typically exceeding 170 N/mm² or 17,000 psi), while "Top" indicates its role as a final, surface-tolerant top coat for rebuilt areas. The ultra-low shrinkage (<0
Keep a kit in your emergency repair locker. When a critical shaft spins in its bearing at 2 AM on a Sunday, you will thank yourself. Disclaimer: Always consult the manufacturer’s current technical data sheet before application. Performance claims are based on laboratory testing and field reports; individual results may vary depending on conditions and surface preparation. Competing Products How does Resorep 170 Top compare
| Property | Value | |----------|-------| | (by weight) | 2:1 (Resin:Hardener) | | Pot Life at 20°C | 45 – 60 minutes | | Tack-free time | 6 – 8 hours | | Full cure time | 24 hours at 20°C (accelerated by heat) | | Compressive strength (ASTM D695) | 170 – 185 MPa | | Tensile strength (ASTM D638) | 45 – 60 MPa | | Flexural strength (ASTM D790) | 85 – 100 MPa | | Shore D hardness | 90 – 95 | | Linear shrinkage | <0.02% | | Dielectric strength | 12 kV/mm |