Plastic laser welding is an advanced joining technology that utilizes the high energy density of a laser beam to melt plastic materials, thereby achieving material bonding. Below are some common methods of plastic laser welding:

Contour Welding: The laser moves along the contour line of the plastic welding layer, melting it and gradually bonding the plastic layers together. Alternatively, the clamped layer can be moved along a fixed laser beam to achieve welding. This method offers great flexibility and freedom, making it suitable for welding complex two-dimensional or three-dimensional parts. In the medical device field, components with specific shapes, such as catheter connectors or instrument housings, can use contour welding to achieve precise connections.

Simultaneous Welding: Laser beams from multiple diode lasers are shaped using optical elements and guided along the contour of the welding layer. Heat is generated simultaneously across the entire contour line, causing it to melt and bond together at once. Simultaneous welding has a short processing cycle and minimal thermal deformation, making it ideal for medium- to large-scale production. In medical device manufacturing, products like disposable syringes and IV tubes can benefit from simultaneous welding to improve production efficiency and product quality.

Quasi-Simultaneous Welding: Also known as scanning welding, quasi-simultaneous welding combines the features of sequential contour welding and simultaneous welding. A high-speed laser beam (up to 10 meters/second) is generated using mirrors and moved along the welding area, gradually heating and fusing the entire weld. Quasi-simultaneous welding offers good flexibility and freedom, making it suitable for simple two-dimensional plane welding. In the medical device field, flat plastic components like electronic blood pressure monitor displays or glucose meter panels can be joined using this technique.

Mask Welding: The laser beam is positioned through a template, melting and bonding the plastic. The template exposes only a small, precise welding area on the underlying plastic layer, and the laser heats only the uncovered parts of the product. This technique allows for highly precise welding down to 10 microns. In the medical device industry, components requiring high-precision welding, such as microfluidic chips or sensors in implantable devices, can use mask welding to ensure accuracy and reliability.

Rolling Welding: Rolling welding is an innovative laser plastic welding process available in different forms, such as Globo ball welding and Roller drum welding. The advantage of rolling welding is that the metal rollers do not wear out, which is beneficial for large-scale production. However, the pressure applied by the rollers to the edges of the welding line can create torque, leading to various welding defects.

Different materials and products require different welding techniques. For more detailed information about plastic laser welding, please consult with a plastic laser welding machine manufacturer—Wanzhong Laser.