Holding Tape
Holding Tapes are high-performance adhesive tapes designed to provide secure holding, positioning, and temporary fixation of components during various industrial processes. Manufactured with durable backing materials and high-tack adhesive systems, these tapes ensure strong bonding strength while maintaining controlled removal when required.
They are engineered to deliver reliable performance across different surfaces, making them suitable for demanding applications where stability and precision are essential.
Product Benefits:
- Strong holding power for secure fixation
- Excellent adhesion on multiple surfaces
- Resistant to heat and mechanical stress
- Easy application with consistent performance
- Clean removal without surface damage (depending on application)
Holding Tapes are widely used in applications where temporary or semi-permanent holding of parts is required during manufacturing, assembly, or finishing processes. They provide dependable support to hold components in place without shifting, ensuring accuracy and process efficiency.
Their balanced adhesive strength allows them to secure materials firmly while still enabling repositioning or removal when necessary.
These tapes are extensively used in automotive assembly for holding trims, wiring, protective covers, and components during painting or processing. They are also commonly applied in industrial manufacturing, packaging, surface protection, and general assembly operations. Holding Tapes perform effectively on metal, plastic, glass, and painted surfaces, delivering consistent results across a wide range of materials and working conditions.
These tapes are extensively used in automotive painting for body lines, color separation, pin striping, and custom vehicle graphics. They are also used in industrial painting, decorative coatings, and specialty finishing applications where high-quality surface appearance is critical. Fine Line Masking Tapes perform consistently on metal, plastic, glass, and painted surfaces, ensuring professional results across different materials.