MUL2 RESEARCH GROUP WEB SITE
MUL2 RESEARCH GROUP AT A GLANCE
CARRERA UNIFIED FORMULATION
Refined one-, two- and three-dimensional models can be derived using a compact, unified formulation.
COMPOSITES
Advanced structural models are able to predict complex stress field, a step forward in the composite materials analysis
MULTIFIELD ANALYSIS
Fully-coupled multifield analyses including: piezoelectric and magnetostrictive materials, thermal and moisture effetcs
AEROELASTICITY AND FLUID-STRUCTURE INTERACTION
Development of advanced aeroelastic models for static and dynamic aeroelastic analyses of wings, panels and rotating blades
AIRCRAFT AND SPACECRAFT DESIGN
Refined structural moldes for the analysis of complex structures
ROTOR-DYNAMICS
Refined one-dimensional models can be a valuable alternative to three-dimensional models in the analysis of rotating blades, discs and shafts
BIOMECHANICS
Refined computational models, based on CUF, have been used in the solution of classical bio-mechanical problems
DISSEMINATION
Our work can be found in hundreds of scientific papers and in many books
BEST THEORY DIAGRAMS
The BTD is a tool to edit an arbitrarily given theory to get a lower number of terms for a given error or to increase the accuracy while keeping the computational costs constant.

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Pagani A., Carrera E., Ferreira A.J.M.. "Higher-order theories and radial basis functions applied to free vibration analysis of thin-walled beams", Mechanics of Advanced Materials and Structures (2016), 23(9), pp. 1080-1091

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