
Silicone ink is a specialized type of ink developed from a Polysiloxane base—a polymer known for its flexibility, elasticity, and excellent heat resistance. This ink is commonly used in screen printing, especially on highly stretchable fabrics such as cotton, polyester, and spandex. One of the key advantages of silicone ink is its ability to create 3D raised printing effects with customizable gloss or matte finishes. It offers strong adhesion and resists cracking or peeling even when the fabric is stretched. As a result, silicone ink has become increasingly popular in the fashion industry, particularly for sportswear, high-end apparel, and garments that require both aesthetics and durability.
32 products in category "Silicone Ink"
High Elastic Silicone Underbase Ink
High Elastic Silicone Underbase Ink is designed for silicone printing applications requiring excellent stretchability and elastic recovery on sportswear and stretch fabrics.
Molding Silicone Ink
Molding Silicone Ink is a silicone ink specifically designed for shape retention and structural forming applications. After molding and heat curing, the silicone layer not only creates raised effects but also provides enough hardness or elasticity to maintain a stable molded structure. It is commonly used for raised ribs, protective edges, technical grip areas, and functional details on garments, footwear, and accessories. Compared to standard embossing silicone ink, molding silicone ink focuses more on technical performance and mechanical durability rather than decorative raised effects alone. It offers excellent resistance to deformation, friction, and stress while maintaining strong adhesion on stretchable materials, making it suitable for sportswear, protective wear, and high-performance applications.
Silicone Thinner (Slow Dry)
Silicone Thinner (Slow Dry) is designed to reduce silicone ink viscosity with slow evaporation performance for machine printing and hot production environments.
Silicone Thinner (Fast Dry)
Silicone Thinner (Fast Dry) is designed to reduce silicone ink viscosity with fast evaporation performance for hand printing and low-temperature environments.
Molding Silicone Additive
Molding silicone additive is designed to support shaping applications and enhance high-density embossed effects for molding silicone inks. It improves mold filling performance, increases sharpness, provides easier mold release, and enhances stability during heat pressing processes.
Molding Silicone Ink Type 8025A
Molding Silicone Ink is a silicone ink specifically designed for shape retention and structural forming applications. After molding and heat curing, the silicone layer not only creates raised effects but also provides enough hardness or elasticity to maintain a stable molded structure. It is commonly used for raised ribs, protective edges, technical grip areas, and functional details on garments, footwear, and accessories. Compared to standard embossing silicone ink, molding silicone ink focuses more on technical performance and mechanical durability rather than decorative raised effects alone. It offers excellent resistance to deformation, friction, and stress while maintaining strong adhesion on stretchable materials, making it suitable for sportswear, protective wear, and high-performance applications.
Silicone Retarder
Silicone Retarder is designed to extend operation time, reduce premature drying, and improve printing stability in silicone printing applications.
Molding Silicone Ink Type 8025A
Molding Silicone Ink is a silicone ink specifically designed for shape retention and structural forming applications. After molding and heat curing, the silicone layer not only creates raised effects but also provides enough hardness or elasticity to maintain a stable molded structure. It is commonly used for raised ribs, protective edges, technical grip areas, and functional details on garments, footwear, and accessories. Compared to standard embossing silicone ink, molding silicone ink focuses more on technical performance and mechanical durability rather than decorative raised effects alone. It offers excellent resistance to deformation, friction, and stress while maintaining strong adhesion on stretchable materials, making it suitable for sportswear, protective wear, and high-performance applications.