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Sistema de polímeros electro activos dieléctricos para aplicaciones industriales

Resumen

Tipo:
Oferta Tecnológica
Referencia:
TODE20141127001
Publicado:
28/11/2014
Caducidad:
28/11/2015
Resumen:
Un instituto de investigación alemán ofrece servicios de I+D para la optimización y desarrollo de polímeros electro activos dieléctricos que se utilizan como actuadores, sensores y generadores de energía, por ejemplo, en los campos de automoción, automatización, energía, medicina, etc. También es posible descubrir nuevas aplicaciones. Los procesos de desarrollo estandarizados permiten reducir el tiempo de desarrollo y disminuir los costes. Se buscan socios académicos/industriales en varios sectores para establecer acuerdos de investigación, cooperación técnica y servicio.

Details

Tittle:
Dielectric electro active polymer system for industrial application
Summary:
A German research institute offers R&D services for the optimization and development of Dielectric Electro Active Polymers for the usage as actuators, sensors and energy harvesters, e.g. in the fields of automotive, automation, energy, medicine etc. New applications can be found. Standardized developing processes lead to shorter development time and decreasing costs.They look for industrial/academic partners from various sectors for research, technical and/or service agreement cooperation.
Description:
Today's markets demand robust and effective components for lightweight constructions in nearly every engineering discipline. Dielectric Electro Active Polymers (DEAP) are functional materials which can be used as actuators, sensors and generators in active structures. A research institute of a German University of Applied Sciences offers R&D services for the optimization and development of DEAPs.

DEAP systems combine valuable attributes that are desireable for many industrial tasks. The German institute provides the necessary simulation methods and know-how for testing, optimizing and adapting these structures within an industrial application. Numerous experimental and numerical investigations contribute to increasing the efficiency and the robustness during the life cycle of a DEAP system. These studies lead to an accurate testing method to evaluate the reliability of DEAP systems under the influence of different disturbances, which can appear during the operating mode.

A special developed DEAP system is tailored to meet the expectation of a certain industrial application. With respect to the durability ("ageing") and realiability the obtained insights determine the degree of applicability of the DEAP system under realistic environmental conditions. Therefore, the results provided by the institute make a considerable contribution to promote a marketable product.

The optimized DEAP system ensures maximized performance and minimized production costs. Ideally, optimized DEAP systems improve their efficiency regarding the energy and the life cycle cost of the customer. Therefore, this optimization leads to a technological progress in manufacturing and reduction of further costs, which can occur during the life cycle.

Novel innovative products based on DEAPs can increase the efficiency compared to other technologies. Moreover, new applications can be found by an appropriate mechatronical DEAP system.

The German research insitute looks for industrial/academic partners from various sectors for research, technical and/or service agreement cooperation.
Advantages and Innovations:
1. Own developed multi-physical nonlinear FE (=finite element) simulations including rigid body dynamic simulations , optimization algorithms and test benches increase the optimization process of a robust and efficient DEAP system
2. Standardized developing process considering industrial guidelines leads to shorter development time and decreasing costs.
3. Lightweight and active structures which can react towards several environmental conditions can increase the durability and lower the maintenance time.
Stage of Development:
Under development/lab tested
IPs:
Secret Know-how

Partner sought

Type and Role of Partner Sought:
- Type of partner sought:
Universities, institutes and companies with interest in the technology of DEAP.
It is desirable that the partner has a concrete specific application for the DEAP technology.
The background of the partners request can be manifold, .e.g. regarding manufactoring issues, finding new solutions for open applications within e.g. automotive, automation, medicine, energy sector.
A detailed distribution of tasks between the partners will be planned with regard to the final project aim. Here, the partner should involve his request by joining the institute in several research activities. First contacts with microelectronics and smart material technologies are desireable.

Client

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

Keywords

Technology Keywords:
02006006 Ingeniería de la construcción (diseño, simulación)
02007005 Materiales compuestos
02007022 Materiales conductivos
02007019 Materiales ligeros
02007014 Plásticos, polímeros