Time Dependent Deformations
Mostrando 1-8 de 8 artigos, teses e dissertações.
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1. Energy absorption of aluminum panels subjected to gelatin projectile impact
Abstract Digital image correlation (DIC) method has been widely used on dynamical experiments. This full-field and real-time method can fill in the gap of traditional point-based measurements of typical structures subjected to soft body impact such as bird strike. In order to get further understandings of soft body impact process, the present study analyzed
Lat. Am. j. solids struct.. Publicado em: 29/07/2019
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2. Modeling the creep behavior of GRFP truss structures with Positional Finite Element Method
Abstract This paper presents the development of a formulation, based on Positional Finite Element Method, to describe the viscoelastic mechanical behavior of space trusses. The numerical method used was chosen due to its efficiency in the applications concerning nonlinear numerical analyses. The formulation describes the positional variation over time under
Lat. Am. j. solids struct.. Publicado em: 26/04/2018
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3. A model based on the finite-volume theory for the analysis linear viscoelastic heterogeneous materials. / Análise de estruturas de materiais compósitos viscoelásticos lineares através da teoria de volumes finitos.
The present work extends the Parametric Formulation of the Finite-Volume Theory to the case of heterogeneous materials with time-dependent behavior. Such a theory has already proved to be an efficient alternative to the Finite Element Method in the modeling of linear elastic heterogeneous materials. Firstly, general expressions for linear viscoelasticity are
Publicado em: 2010
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4. Estudo experimental da deformação ao longo do tempo de lajes contínuas e simplesmente apoiadas executadas com vigotas pré-moldadas de concreto.
This research deals with the experimental investigation of time dependent deformations in partially precast floors with composite beam-and-block floor systems made with reinforced concrete lattice joist through the measurement of deflections of prototypes with real dimensions. It is a continuation of several researches of composite beam-and-block floor syste
Publicado em: 2005
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5. Deformações dependentes do tempo em muros de solo reforçado com geotêxteis / Time-dependent deformations in geotextile reinforced soil walls
Este trabalho apresenta um estudo sobre deformações de geotêxteis ao longo do tempo, considerando interações entre reforço e solo confinante em muros de solo reforçado. O programa experimental desenvolvido para esse fim envolveu duas etapas básicas. Na primeira etapa, um novo equipamento foi desenvolvido na Escola de Engenharia de São Carlos/USP, pa
Publicado em: 2004
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6. Strengthening of reinforced concrete beams subjected to preloading forces and long-term loads: application of high strength concrete and steel fiber reinforced concrete / Reforço de vigas de concreto armado submetidas a pré-carregamento e ações de longa duração com aplicação de concretos de alta resistência e concretos com fibras de aço
Neste trabalho estudou-se o reforço de vigas T de concreto armado tanto por meio de adição de armadura longitudinal ao bordo tracionado envolvida por um material compósito (argamassa com fibras curtas de aço), quanto pela aplicação de uma capa de pequena espessura de microconcreto de alta resistência ao bordo comprimido. Para estudar as possibilidade
Publicado em: 2003
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7. Time-dependent response of soft polymers in moderately large deformations
We present a theory that successfully describes the time-dependent mechanical behavior of soft incompressible isotropic polymers in moderately large deformations. The theory is based on the introduction of a generalized measure of strain into the Boltzmann superposition integral.
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8. Analysis of red blood cell motion through cylindrical micropores: effects of cell properties.
Filtration through micropores is frequently used to assess red blood cell deformability, but the dependence of pore transit time on cell properties is not well understood. A theoretical model is used to simulate red cell motion through cylindrical micropores with diameters of 3.6, 5, and 6.3 microns, and 11-microns length, at driving pressures of 100-1000 dy