Interested in building relationships with the industry? Looking for feedback and guidance from companies?
Get out of the Lab!
Universities know that some problems can’t be solved in isolation in a lab, and industry feedback is key to taking an invention or product from conception to market.
At the same time universities are pushing boundaries and leading science – industry wants to get in on the ground level. Companies who are aligned with early-stage research see early signals of what’s going to be the next big opportunity, and they get a head start on the competition.
AdhesivePlatform is active in the adhesives and sealants industry. We have connections with many big and small companies, both end-users and suppliers. We offer the opportunity to universities and their research staff, to connect with the industry. This to establish and maintain solid university and industry collaboration.
University-industry collaboration is instrumental in fortifying the ability of the universities to undertake high-quality research and enhance the capability of the firms to compete globally.
Are you looking for a mutually beneficial partnership with the industry? We’re happy to help you and connect you. In the end, it’s all about making connections with people. It’s not companies and universities that make great relationships; it’s the people at companies and the people at universities.
Mixing denim cotton and glue
Students at a Fashion Institute are working on a project to develop products out of fabric scraps. Like for instance bricks that can be used in a facade in store interiors, and many other products. This is done by mixing fabric scraps (denim-made from cotton) and glues/binders. The scraps are sourced from denim manufacturers.
The glue they are looking for should be eco-friendly, non-toxic and should be developed without harm to the environment. So no PVA or anything with Formaldehyde. The need is a “bio-based/soy based/eco friendly” glue that shall bond the fabric scraps together, and harden as solid.
Biodegradable microfluidic devices
Research staff at an US University has been partnering with a start-up company to commercialize one of their inventions. They are currently prototyping the product.
They are making biodegradable microfluidic devices. They now have a bottom microfluidic layer made of a type of copolyester, and a transparent top layer made of PVDC coadded cellulose. These are both industrial compostable materials. They’ve been trying different ways to bond them together but none of them work.