News from RBF Morph
22 February 2021
High fidelity fluid-structure interaction by radial basis functions mesh adaption of moving walls: a workflow applied to an aortic valveAn interesting article titled High fidelity fluid-structure interaction by radial basis functions mesh adaption of moving walls: a workflow applied to
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20 January 2021
Analysis of Vortex Induced Vibration of a thermowellToday the need for developing multi-physics approaches in order to address modern and complex design challenges is rising. A typical
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10 December 2020
RBF Morph at Simulation SummitWe are so proud to have participated at Simulation Summit, the first independent italian conference about CAE Simulation in the industrial
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4 December 2020
Two companion papers about our RIBES wing published in ASCE’s JournalTwo companion papers, summarizing the numerical/experimental activity performed within the RIBES project, have been finally accepted for publication in ASCE’s
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25 November 2020
Presentation given at BIOMA 2020 are now available to downloadBIOMA is a key conference specifically focusing on bioinspired optimisation methods and their applications. This international conference provides an opportunity
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24 November 2020
RBF Morph to Sponsor the 36th International CAE Conference and ExhibitionRBF Morph will join the 36th International CAE Conference and Exhibition that will be held online from November 30th to
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15 November 2020
A novel formulation for the study of the ascending aortic fluid dynamics with in vivo dataAn interesting article titled A novel formulation for the study of the ascending aortic fluid dynamics with in vivo has
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21 October 2020
Presentation given at Esteco UM20 are now available to downloadAt Esteco UM20 our CTO Marco E. Biancolini showed how advanced mesh morphing allows creating a set of shape variations which
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8 October 2020
Learn how RBF Morph and Ansys makes easy and flexible the study of curved PCBOver the last decade, electronic products have become increasingly complex and dense as they support more functions into dramatically reduced
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