Polymers and composites
Graphene’s two-dimensional structure in the nanoplatelet form results in very high performance, high aspect ratio, high surface area materials which are particularly suited to enhancing the mechanical and physical properties of polymer and composite materials and applications.
How do AGMs Graphene Nanoplatelets work?
AGM’s is proud to offer graphene nanoplatelets dispersions that are safe to handle and easily stirred into new and existing coatings systems to provide a range of enhancing performance benefits. Across our product ranges, we offer different types graphene nanoplatelets. These vary in surface morphology, oxygen content and the number atomic layers but typically have a thickness between 1 to 10nm with 1-25µm lateral platelet diameter, this gives aspect ratios up to 1:1000 and surface areas up to 700m2/g.
With the correct incorporated, graphene nanoplatelets have the potential to significantly enhance an array of properties including mechanical, barrier, thermal, lubricating and electrical performance in new and existing industrial systems.
The benefits of graphene nanoplatelet enhanced composite materials include:
- Delivers significant increases in fracture toughness, matrix modulus, laminate interlaminar shear strength and ultimate fatigue performance
- Outstanding performance under hot/wet environmental conditioning
- Additional multi-functional benefits
- Exceptionally low loading levels
- Extensive in-house product integration expertise
Our product range is designed to guide you towards the most appropriate dispersion for your system, whether that is one of our standard Genable® products or a customised dispersion in a polymer matrix or composite material of your choosing.
Our latest customer success stories can be found in our recent collaborations in our latest newsletter. To speak to a member of our sales team to discuss how our exciting graphene nanoplatelets could be used in your product or if you have any question, please don’t hesitate to get in touch on +44 (0)1642 438214 or via our Contact Us.