Research
The future of production technology
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IFA | Companies that offer diverse products often struggle with inefficient processes and high inventory levels. But what is the impact of removing exotic products from the portfolio? The IFA is developing a method for companies to assess this.
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match | The construction industry is currently facing three significant challenges: workforce shortage, low productivity and high environmental impact. To counter these, researchers at the match develop algorithms for robot-based additive manufacturing of near-net-shape concrete components.
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IFW | Determining the cause of cycle time fluctuations in linked production lines and predicting the effect of delays is a complex task. The IFW is investigating how artificial intelligence can be used for this purpose in the IIP-Ecosphere project.
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IPH | In cooperation with Otto Fuchs KG, IPH is researching methods to predict and avoid thin flash during flashless forging of aluminum. The development of target-oriented sealing concepts should significantly increase process efficiency in the future.
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IMPT/IQ | In order to measure the gravitational acceleration g due to gravity with high precision, scientists are developing miniaturized quantum gravimeters. These could be used on satellites and in research rockets, to study climate change or for earthquake warning.
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IMPT | The magnetic information platform (MIP), developed by a start-up from the Institute of Micro Production Technology (IMPT), is significantly more robust than RFID. The new technology can withstand high temperatures and harsh environments and can be read through metallic layers.
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IFW | Estimating the effort of production orders is a complex task. Machine learning methods can provide support, but data preparation is time-consuming. The solution: Automated data preparation and effort estimation with the JobTRADE platform.
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LZH/IPH | How can additive process chains be automated and print quality monitored? How is a component made of metal and plastic created in multi-material printing? Scientists from Lower Saxony ADDITIV have been researching this and more in the past three years.
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IW | Nickel-based superalloys are typical high-temperature materials and often used for turbine blades in jet engines. The Institute of Materials Science (IW) is investigating the microstructure of these materials and its changes under stress.