April 11, 2014
New Self-Healing Plastics Developed
Researchers of KIT and Evonik Industries Have Developed a Novel Polymer Network that Selfheals Rapidly and Repeatedly at Relatively Low Temperatures
Scratches in the car finish or cracks in polymer material: Self-healing materials can repair themselves by restoring their initial molecular structure after the damage. Scientists of the Karlsruhe Institute of Technology and Evonik Industries have developed a chemical crosslinking reaction that ensures good short-term healing properties of the material under mild heating. The research results have now been published in the Advanced Materials journal.
It took about four years of research for the working group of Barner-Kowollik, together with the Project House Composites of Creavis, the strategic innovation unit of Evonik, to develop a novel polymer network. At comparably low temperatures from 50°C to 120°C, the network exhibits excellent healing properties within a few minutes. Reducing the time needed for healing and optimizing the external conditions, under which the healing process takes place, are the major challenges of research relating to self-healing materials. Using the healing cycle developed by them, the KIT researchers have found a large number of intermolecular compounds that close again within a very short term during cooling. Mechanical tests, such as tensile and viscosity tests, confirmed that the original properties of the material can be restored completely. “We succeeded in demonstrating that test specimens after first healing were bound even more strongly than before,” Barner-Kowollik says.
The self-healing properties can be transferred to a large range of plastics known. Apart from self-healing, the material is given another advantageous property: As flowability is enhanced at higher temperatures, the material can be molded well. A potential field of application lies in the production of fiber-reinforced plastics components for automotive and aircraft industries.
In the consortium developing the novel crosslinking reaction, the chemical company of Evonik is the industry partner. The research partners of KIT are the Leibniz Institute of Polymer Research, Dresden, and the Australian National University, Canberra.
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