Ultrasonic welding is particularly suitable for:
- Joining of injection-molded parts
- Embedding of membranes
- Embedding of leather, nonwoven materials, and textiles
- Staking of different types of materials
- Production of form-fit joints by swaging
- Inserting of bushes and magnets
The following variants are feasible:
Welding of molded components with joint design / Focusing of energy through the weld geometry (= energy director)
To be applied for all injection-molded parts; this process is referred to as molecular bonding. Focusing of the ultrasonic energy is performed by so-called energy directors (ERG). Energy directors may be tips or edges that must be included in the part design. The melt is formed directly between the joining parts at the contact points of the energy directors.
Plastic staking has been successfully used in industrial manufacturing for many years. Staking produces permanent joints with hardly any restrictions on material combinations and enables short process cycles, high efficiency, and great freedom of design and technical process planning.
Often alternative plastic joining methods, such as clipping, snapping or gluing do not work for reasons of material properties, operational safety, or efficiency.
Ultrasonic swaging is a closely related method and only differs from staking in that swaging does not use round or longitudinal shafts for processing but melts and reforms a ridge of plastic (either straight or rounded) around the part to be fastened.
Reforming using ultrasonics / Focusing of energy through the sonotrode
This is referred to as staking, spot welding or swaging. The melt develops through immediate contact between the weld surface of the sonotrode and the thermoplastic component. With this method it is also possible to join different types of materials, e.g. plastic-metal or glass-plastic, etc., by a form-fit bond.
BASICS OF PLASTICS
Diese Nahtvariante ist im Spritzgusswerkzeug relativ einfach zu realisieren. Bei amorphen Kunststoffen lassen sich hiermit optisch einwandfreie, hochfeste und bedingt dichte Verbindungen herstellen. Die Selbstzentrierung der Bauteile und die Aufnahme von erhöhten Scher- und Zugkräften sind weitere Vorteile.
Tongue and groove joint
The greatest strength is usually attained by using a tongue and groove joint. Gap dimensions with very small clearances create a capillary effect which causes the generated melt to penetrate through the entire joint area. This joint design requires relatively thick walls and is a fundamental recommendation, provided that all prerequisites are met.
Double V joint
This joint is recommended for components with a wall thickness of less than 1.5 mm. Precise automatic centering of components and the resulting defined joint positioning contribute to high strength after welding. It should be noted that precise injection-molding and the correct adjustment of the joint are absolutely necessary.
The molded components that are to be welded lie planar on top of one another without prepared joint points and without energy director. The point of the sonotrode penetrates through the upper plate into the lower plate and so plasticizes the plastic in both components. The resulting melt partly collects in the joint and produces a local, spot weld.
It is not always possible to mold components with the necessary staking pins. Swaging is a suitable alternative for these kinds of applications. The contact face of the sonotrode must be machined appropriately for the recasting swaging process. The sequence and cycle times of the process correspond to those of staking. Ultrasonic swaging allows for reforming of large formats and could include the entire circumference of the components.
Using ultrasonics for staking allows thermoplastic molded components to be quickly and cleanly joined with metallic or other non weldable materials.
There is no need for other additional consumables. The heat resulting from the staking process can be dissipated by means of an air-cooled sonotrode. After the actual staking process, the system provides a pre-selected hold time so that the melt can fully solidify under static pressure. In this way, reset forces are blocked, which in turn ensures accurate and zero-clearance joints.