Motorbike wear ( clothes)
Various Fishing nets
Ascendo Solid tire
Ignition cable set Engine Glass Battery Air conditioning compressor Alternator Timing belt Caliper Constant velocity joint EGR Valve Fuel filter Fuel Injection Pump High pressure pump Injector Lower arm Mirror Power steering gear Start motor Transmission Moisture sensor Ladder Frame
Fishing Hooks ( commercial / sports)
OTR ( Tiron, made in Korea )
Acrylic Solid Surfaces ( made in Korea)
Automotive butyl inner tube ( made in Korea)
Natural Inner Tube
Forming agent
Blowing agent
Insert processing is rubber to metal bonding where the insert is bonded during the molding process. We produce all inserts in house and each insert is processed and inspected to be free of any defects or contamination before adhesive is applied and added to the mold. Inserts are physically placed into each cavity of the mold. Molds used for top inserts have magnets that hold the insert in place. Other molds used for encapsulated production are designed with chaplet pins to suspend the insert in the mold and allow the rubber to flow around it. Once the molding process is started, the adhesive on the inserts is activated to bond to the rubber. Insert processing is applied for any part that requires flexibility and stability. Parts using insert processing can range from very small motor mounts to larger applications.
For fire retardants in rubber processing, Unipoly Rubber & Plastics offers an array of non-halogen flame retardant and smoke suppressant additives. We assist in developing fire retardant compounds for multiple rubber-related applications including
Paraffin Wax, Micro Wax, Rubber Wax, Pe/pp Wax.
Nylon 6 chip is obtainable by hydrolytic polymerization of caprolactam in the presence of dicarboxylic acids as chain regulators, subsequent processing of the polymer melt into the chip, extraction of the low molecular weight portions from the chip with water, and subsequent drying of the chip. Nylon 66 is made of hexamethylenediamine and adipic acid are combined with water in a reactor which gives nylon salt after the polymerization process nylon 66 is produced. They are used for manufacturing textile grade yarns as well as industrial products. Available luster is Bright & Semi Dull.
Nylon 6 chip is obtainable by hydrolytic polymerization of caprolactam in the presence of dicarboxylic acids as chain regulators, subsequent processing of the polymer melt into the chip, extraction of the low molecular weight portions from the chip with water, and subsequent drying of the chip. Nylon 66 is made of hexamethylenediamine and adipic acid are combined with water in a reactor which gives nylon salt after the polymerization process nylon 66 is produced. They are used for manufacturing textile grade yarns as well as industrial products. Available luster is Bright & Semi Dull.
Nylon 6 chip is obtainable by hydrolytic polymerization of caprolactam in the presence of dicarboxylic acids as chain regulators, subsequent processing of the polymer melt into the chip, extraction of the low molecular weight portions from the chip with water, and subsequent drying of the chip. Nylon 66 is made of hexamethylenediamine and adipic acid are combined with water in a reactor which gives nylon salt after the polymerization process nylon 66 is produced. They are used for manufacturing textile grade yarns as well as industrial products. Available luster is Bright & Semi Dull.
Cation Dyeable Chip, Deep Dyable Chip, Pale Dyable Chip Nylon 6 chip is obtainable by hydrolytic polymerization of caprolactam in the presence of dicarboxylic acids as chain regulators, subsequent processing of the polymer melt into the chip, extraction of the low molecular weight portions from the chip with water, and subsequent drying of the chip. Nylon 66 is made of hexamethylenediamine and adipic acid are combined with water in a reactor which gives nylon salt after the polymerization process nylon 66 is produced. They are used for manufacturing textile grade yarns as well as industrial products. Available luster is Bright & Semi Dull.
Angle free protractor tool can measure the angle of the inside or outside corner and transfer the angle physically onto your mister saw. The angle set on your saw will be perfectly accurate because it was directly transferred from the tool. Angle free protractor is not only helpful for measuring angles and setting mitre saws accordingly but also good for making pictures frames or decks in geometric shapes.
Easier to use tool Safer to use (no spark) tool Blade design efficient for straight, curve, and round cutting Patent No. 10-0917125 Design Registration No. 30-0491747