High Frequency Welding Machine Manufacturer/RF PVC welding machine for welding plastic,etc.
High Frequency Welding, known as Radio Frequency (RF) or Dielectric welding, is the process of fusing materials together by applying radio frequency energy to the area to be joined. The resulting weld can be as strong as the original materials. HF Welding relies on certain properties of the material being welded to cause the generation of heat in a rapidly alternating electric field. This means that only certain materials can be welded using this technique. The process involves subjecting the parts to be joined to a high frequency (most often 27.12MHz) electromagnetic field, which is normally applied between two metal bars. These bars also act as pressure applicators during heating and cooling. The dynamic electric field causes the molecules in polar thermoplastics to oscillate. Depending on their geometry and dipole moment, these molecules may translate some of this oscillatory motion into thermal energy and cause heating of the material. A measure of this interaction is the loss factor, which is temperature and frequency dependent.
Polyvinylchloride (PVC) and polyurethanes are the most common thermoplastics to be welded by the RF process. It is possible to RF weld other polymers including nylon, PET, PET-G, A-PET, EVA and some ABS resins, but special conditions are required, for example nylon and PET are weldable if preheated welding bars are used in addition to the RF power.
HF welding is generally not suitable for PTFE, polycarbonate, polystyrene, polyethylene or polypropylene. However, due to the impending restrictions in the use of PVC, a special grade of polyolefin has been developed which does have the capability to be HF welded.
The primary function of HF welding is to form a joint in two or more thicknesses of sheet material. A number of optional features exist. The welding tool can be engraved or profiled to give the entire welded area a decorative appearance or it can incorporate an embossing technique to place lettering, logos or decorative effects on the welded items. By incorporating a cutting edge adjacent to the welding surface, the process can simultaneously weld and cut a material. The cutting edge compresses the hot plastic sufficiently to allow the excess scrap material to be torn off, hence this process is often referred to as tear-seal welding.
A typical plastic welder consists of a high frequency generator (which creates the radio frequency current), a pneumatic press, an electrode that transfers the radio frequency current to the material that is being welded and a welding bench that holds the material in place. The machine could also have a grounding bar that is often mounted behind the electrode, which leads the current back to the machine (grounding point). There are different types of plastic welders, the most common being tarpaulin machines, packaging machines and automated machines.
By regulating the machineās tuning, the field strength can be adjusted to the material being welded. When welding, the machine is surrounded by a radio frequency field that, if too strong, can heat up the body somewhat. This is what the operator needs to be protected from. The strength of the radio frequency field also depends on the type of machine being used. Generally, machines with visible open electrodes (unshielded) have stronger fields than machines with enclosed electrodes.
When describing radio frequency electromagnetic fields, the fieldās frequency is often mentioned. The permitted frequencies for plastic welders are 13.56, 27.12, or 40.68 megahertz (MHz). The most popular industrial frequency for HF welding is 27.12MHz.
The radio frequency fields from a plastic welder spread out around the machine, but most often it is only right next to the machine that the field is so strong that precautions need to be taken. The fieldās strength decreases sharply with distance from the source. The strength of the field is given in two different measurements: the electric field strength is measured in volts per metre (V/m), and the magnetic field strength is measured in amperes per metre (A/m). Both of these must be measured to get an idea of how strong the radio frequency field is. The current that goes through you if you touch the equipment (contact current) and the current that that goes through the body when welding (induced current) must also be measured.
Advantages of High Frequency Welding Technology
- HF sealing occurs from the inside out by using the material itself as a heat source. The heat is focused at the weld target so that the surrounding material does not have to be super-heated to arrive at a target temperature at the joint.
- With HF heating is generated only when the field is energized. Once the generator cycles, the heat is turned off. This allows for greater control over the amount of energy that the material sees over the entire cycle. In addition, HF-generated heat does not radiate off the die like on a heated die. This prevents heat-degredation of the material abutting the weld.
- HF tooling is usually run “cold”. This means that once the HF is turned off, the material stops being heated, but remains under pressure. In this fashion it is possible to both instantly heat, weld, and cool the material under compression. More control over the weld results in more control over the resulting extrusion, thus increasing the weld strength.
- RF welds are “clean” because the only material needed to produce an HF weld is the material itself. There are no adhesives or by-products involved in HF