New test rig components for faster development and validation
(PresseBox) - Numerical simulations have massively accelerated product development over the past few decades. A variety of scenarios can be tested in a short time and the number of necessary prototypes has been steadily reduced. Nevertheless, physical tests are widespread and will not lose significance over the next few decades. Numerical models must be validated and approval testing must be carried out. Depending on the modeling complexity, the physical test can also be more cost-efficient. In the recently completed project ?Digitization in Testing Technology?, scientists from the Fraunhofer Institute for Structural Durability and System Reliability LBF addressed the question of how physical testing can benefit from methods from the numerical world. What is the optimal combination of real and virtual world? Tunable test rig components and a mechanical hardware-in-the-loop approach have been developed. They make it possible for mechanical parameters such as stiffness rubber mount properties and structural dynamic effects to be set quickly and without modifications to the test rig. This facilitates rapid parameter variations to the test rig and further provides a new, energy-efficient interface between numerical real-time simulation and testing bench. The Fraunhofer LBF will present the results at the Automotive Testing Expo in Stuttgart from May 21-23, 2019 in hall 8, booth 8052.
The research team from Darmstadt developed tunable components and a mechanical hardware-in-the-loop interface. Tunable components allow continuous adjustment of mechanical characteristics. For example, mounts with tunable stiffness enable testing of a test specimen under different boundary conditions or the implementation of tunable vibration absorbers.
If tunable rubber mounts are used as a development tool, with stiffness and damping adjustable independently of each other, it is possible to forgo the first bearing prototypes. This makes it possible to provide the mount manufacturer with optimized specifications at an early stage of development. Mechanical hardware-in-the-loop interfaces can be used to simulate more complex boundary conditions in experiments, especially in the field of NVH development. The interface behaves equivalent to a underlying numerical model in a wide frequency range. For example, an adaptive shock absorber can be tested for different combinations of top mount and chassis without carring out any modifications to the testing bench.
rial partners.
Fraunhofer LBF in Darmstadt has stood for the safety and reliability of lightweight structures for more than 80 years. Today, with its expertise in the areas of structural durability, system reliability, vibration technology and polymer technology, the Institute provides solutions for three of the most important cross-cutting issues of the future: lightweight design, functional integration and cyberphysical mechanical engineering systems. The focus here is on solutions to social challenges such as resource efficiency and emission reduction as well as future mobility, like e-mobility and autonomous, networked driving. Comprehensive skills ranging from data acquisition in real operational field use to data analysis and data interpretation, in addition to deriving specific measures to design and improve material, component and system properties form the basis for this. Customers come from automotive and commercial vehicle construction, railway transport engineering, shipbuilding, aviation, machine and plant construction, power engineering, electrical engineering, medical engineering and the chemical industry. They benefit from the proven expertise of over 400 employees and cutting-edge technology accommodated in more than 11,560 square meters of laboratory and experimental space.
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Fraunhofer LBF in Darmstadt has stood for the safety and reliability of lightweight structures for more than 80 years. Today, with its expertise in the areas of structural durability, system reliability, vibration technology and polymer technology, the Institute provides solutions for three of the most important cross-cutting issues of the future: lightweight design, functional integration and cyberphysical mechanical engineering systems. The focus here is on solutions to social challenges such as resource efficiency and emission reduction as well as future mobility, like e-mobility and autonomous, networked driving. Comprehensive skills ranging from data acquisition in real operational field use to data analysis and data interpretation, in addition to deriving specific measures to design and improve material, component and system properties form the basis for this. Customers come from automotive and commercial vehicle construction, railway transport engineering, shipbuilding, aviation, machine and plant construction, power engineering, electrical engineering, medical engineering and the chemical industry. They benefit from the proven expertise of over 400 employees and cutting-edge technology accommodated in more than 11,560 square meters of laboratory and experimental space.
Datum: 16.05.2019 - 04:33 Uhr
Sprache: Deutsch
News-ID 1549093
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