Products in Thermoset Resins: Polydicyclopentadiene (PDCPD)

METTON® LMR Flame Retardant Grade M2200-FR Polymers are tough and durable engineering plastics (poly-DCPD). They offer part design freedom with integrated functionality and part consolidation opportunities, similar to injection molding, as a replacement for traditional materials like wood and metal. The low-pressure molding process is ideal for producing large plastic parts used in heavy trucks, agriculture, construction, the military, and other industrial applications.

METTON® LMR M1537 Polymers are tough and durable engineering plastics (poly-DCPD). They offer part design freedom with integrated functionality and part consolidation opportunities, similar to injection molding, as a replacement for traditional materials like wood and metal. The low-pressure molding process is ideal for producing large plastic parts used in heavy trucks, agriculture, construction, the military, and other industrial applications.

METTON® LMR M1539 Polymers are tough and durable engineering plastics (poly-DCPD). They offer part design freedom with integrated functionality and part consolidation opportunities, similar to injection molding, as a replacement for traditional materials like wood and metal. The low-pressure molding process is ideal for producing large plastic parts used in heavy trucks, agriculture, construction, the military, and other industrial applications.

METTON® LMR Expanding Grade M1537-XXE Polymers are tough and durable engineering plastics (poly-DCPD). As an alternative to conventional materials like wood and metal, they provide component design flexibility with integrated functionality and part consolidation potential, akin to injection molding. The low-pressure molding process is ideal for producing large plastic parts used in heavy trucks, agriculture, construction, the military, and other industrial applications.

METTON® LMR Reinforced Grade M5000-GT Polymers are tough and durable engineering plastics (poly-DCPD). It offers part design freedom with integrated functionality and part consolidation opportunities, similar to injection molding, as a replacement for traditional materials like wood and metal. The low-pressure molding process is ideal for producing large plastic parts used in heavy trucks, agriculture, construction, the military, and various industrial applications.

METTON® LMR M1540 Polymers are tough and durable engineering plastics (poly-DCPD). They offer part design freedom with integrated functionality and part consolidation opportunities, similar to injection molding, as a replacement for traditional materials like wood and metal. Large plastic components used in military, agricultural, construction, heavy-duty vehicles, and other industrial applications may be produced with the low-pressure molding technique.

METTON® LMR High-HDT Grade M3000-TH Polymers are tough and durable engineering plastics (poly-DCPD). They offer part design freedom with integrated functionality and part consolidation opportunities, similar to injection molding, as a replacement for traditional materials like wood and metal. The low-pressure molding process is ideal for producing large plastic parts used in heavy trucks, agriculture, construction, the military, and other industrial applications.

METTON® LMR M1534 Polymers are tough and durable engineering plastics (poly-DCPD). They offer part design freedom with integrated functionality and part consolidation opportunities, similar to injection molding, as a replacement for traditional materials like wood and metal. The low-pressure molding process is ideal for producing large plastic parts used in heavy trucks, agriculture, construction, the military, and other industrial applications.

Ares P308 is extremely flexible resin with low styrene content and low exothermic peak.The cross-linked resin is soft and dry to the touch. It is particularly suitable for the production of abrasive cones suitable for abrading particularly fragile and delicate surfaces.

Proxima® HTI 1400 subsea thermal insulation polymer supports production of subsea reservoirs with oil temperatures up to 400°F (204°C) without resorting to pipe-in-pipe or subsea cooling technology, reducing cost for projects in ultra-deep water. Proxima® HTI 1400 provides a cost-effective solution to customers requiring high-temperature subsea flowlines and equipment.

Telene® 1810 A/B technology utilizes ring opening metathesis polymerization (ROMP). Formulations are based on dicyclopentadiene (DCPD) and engineered to produce polydicyclopentadiene polymer (PDCPD), well-known for its robust mechanical properties at low temperatures, its low water absorption, and its radio transparency.This system has been designed to produce machine cast parts.

Telene® 1660 technology utilizes ring opening metathesis polymerization (ROMP). Formulations are based on dicyclopentadiene (DCPD) and engineered to produce polydicyclopentadiene polymer (PDCPD), well-known for its robust mechanical properties at low temperatures, its low water absorption, and its radio transparency.

