This invention is used to lift people, vehicles or other objects that have gone overboard out of the water.
This invention enables the production of tailor-made extruded profiles for the forming of metals, for example in the production of pipes and the like. The process can be used in the automotive or aerospace industries.
This invention enables the production of improved magnesium alloys, which are particularly interesting as lightweight materials in the automotive, aerospace and medical technology industries.
This new type of freight car can be used in freight transport, transport, the railway industry or logistics and is more energy-efficient than conventional models due to its aerodynamically advantageous design, for example.
This new type of liquid distributor is used, for example, in absorption chillers and can replace systems that were previously more complex and more susceptible over the operating time.
The fluidized bed membrane reactor can be used in the chemical industry and is suitable for the oxidative coupling of methane and heterogeneous catalysis.
As an essential component of the so-called virtual reality (VR), this invention offers the development of a mobile haptic device with high dynamics, large displayable forces, large working space and excellent spatial resolution. It can be used for example in product development or interactions between humans and 3D environments.
The method enables a universal, fast and easy evaluation and determination of abrasive grains and is used in the production of abrasive grains and abrasives.
This invention offers a novel technology to increase the efficiency of cooling systems.
This invention enables fast, precise and highly dynamic dosing of the smallest quantities of liquid, as required, for example, in medical technology.
This invention is used in the chemical industry and enables the oxidative coupling of methane and heterogeneous catalysis.
A device and method for constructing thermoplastics reinforced with continuous filaments.
Wherever heat is generated in electronic components as a result of power loss, this must also be dissipated in order to prevent the components from overheating. The invention relates to a method for producing a composite material (metals and carbon), a composite material and a use of the composite material as a heat conductor as well as a heat exchanger. It enables an increase in the interface area and/or contact area of a redetachable and reusable thermal interface, thereby increasing the heat flow between two surfaces.
The invention enables the prediction of instability in a compressor, which allows an early warning in the event of a fault. The early warning system can be used in thermal turbomachinery, for example in aircraft engines.
In the course of the use of renewable energies, this invention offers an approach for an emission-free energy storage.
With this invention, measurements are possible wherever installation heights are low, for example on sports equipment, road and rail vehicles or even construction machinery.
The Center for Intellectual Property (ZfgE) at the TU Berlin is the central point of contact for all topics relating to intellectual property law and intellectual property.
We patent and market the inventions of the TU Berlin, and we also teach and research technical and intellectual property law.
This makes us the central contact for inventors of the TU Berlin, for cooperation partners from industry and science as well as for interested scientists and experts from the fields of technology and law.
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