Thermally Re-mendable Cross-linked Polymers
- Technology Benefits
- Can endure multiple cycles of crack mending and structural function recovery. The self-mending properties would allow for a longer lifetime than other polymeric materials of similar strength Facile fabrication and repair procedures. For repair to be successful, does not require additional ingredients such as a catalyst, additional monomer, or a special surface treatment of the fractured surface. Hard, tough, and stable at ambient temperatures. Most of these solid polymers are transparent.
- Technology Application
- May be used in various engineering applications. Repairs visible cracks and strengthens the material after a period of use in order to prevent or delay structural failure.
- Detailed Technology Description
- Researchers at UCLA have identified and reduced to practice a method of making thermally re-mendable polymers. These transparent and colorless polymeric solids, which are composed of two components assembled by the well-known Diels-Alder reaction, can be fabricated without the use of solvent and cured at temperatures ranging from 80 C to 120 C. Once a crack is propagated in this cured material, the crack can readily be thermally repaired. Upon heating the polymeric body to 120 C, many bonds within the material break. Upon slow cooling back to room temperature, these bonds reform in a way that allows for the repair of the fracture. This procedure can successfully be repeated multiple times on the same sample.
- Supplementary Information
- Patent Number: US6933361B2
Application Number: US2002194332A
Inventor: Wudl, Fred | Chen, Xiangxu
Priority Date: 12 Jul 2002
Priority Number: US6933361B2
Application Date: 12 Jul 2002
Publication Date: 23 Aug 2005
IPC Current: C08F000260
US Class: 528365 | 528363 | 528392 | 528393
Assignee Applicant: The Regents of the University of California
Title: Thermally re-mendable cross-linked polymers
Usefulness: Thermally re-mendable cross-linked polymers
Summary: For making polymeric materials (claimed) for composites, foamed structures, structural adhesives, or insulators for electronic packaging.
Novelty: Making of polymeric material for e.g. composites or foamed structures, involves mixing maleimide moieties and furan monomers that are capable of forming thermally reversible covalent bonds with maleimide moieties
- Industry
- Chemical/Material
- Sub Category
- Chemical/Material Application
- Application No.
- 6933361
- Others
-
State of Development
This invention has been fully implemented, taken from concept to design to practice. Mechanical properties of the material have been tested under a variety of conditions.
Background
Highly cross-linked polymers have been studied for a number of engineering applications for uses such as adhesives, insulators, and electronic packaging. However, highly cross-linked polymers are also known to be brittle and susceptible to cracking. Therefore, self-mending highly cross-linked polymers hold great promise for overcoming this challenge. These polymers could also find use in automobiles, self-healing windows, and the protection of silicon chips. Several methods have been demonstrated for the creation of self-healing materials. For example, thermoplastics can be repaired by thermally melting the damaged material back together. Materials have also been fabricated that have embedded hollow fibers or capsules within the material itself, so that when a crack propagates, small molecules with the capability to repair the crack are released. However, the ability of these types of materials to self-heal multiple times is limited.
Related Materials
Additional Technologies by these Inventors
Tech ID/UC Case
20522/2002-343-0
Related Cases
2002-343-0
- *Abstract
-
UCLA researchers have identified highly cross-linked polymers capable of thermal self-repair. These polymers are mechanically strong, easily prepared, and show advantages over other self-mending polymeric materials that have been reported.
- *IP Issue Date
- Aug 23, 2005
- *Principal Investigator
-
Name: Xiangxu Chen
Department:
Name: Fred Wudl
Department:
- Country/Region
- USA
