J. A. Rodrigues scite author profile

Two full-field identification methods are applied to the Wedge Splitting Test (WST) to obtain crack tip positions, stress intensity factors (SIFs) and T -stress.The first method is based on Finite Element Model Updating (FEMU), and the second is integrated digital image correlation (IDIC). Both are applied to a simplified virtual experiment and then to a cyclic WST. The gray level residuals are used to assess which results are more trustworthy. Fracture energy analyses are performed to validate the estimated R-curves.

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Analysis of a castable refractory using the wedge splitting test and cohesive zone model

Vargas

Neggers

Canto

et al. 2019

Journal of the European Ceramic Society

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A cohesive zone approach is applied to the Wedge Splitting Test (WST) using the finite element code Abaqus to obtain the tensile strength, the fracture energy and insight about the crack wake region. A Finite Element Model Updating (FEMU) method, with a cost function based on the measured load (FEMU-F), is used to calibrate the sought parameters. Digital Image Correlation (DIC) provided the kinematic boundary conditions, and the images were also used to define the geometry for the finite element analysis. Besides the fracture energy analysis and the experimental load, gray level images and displacement fields are analyzed in order to validate the results. The cohesive region is active in the whole analyzed test as confirmed by estimates using the cohesive length.

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Correlation between microstructure and mechanical properties of Al2O3/ZrO2 nanocomposites

Guimarães

Silva

Trombini

et al. 2009

Ceramics International

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Analysis of wedge splitting test on refractory castable via integrated DIC

Vargas

Neggers

Canto

et al. 2016

Journal of the European Ceramic Society

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International audienceOne of the key mechanical properties of refractories is their toughness. The latter can be evaluated via wedge splitting tests. One such test is analyzed herein with an integrated approach to digital image correlation. The position of the crack tip, stress intensity factors and T-stress are estimated on two faces of the tested sample made of a refractory castable during the whole cyclic test. It is shown that the change of energy release rate with the crack length can be determined at each time step of the experiment

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The influence of microstructure on the maximum load and fracture energy of refractory castables

Ribeiro¹,

Rodrigues²

2010

Ceramics International

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Aspectos da Reologia e da Estabilidade de Suspensões Cerâmicas. Parte III: Mecanismo de Estabilização Eletroestérica de Suspensões com Alumina

Ortega¹,

Pandolfelli

Rodrigues³

et al. 1997

Cerâmica

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Esta terceira e última parte da revisão sobre os aspectos reológicos e de estabilização de suspensões com pós cerâmicos vem reunir a aplicação dos conhecimentos adquiridos nas primeiras duas partes publicadas anteriormente. Aqui, os fenômenos eletrostático devido à dupla camada elétrica, e estérico, relacionado à adsorção de moléculas poliméricas, são combinados para explicar o mecanismo eletroestérico de estabilização de suspensões cerâmicas. Os defloculantes que atuam através desse mecanismo abrangem uma classe específica de polímero denominada polieletrólitos, a qual é constituída por macromoléculas ionizáveis quando em solução. O estudo da forma com que os polieletrólitos atuam justifica-se devido à larga utilização desta classe de polímeros na indústria cerâmica. Os ácidos poliacrílico (PAA) e polimetacrílico (PMAA) são exemplos de polieletrólitos amplamente utilizados no processo de materiais à base de alumina. Dá-se destaque à influência do pH do meio e da presença de íons, sendo novamente aqui importante o conceito de força iônica da suspensão. Como aplicação prática, apresenta-se a estabilidade do sistema alumina-PMAA, reportando-se sobre o comportamento da viscosidade e da efetiva defloculação da suspensão. Este estudo é concluído apresentando resultados do efeito do peso molecular sobre a viscosidade, chamando atenção para o fato de que não basta definir apenas a classe de polímero a ser usada, sendo também fundamental especificar o peso molecular médio do polímero selecionado.

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Rubber-mortar composites: Effect of composition on properties

Segre

Joekes

Galves

et al. 2004

Journal of Materials Science

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Effect of colloidal silica on the mechanical properties of fiber–cement reinforced with cellulosic fibers

et al. 2014

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J. A. Rodrigues

Comparison of two full-field identification methods for the wedge splitting test on a refractory

Analysis of a castable refractory using the wedge splitting test and cohesive zone model

Correlation between microstructure and mechanical properties of Al2O3/ZrO2 nanocomposites

Analysis of wedge splitting test on refractory castable via integrated DIC

The influence of microstructure on the maximum load and fracture energy of refractory castables

Aspectos da Reologia e da Estabilidade de Suspensões Cerâmicas. Parte III: Mecanismo de Estabilização Eletroestérica de Suspensões com Alumina

Rubber-mortar composites: Effect of composition on properties

Effect of colloidal silica on the mechanical properties of fiber–cement reinforced with cellulosic fibers

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