A new project at the Fraunhofer CSP is researching production processes for connecting photovoltaic modules with aluminum components so that efficient energy generation, architectural freedom of design and cost-effective manufacturing processes are combined. Initial results will be presented at the EU PVSEC from September 23 to 27 in Vienna.
Sustainable solar modules made from renewable raw materials
In the recently completed project “E2 - E-Quadrat. Renewable energies from renewable raw materials” the Fraunhofer CSP, together with partners, has developed a solar module in which the components that are not directly required for light-to-electricity conversion are made from biodegradable materials, recyclable materials or renewable raw materials.
Fraunhofer and Korean Institute of Energy Research cooperate on hydrogen and renewable energies
Three Fraunhofer Institutes and the Korean Institute of Energy Research (KIER) want to intensify their exchange on hydrogen, photovoltaics and wind energy topics. To this end, a cooperation agreement was signed today in Halle (Saale).
Accelerated development and manufacturing processes for rubber compounds
The Fraunhofer IMWS in Halle (Saale) is working with six partners to develop intelligent algorithms and methods that support the production of application-optimized rubber compounds. The goal is software that uses information on formulation and processing conditions to derive predictions and optimization strategies.
Efficient thermoplastic composite manufacturing methods for the sustainable production of wind turbines
Automated manufacturing processes for rotor blades made from recyclable thermoplastic composites that can be produced in large quantities are being developed by three Fraunhofer Institutes in the recently launched "Thermo-Blade-Spine" project.
Basalt fiber-reinforced polymer compounds for lightweight construction applications
Compared to glass fibers, basalt fibers offer considerable advantages in terms of energy consumption and environmental friendliness when used as a reinforcing component in thermoplastics. An automotive strip produced by injection molding as a project result demonstrates the potential of this material combination.
With its expertise in the microstructure of materials, the Fraunhofer IMWS contributes to increasing material efficiency and cost-effectiveness and conserving resources.
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We analyze the properties of microelectronics and microsystem technology components and thus increase the reliability and performance, for example, of computer chips and sensors.
We open up new potential for the use of polymers - for example, as lightweight construction materials for the automotive and aviation industry, in efficient tyres or as plastics made of renewable raw materials.
How good are the materials used in medical engineering and biotechnology? How can cosmetic care products be improved? What can materials made from natural materials achieve? We find out.
We use our top expertise to improve technology, from wafer manufacture to module production. We develop new materials to make photovoltaics more cost effective, more efficient and more reliable.
We drive innovations for microstructure-based optimization of optical materials and coatings, as well as for laser processing technologies used in industrial applications.