Multi-Material Compatible Bonding Solutions: Hot Melt Adhesive Film Effectively Enhances Peel Strength for Metal Textile

With the demand for process precision in 3C electronics and advanced manufacturing continues to rise, mastering the correct and efficient application of hot melt adhesive films has become essential for enhancing product yield. Shenzhen Tunsing Plastic Products Co., Ltd. (Tunsing) has released a standardized "Six-Step Application Method" based on the latest DS318 technical guidelines and operational flowcharts.

Before beginning the bonding process, verify the compatibility between the hot melt adhesive film and the materials to be bonded (Material A and Material B). The Tunsing DS318 is specifically engineered for high-performance bonding of textiles, metals, plastics, and wood.

Place the adhesive side of the film in contact with Material A. Using heat press equipment, apply a short burst of pressure (0.3-0.6 MPa) at the recommended mechanical mold temperature (110°C-160°C) to pre-attach the film to the surface of Material A.

Once the initial attachment is complete, peel off the backing release paper (such as glassine paper). This leaves a uniform layer of hot melt adhesive on Material A, exposing the active adhesive surface for the final bond.

Align Material A (now coated with the adhesive) precisely with the target Material B. Ensure both contact surfaces are flat and free of contaminants to guarantee maximum bonding strength.

Apply heat and pressure once more using the press equipment. According to DS318 technical specifications, the recommended second lamination time is between 8 and 25 seconds. During this phase, the adhesive crosses its transition temperature (approximately 84.2°C), shifting from a solid to a fluid state to fully penetrate the surfaces of both substrates.

The bonded assembly must undergo a cooling process to form the finished product. Cooling allows the adhesive to re-solidify, establishing stable intermolecular forces that ensure a robust and durable bond.

Tunsing technical experts advise: "Actual bonding temperature, pressure, and time should be fine-tuned based on specific machinery and material characteristics. Ideal processing conditions should be established through small-scale testing to ensure the specific strength requirements of the application are met.