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.
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.
SH 100 is a thixotropic, fiber-reinforced, structural cement mortar for protecting and repairing concrete structures. Its physical and mechanical properties allow to correct large irregularities in the substrate with a rapid intervention. The product can be used for repairing reinforced concrete structures such as front panels of balconies, beams, columns, stringcourses, moulding, cornices and fair faced concrete surfaces. It is easily applied using a continuous plastering machine and is suitable for large surfaces such as drainage channels, dams, bridges, water pipes, tanks, containment structures made of reinforced concrete.
SH 200 is a ready-mixed, non-shrink, non-metallic, flow-able, high-strength structural grout. SH 200 contains a balanced blend of washed and graded silica sands, Portland cement, flow improving compounds, and a shrinkage compensating system which produces a volume stable structural grout. SH 200 produces high early and ultimate strengths without intermediate or latent shrinkage. SH 200 remains stable without failure from compressive loading, impact, lateral thrusts, high heat or continuous vibration. It is scientifically proportioned and is ready for use at varied consistencies from plastic to fluid.
SH 300 will form a high-strength abrasion and chemical resistant, self-leveling mortar. Because it is based on Portland cement and latex polymers, and does not depend on gypsum, it may be used indoors or outdoors. SH 300 flows out to produce a smooth resurfacing or leveling compound for structurally sound existing slabs.
SH 400 is a high-performance, fast-setting, multipurpose repair material. Durable in wet environments, SH 400 is a blend of Fast-Setting hydraulic cement and quality aggregates. SH 400 is non-metallic, and no chlorides are added. SH 400 with water to produce a workable, high quality mortar material that is ideal where fast strength gain, high durability and low shrinkage are desired. SH 400 sets in 15 minutes and achieves structural strength in 1 hour.
