Professor italiano discorre sobre elastoplasticidade e viscoelasticidade
O professor DiCarlo atua no Modelling & Simulation Lab (LaMS), do Department of Mathematics & Physics da Università Roma Tre. Confira mais informações sobre o docente clicando aqui, ou acessando diretamente seu currículo.
Abstract
I will argue against the viscoelastic paradigm, where non-equilibrium response is modeled by memory functionals, and in favor of the elastoplastic paradigm, whose basic tenet is an enlarged set of state variables (and, correspondingly, of evolution equations). The former paradigm has been dominant in the mathematical theory of materials since the appearance of the foundational papers by Noll [1,2] and Coleman & Noll [3] until recently, when the latter has been gaining prominence, as testified by the textbook by Gurtin, Fried & Anand [4].
References
[1] W. Noll, A mathematical theory of the mechanical behavior of continuous media, Arch. Rational Mech. Anal. 2(1):197-226 (1958).
[2] W. Noll, A new mathematical theory of simple materials, Arch. Rational Mech. Anal. 48(1):1-50 (1972).
[3] B.D. Coleman & W. Noll, The thermodynamics of elastic materials with heat conduction and viscosity, Arch. Rational Mech. Anal. 13(1):167-178 (1963).
[4] M.E. Gurtin, E. Fried & L. Anand, The Mechanics and Thermodynamics of Continua, CUP, 2010.
[ ] informação
Professor Adair Aguiar Tel.: (16) 3373-9463 E-mail: aguiarar@sc.usp.br
&source=Escola%20de%20Engenharia%20de%20S%C3%A3o%20Carlos" id="linkedin-share-btt" rel="nofollow" target="_blank" class="linkedin-share-button"> O evento é organizado pelo professor Adair Aguiar e será realizado no Auditório do SET, sem necessidade de inscrição prévia. A apresentação será integralmente em língua inglesa e haverá espaço para perguntas ao final.O professor DiCarlo atua no Modelling & Simulation Lab (LaMS), do Department of Mathematics & Physics da Università Roma Tre. Confira mais informações sobre o docente clicando aqui, ou acessando diretamente seu currículo.
Abstract
I will argue against the viscoelastic paradigm, where non-equilibrium response is modeled by memory functionals, and in favor of the elastoplastic paradigm, whose basic tenet is an enlarged set of state variables (and, correspondingly, of evolution equations). The former paradigm has been dominant in the mathematical theory of materials since the appearance of the foundational papers by Noll [1,2] and Coleman & Noll [3] until recently, when the latter has been gaining prominence, as testified by the textbook by Gurtin, Fried & Anand [4].
References
[1] W. Noll, A mathematical theory of the mechanical behavior of continuous media, Arch. Rational Mech. Anal. 2(1):197-226 (1958).
[2] W. Noll, A new mathematical theory of simple materials, Arch. Rational Mech. Anal. 48(1):1-50 (1972).
[3] B.D. Coleman & W. Noll, The thermodynamics of elastic materials with heat conduction and viscosity, Arch. Rational Mech. Anal. 13(1):167-178 (1963).
[4] M.E. Gurtin, E. Fried & L. Anand, The Mechanics and Thermodynamics of Continua, CUP, 2010.
[ ] informação
Professor Adair Aguiar Tel.: (16) 3373-9463 E-mail: aguiarar@sc.usp.br
+https%3A%2F%2Feesc.usp.br%2Fnoticias%2Fposts_s.php?guid=professor-italiano-discorre-sobre-elastoplasticidade-e-viscoelasticidade" target="_blank">O Departamento de Engenharia de Estruturas (SET) da Escola de Engenharia de São Carlos (EESC) da USP receberá no dia 19 de maio, às 9 horas, o professor Antonio DiCarlo, da Università Roma Tre, da Itália, que irá ministrar uma palestra sobre elastoplasticidade e viscoelasticidade.
O evento é organizado pelo professor Adair Aguiar e será realizado no Auditório do SET, sem necessidade de inscrição prévia. A apresentação será integralmente em língua inglesa e haverá espaço para perguntas ao final.
O professor DiCarlo atua no Modelling & Simulation Lab (LaMS), do Department of Mathematics & Physics da Università Roma Tre. Confira mais informações sobre o docente clicando aqui, ou acessando diretamente seu currículo.
Abstract
I will argue against the viscoelastic paradigm, where non-equilibrium response is modeled by memory functionals, and in favor of the elastoplastic paradigm, whose basic tenet is an enlarged set of state variables (and, correspondingly, of evolution equations). The former paradigm has been dominant in the mathematical theory of materials since the appearance of the foundational papers by Noll and Coleman & Noll until recently, when the latter has been gaining prominence, as testified by the textbook by Gurtin, Fried & Anand .
References
W. Noll, A mathematical theory of the mechanical behavior of continuous media, Arch. Rational Mech. Anal. 2(1):197-226 (1958).
W. Noll, A new mathematical theory of simple materials, Arch. Rational Mech. Anal. 48(1):1-50 (1972).
B.D. Coleman & W. Noll, The thermodynamics of elastic materials with heat conduction and viscosity, Arch. Rational Mech. Anal. 13(1):167-178 (1963).
M.E. Gurtin, E. Fried & L. Anand, The Mechanics and Thermodynamics of Continua, CUP, 2010.
informação
Professor Adair Aguiar Tel.: (16) 3373-9463 E-mail: aguiarar@sc.usp.br