Adhesives & sealants
The development of new materials with diverse applications puts additional challenges on processing technology. This is particularly so when different materials have to be joined to make components which retain their individual beneficial properties in the composite product. Traditional joining techniques have well-known disadvantages. With thermal techniques such as welding, the specific properties of the material alter within the heat-affected zone. Mechanical techniques such as riveting or the use of screws in their turn only allow force transfer at points; in addition, it is necessary to drill holes in the work pieces that are being joined, and this “damages” and hence weakens the materials. In contrast, it is anticipated that bonding technology will assume an ever more important role in industry and the handicraft sector in the future.
It is also possible to use bonding technology to introduce customized additional properties into the component via the actual joining. In addition, the use of bonding technology in industrial production can lead to time savings, can accelerate the production process and hence give rise to specific economic benefits. In shipbuilding, for example, the inside decks can nowadays be bonded into the primary structure, so eliminating time-consuming straightening work that would be required if the inside decks were attached by welding.
The use of bonding technology in production processes in general allows the material properties of the substrates to be retained. Compared to welding and soldering/brazing, the bonding process requires relatively little heat input. No damage occurs, unlike when rivets or screws are used.