multiphysics simulation Expertise
Software and engineering services for industrials
Piezoelectric materials and ultrasound waves propagation.
How can we help you on these topics?
High value services and software
We have spent more than 10 years helping SMEs, start-ups and larger companies to use numerical modelling to develop their products and processes. As experts in multiphysics simulation, we promote the use of these digital technologies to improve your designs. Companies in the healthcare, environment, energy, robotics, microelectronics and other sectors can optimise their products and production equipment with our research services, software applications and training courses.
Numerical models for ultrasonic applications
With ultrasounds, numerical simulation is used to model wave propagation in solids and in fluids. This technique provides a better understanding of the interactions at each media interface, such as reflection or absorption of the ultrasonic energy. It helps to develop new materials and devices for various applications, such as smart ultrasonic flowmeters for water consumption monitoring, or the treatment of tumours and other diseases through the heating and vibration of focused ultrasounds.
Digital twin for piezoelectric devices
Piezoelectricity is the conversion of mechanical to electrical energy (or electrical to mechanical) and their properties are useful for several products and processes where ultrasound waves exist. Using digital twins to optimise the design of piezoelectric actuators and sensors, their quality and efficiency, and combining them with artificial intelligence algorithms, the digital piezoelectric device can be tested in new environments and its performance improved before to install it on a physical product.
Multiphysics simulation for all industries
While specialising over the years in the modelling of ultrasonic and piezoelectric applications, EMC3 Consulting has been a multiphysics simulation expert and partner of many companies developing products where heat transfer, fluid mechanics (CFD), structural mechanics, electromagnetism, chemistry, and obviously acoustics phenomena, exist and are often combined together.
One example is the shrink-fitting of two parts (rotor and stator) from the induction-heating process illustrated above.
One example is the shrink-fitting of two parts (rotor and stator) from the induction-heating process illustrated above.