Telene® 1651 technology utilizes ring opening metathesis polymerization (ROMP). Formulations are based on dicyclopentadiene (DCPD) and engineered to produce polydicyclopentadiene polymer (PDCPD), well-known for its robust mechanical properties at low temperatures, its low water absorption, and its radio transparency.

Telene® 1650 A/BK technology utilizes ring opening metathesis polymerization (ROMP). Formulations are based on dicyclopentadiene (DCPD) and engineered to produce polydicyclopentadiene polymer (PDCPD), well-known for its robust mechanical properties at low temperatures, its low water absorption, and its radio transparency.

Proxima® HPR 2112 is a standard formulation designed to give a balance of thermal and mechanical properties. Proxima® HPR 2112 provides an excellent combination of stiffness (or modulus), toughness (or impact strength) and glass transition temperature.

Ares P808 is DCPD resin with medium reactivity, good mechanical and dimensional characteristics, low styrene content and excellent filler wettability.

Proxima® HPR 2128 is uniquely formulated to provide high temperature performance. Proxima® HPR 2128 shows higher stiffness (or modulus) and higher glass transition temperature compared to other resins in the Proxima® HPR 2100 series.

Proxima® HPR 2124 is designed to give a balance of thermal and mechanical properties providing an excellent combination of stiffness (or modulus), heat deflection temperature, and is optimized for resistance to hydrocarbons.

Telene® 1650 technology utilizes ring opening metathesis polymerization (ROMP). Formulations are based on dicyclopentadiene (DCPD) and engineered to produce polydicyclopentadiene polymer (PDCPD), well-known for its robust mechanical properties at low temperatures, its low water absorption, and its radio transparency.

Telene® 1750 technology utilizes ring opening metathesis polymerization (ROMP). Formulations are based on dicyclopentadiene (DCPD) and engineered to produce polydicyclopentadiene polymer (PDCPD), well-known for its robust mechanical properties at low temperatures, its low water absorption, and its radio transparency.

Proxima® HPR 2029 is a low viscosity, filler-compatible formulation especially designed to give a superior high-temperature performance. Proxima® HPR 2029 shows high glass transition temperature and offers formulation possibilities with a wide range of mineral and other fillers.

Ares P805 is DCPD resin with high reactivity. Low styrene content, and excellent dimensional stability. Excellent mechanical characteristics and wettability of the fillers. Ideal for fast processing cycles.

Telene® 2650 technology utilizes ring opening metathesis polymerization (ROMP). Formulations are based on dicyclopentadiene (DCPD) and engineered to produce polydicyclopentadiene polymer (PDCPD), well-known for its robust mechanical properties at low temperatures, its low water absorption, and its radio transparency.

Telene® 1811 A/B technology utilizes ring opening metathesis polymerization (ROMP). Formulations are based on dicyclopentadiene (DCPD) and engineered to produce polydicyclopentadiene polymer (PDCPD), well-known for its robust mechanical properties at low temperatures, its low water absorption, and its radio transparency. This system has been designed for hand cast parts.

Ares P801v Versatile medium reactivity DCPD resin for all sectors. Low styrene content and excellent dimensional stability. Good mechanical characteristics and excellent compatibility with glass fibers. Also ideal for spray up use.

Proxima® HPR 2100 is uniquely formulated to provide the most superior toughness performance among Proxima® resins. Proxima® HPR 2100 shows higher impact strength than the standard formulation while maintaining stiffness and glass transition temperature.

Telene® 1690 A/B/F technology utilizes ring opening metathesis polymerization (ROMP). Formulations are based on dicyclopentadiene (DCPD) and engineered to produce polydicyclopentadiene polymer (PDCPD), well-known for its robust mechanical properties at low temperatures, its low water absorption, and its radio transparency.

Proxima® ACR 4100 is an ultra-low viscosity resin designed for infusion processes with commercial fabrics based on glass roving and carbon fiber tow. It provides laminates exhibiting excellent fracture toughness, low water absorption and a glass transition temperature above 120 °C.

Proxima® HPR 2012 is a general-purpose, ultra-low viscosity formulation which offers a balance of thermal and mechanical properties typical of Proxima® thermosets. Proxima® HPR 2012 offers water like viscosity for easy processing.

Proxima® HPR 2013 is a low viscosity, filler-compatible formulation designed to give a balance of thermal and mechanical properties. Proxima® HPR 2013 offers formulation possibilities with a wide range of fillers to achieve desired properties. It is especially suited for high levels of mineral fillers.