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The demand for smaller and faster devices has encouraged technological advances resulting in the ability to manipulate matter at nanoscales that have enabled the fabrication of nanoscale electromechanical systems. With the advances in materials synthesis and device processing capabilities, the importance of developing and understanding nanoscale engineering devices has dramatically increased over the past decade. Computational Nanotechnology has become an indispensable tool not only in predicting, but also in engineering the properties of multi-functional nano-structured materials. The presence of nanoinclusions in these materials affects or disturbs their elastic field at both local and global scale and thus greatly influences their mechanical properties.

 

The main aim of the project is to propose, develop and validate computational Boundary Integral Equation (BIE) and Cellular Nonlinear Network (CNN) tools and apply them in numerous simulations for different mechanical models. These techniques are based on the application of the theory of integro-differential equations for solving dynamic coupled problems in multifunctional nano-heterogeneous piezoelectric and magnitopiezoelectric composites.

 

News

Conferences

  • Fourth International Conference New Trends in the Applications of Differential Equations in Sciences (NTADES 2017), 18-22 June 2017, Sofia
  • Third International Conference New Trends in the Applications of Differential Equations in Sciences (NTADES 2016), 4-9 July 2016, Sofia

 

Seminars