Con esta herramienta te facilitamos un acceso a todas las ofertas y demandas de tecnología europeas y a búsquedas de socios para participar en propuestas europeas de I+D publicadas en la red Enterprise Europe Network, pudiendo filtrar los resultados para facilitar las búsquedas más acordes con tus necesidades.

¿Quieres recibir estos listados de oportunidades de colaboración en tu correo de forma periódica y personalizada? Date de alta en nuestro Boletín

Los términos de búsqueda han de ser en inglés.

Búsqueda de licencitario para composites basados en geopolímeros de fibra corta reforzados con nanopartículas

Resumen

Tipo:
Oferta Tecnológica
Referencia:
TOCZ20170419001
Publicado:
25/04/2017
Caducidad:
25/04/2018
Resumen:
Científicos de una universidad checa han desarrollado composites basados en geopolímeros de fibra corta reforzados con nanopartículas. Los geopolímeros poseen propiedades mecánicas comparables a las de los materiales basados en cemento Portland, pero ofrecen un rendimiento superior en cuanto a la resistencia al calor y a los ácidos. Los composites desarrollados son resistentes a altas temperaturas (hasta 800º C). La tecnología está indicada para empresas de los sectores de la construcción y energía. La universidad busca socios industriales dedicados a la fabricación de composites e interesados en adquirir la licencia de producción.

Details

Tittle:
Licensee for short-fibre geopolymer-based composites reinforced with nanoparticles is sought
Summary:
Scientists at a Czech university have developed short-fibre geopolymer-based composites reinforced with nanoparticles. The solution offered is based on high temperature resistant composites. The scientists are looking for industrial partners, who are manufacturing composites and are interested in acquiring a license for production. License agreements are sought.
Description:
Geopolymers are produced by mixing aluminate and silicate containing minerals or alumina-silicates with an activating highly alkaline solution. As a result a three dimensional network of silica and alumina tetrahedra sharing oxide-bonds is formed. Geopolymers possess mechanical properties which are comparable with materials based on ordinary Portland cement, and they have superior performance regarding heat and acid resistance.

The novelty of the solution offered by the Czech researchers is based on the use of nano-fillers and micro-fillers in the composite. It provides improved mechanical properties compared to competitors and is environmentally friendly. The main advantage is the possibility of geopolymer composites for high temperature applications (up to 800°C).

The technology is suitable for companies involved in the field of construction or energy industry. The technology is ready for manufacturing the composite and is ready for transfer to the industry and mass utilization. That is why the technology developers are looking for a licensee based on a licensing agreement. The subject of the license will be know-how for manufacturing the short-fibre geopolymer-based composites reinforced with nanoparticles.
Advantages and Innovations:
- Environmentally friendly material in comparison with a normal concrete, due to lower production temperatures

- Aesthetic and technical performance, compared with normal concrete, due to the possibility of hardening and colouring

- Availability of high temperature applications (up to 800°C) in comparison with normal concrete (only up to 500°C)
Stage of Development:
Available for demonstration
IPs:
Patents granted
CommeR Statunts Regarding IPR Status:
Patent granted in the Czech Republic.

Partner sought

Type and Role of Partner Sought:
Type of Partner Sought:
Industry

Specific area of activity of the partner:
Manufacturers or companies involved in the field of construction or energy industry

Tasks to be performed by the partner sought:
The University would like to cooperate with a partner from industry, who would like to manufacture the offered technology based on a licensing agreement.

Client

Type and Size of Client:
University
Already Engaged in Trans-National Cooperation:
Si
Languages Spoken:
Czech
English
Polish
Slovak

Keywords

Technology Keywords:
02007002 Building materials
02007005 Composite materials
02006002 Construction methods and equipment
02006001 Materials, components and systems for construction