Dear all,

An update on the http://www.legato-team.eu at work in the COVID19 response in Luxembourg. 

Check out http://www.ariana-tech.com a joint venture between Kyoto and Luxembourg. 

PhD positions on Systems Science with specialization in computational mechanics are available at the IMT School for Advanced Studies Lucca (Tuscany, Italy), see the following previous posts on imechanica:

- A call for 1 PhD position in the framework of the H2020 Marie Curie Project NewFrac (deadline: 30 June 2020): https://imechanica.org/node/24161

We study the nature of an environment-induced exceptional point in a non-Hermitian pair of coupled mechanical oscillators. The mechanical oscillators are a pair of pillars carved out of a single isotropic elastodynamic medium made of aluminum and consist of carefully controlled differential losses. The interoscillator coupling originates exclusively from background modes associated with the “environment,” that portion of the structure which, if perfectly rigid, would support the oscillators without coupling.

Achieving high damping and stiffness is challenging in common materials because of their inter-dependent scaling. Controlling extreme mechanical waves requires synergistically enhanced damping and stiffness. We demonstrate superior damping and stiffness in vertically aligned carbon nanotube (VACNT) foams that are also independently controllable by exploiting their synthesis-tailored structural hierarchy and structural gradients. They exhibit frequency- and amplitude-dependent responses with dramatically tunable dynamic stiffness while maintaining constant damping.

The Bioengineering and Surgical Research Group at Departments of Surgery and Bioengineering at the University of Maryland, a national leader in development of circulatory and extracorporeal membrane oxygenation (ECMO) support devices is seeking three qualified Postdoctoral Researchers in the fields of Implantable Medical Devices and Bioengineering and/or related disciplines.  Qualified applicants must be self-motivated, creative, and dependable and have strong communication and interpersonal skills.  Selected candidates will have the great potential to grow to est

Distinct deformation mechanisms that emerge in nanoscale enable the nanostructured materials to exhibit outstanding specific mechanical properties. Here, we present superior microstructure- and strain-rate-dependent specific penetration energy (up to ∼3.8 MJ/kg) in semicrystalline poly(vinylidene fluoride-co-trifluoroethylene) (P(VDF-TrFE)) thin films subjected to high-velocity (100 m/s to 1 km/s) microprojectile (diameter: 9.2 μm) impacts.

Wed, May 27, 2020 12:00 PM - 1:00 PM BST

Join the Synopsys Simpleware team for a webinar with 3D LifePrints on the process of producing 3D anatomical models for surgical planning and training.

You can learn more about the event and how to take part here: https://bit.ly/3djk8qU

The 2nd International Conference on Mechanical, Electronic and Robotics Engineering (MERE 2020) 

will be held in Hong Kong during November 20th-22th, 2020.

2020 the 2nd International Conference on Mechanical, Electronic and Robotics Engineering (MERE 2020) is a

forum for presenting excellent results and new challenges facing the field of Mechanical, Electronic and

For details, see the link http://ectm.et.tudelft.nl/Openings/vacancy.php?id=86. To facilitate your application, please copy your e-mail to  Jianlin081 [at] gmail.com.  

EML Webinar on May 13, 2020 will be given by Prof. Katia Bertoldi at Harvard University via Zoom meeting. 

Title: Multistable structures - from energy trapping to morphing

Time: 7 am California, 10 am Boston, 3 pm London, 10 pm Beijing on May 13, 2020

Zoom Link: https://harvard.zoom.us/j/271079684 

Zoom ID: 271 079 684