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, mainly made of austenitic stainless steel material. Detection, localization and characterization of potential defects with ultrasonic methods are difficult to be mastered. Indeed, heterogeneous and
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programme Is the Job related to staff position within a Research Infrastructure? No Offer Description Ultrasonic energy harvesting has lately been introduced as a promising wireless energy transfer solution
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Description Ultrasonic energy harvesting has lately been introduced as a promising wireless energy transfer solution to power miniaturized wearable and implantable electronic devices for wireless communication
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Supervisory Team: Suan Hui Pu, Liudi Jiang, Kui Yao (A*STAR IMRE, Singapore) Project description With the outstandingly large penetration depth, ultrasonic waves allow safe and non-invasive
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PhD (M/F) Nano-porous silicon-elastomer hybrid: Mechanical properties assessed by laser ultrasonics.
hybrids: from liquid-crystalline functionalization to tunable elasticity assessed by laser ultrasonics", conducted in collaboration with the Hamburg University of Technology. (Institute for Materials and X
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-funded 3.5-year research on developing new methods for ultrasonic non-destructive characterisation of complex materials. We invite you to join the Dynamics Group within the University's Institute of Sound
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and optimization lifetime tool for ultrasonic welding Supervisor: doc. Ing. Jozef Žarnovský, PhD. Workplace: Faculty of Engineering Field
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Institut Lumière Matière ILM- UMR 5306 CNRS / Université Claude Bernard Lyon 1 | Villeurbanne, Rhone Alpes | France | 5 days ago
-acoustic techniques present an alternative approach. These techniques utilize laser light to generate and probe high frequency ultrasonic waves. In this project, we propose to leverage opto-acoustic schemes
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on model colloidal gels, revealing substantial softening under ultrasonic vibrations associated with the nucleation of micron-sized cracks within the gel network [Physical Review X 10, 011028 (2020)]. Within
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photocatalysis in a single process unit. In this regard, SPHERA will explore the potential of ultrasound technologies to engender hydrogen by mechanical stimulation of water using ultrasonic waves (20–1000kHz) and