BioSwitch

Project Image:
Title of the project:

BioSwitch

Teasertext:
Switchable adhesives based on biogenic raw materials
Start:
17.08.2015
End:
31.12.2017
Project leader:
Dipl.-Ing. Sebastian Wagner
Project funding:
  • Landeskreditbank Baden-Württemberg Förderbank (L-Bank)
Project management:
  • Ministerium für Wirtschaft, Arbeit und Wohnungsbau Baden-Württemberg
Funding reference number:
7-4332.62-NMI/52
Text:

Bonding and unbonding "at the push of a button" is particularly popular in industry. The removal of adhesive allows repairs to be carried out on the component, and recycling by type is also made easier. It is important that the bonded joint remains reliable under all operating conditions. The release of the connection must therefore only be carried out in a controlled manner and at a specified time.

Description:

The separation of an adhesive bond can be carried out both chemically and physically. Preference is given to physical separation processes, which can still be subdivided into thermal and mechanical processes. A thermal separation process is the pyrolysis of the adhesive. Depending on the temperature range, the joining partners may also be damaged. In mechanical processes, the joint is separated by cutting or breaking, which can also cause damage to the parts to be joined. The formulation of blowing agents offers a combination of thermal and mechanical separation processes. The blowing agent increases its volume enormously above a certain temperature. This reduces the strength of the bonded joint and enables easy separation of the joining partners.

The overall aim of the project is to investigate sustainable adhesive formulations and processing processes that enable reversible bonding and debonding of joining partners by induction. In line with the call for tenders for Technological Resource Protection issued by the Baden-Württemberg Ministry of Finance and Economic Affairs, the work planned in the project represents an important contribution to a secure, stable and affordable supply of raw materials, as it enables efficient joining and separation processes as well as non-destructive separation and reuse or material recycling of components made of strategically important and economically attractive materials.

Fast adhesive curing by means of an external stimulus enables rapid curing with long processing times. The "formulation" of nanoparticles and propellants is intended to achieve better properties of the adhesives than by mixing them in.

The essential, innovative aspect of the project is the use of biogenic, hyperbranched polypeptides, for the functionalization of which covalently crosslinkable groups, blowing agents and polymer-bound nanoparticles are used as essential building blocks of the adhesive formulations. In comparison to existing solutions based on high-frequency technology, the use of new inductors at lower frequencies will lead to improved scalability for inductive curing and switching of the adhesives. This approach is intended to solve the many problems that have arisen so far in the introduction of switchable adhesive bonds into bonding technology.

Project partners:
  • 3M Deutschland GmbH
  • Alfred Kärcher GmbH & Co.
  • Automotive Lighting GmbH
  • Becktronic GmbH
  • fischerwerke GmbH & Co. KG
  • IFF GmbH
  • Polytec PT GmbH
  • Sika Deutschland GmbH
  • tewipack Uhl GmbH
  • UHU GmbH & Co. KG
  • Vectron International GmbH