Karina Bergamo Cardoso scite author profile

Karina Bergamo Cardoso

4Publications

24Citation Statements Received

123Citation Statements Given

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122

Affiliations

Universidade de São Paulo, Universidade Brasil

Publications

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Alumina‐toughened zirconia for dental applications: Physicochemical, mechanical, optical, and residual stress characterization after artificial aging

et al. 2020

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To characterize the physicomechanical properties of an alumina-toughened zirconia (ATZ). ATZ synthesis consisted of the addition of alumina particles in an yttria-stabilized tetragonal zirconia polycrystals (3Y-TZP) matrix. Specimens were obtained by uniaxial and isostatic pressing ATZ and 3Y-TZP powders and sintering at 1600 C/1 h and 1550 C/1 h, respectively. Crystalline content and residual stress were evaluated using X-ray diffraction (XRD). Microstructure was characterized by scanning electron microscopy (SEM). Optical properties were determined by reflectance test. Mechanical properties were assessed by biaxial flexural strength test. All analyses were performed before and after aging (134 C, 20 h, 2 bar). XRD and SEM revealed a typical ATZ and 3Y-TZP crystalline content, chiefly tetragonal phase, with a dense polycrystalline matrix, though a smaller grain size for ATZ. Aging triggered a similar monoclinic transformation for both systems; however, ATZ exhibited higher residual compressive stresses than 3Y-TZP. While as-processed 3Y-TZP demonstrated significantly higher characteristic strength relative to ATZ, no significant difference was observed after aging ($215 MPa increase in the ATZ strength). ATZ presented significantly higher opacity relative to 3Y-TZP, although aging significantly increased the translucency of both systems (increase difference significantly higher in the 3Y-TZP compared to ATZ). ATZ physicomechanical properties support its applicability in the dental field, with a lower detrimental effect of aging relative to 3Y-TZP.

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Three-dimensional misfit between Ti-Base abutments and implants evaluated by replica technique

et al. 2020

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Three-dimensional misfit between Ti-Base abutments and implants evaluated by replica technique An important factor affecting the biomechanical behavior of implantsupported reconstructions is the implant-abutment misfit. Objective: This study evaluated the misfit between Ti-Base abutments and implants by means of polyvinyl siloxane replica technique using microcomputed tomography (μCT). Methodology: Volumetric and linear (central and marginal) gaps of four Ti-base abutments (n=10/group): (i) Odontofix LTDA (OD), (ii) Singular Implants (SING), (iii) EFF Dental Components (EFF), and (iv) Control Group (S.I.N implants) compatible with an implant system (Strong SW, S.I.N Implants) were measured using μCT reconstructed polyvinyl siloxane replicas. Results: The results showed significantly lower volume gap for Control S.I.N (0.67±0.29 mm 3) and SING (0.69±0.28 mm 3) Ti-base abutments relative to OD (1.42±0.28 mm 3) and EFF groups (1.04±0.28 mm 3) (p<0.033), without significant difference between them (p=0.936). While gap values were homogenous in the central region, EFF presented a significantly higher marginal gap. Accordingly, the Control S.I.N and Singular Ti-base abutments showed improved volumetric and marginal fit relative to Odontofix and EFF. Conclusion: The method of manufacturing abutments influenced the misfit at the implant-abutment interface.

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Hydrothermal aging affects the three-dimensional fit and fatigue lifetime of zirconia abutments

Bergamo

Campos

Lopes

et al. 2021

Journal of the Mechanical Behavior of Biomedical Materials

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Efeito do envelhecimento nas propriedades ópticas e mecânicas de compósitos experimentais 80%ZrO>sub<2>/sub<-20%Al>sub<2>/sub<O>sub<3>/sub<

Cardoso¹

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Efeito do envelhecimento nas propriedades ópticas e mecânicas de compósitos experimentais 80%ZrO 2 -20%Al 2 O 3 RESUMO O presente estudo teve como objetivo o desenvolvimento de um método de processamento de um compósito policristalino de zircônia reforçada por alumina na proporção 80%ZrO2 e 20%Al2O3 (ATZ), e caracterizar sua microestrutura, conteúdo cristalino, propriedades ópticas e mecânicas antes e após envelhecimento hidrotérmico. Foram obtidas 90 amostras em formato de discos (14x1.0 mm) por prensagem uniaxial e isostática de um pó cerâmico (TZ-3YS20AB, Tosoh Corporation). As amostras foram sinterizadas a 1600°C por 1 hora e polidas com discos e suspensões diamantadas até 1 um. Metade das amostras foi submetida a envelhecimento hidrotérmico em autoclave (20 h, 134°C e 2,2 bar). A microestrutura foi analisada por microscopia eletrônica de varredura (MEV) e o conteúdo cristalino por difração de Raios X (DRX). As propriedades ópticas foram determinadas pelo cálculo da razão de contraste (RC) e do parâmetro de translucidez (PT) usando dados obtido por testes de refletância. Para determinar as propriedades mecânicas, as amostras foram submetidas aos testes de microdureza Vickers e resistência à flexão biaxial (ISO 6872:2015). Teste t pareado foi conduzido para análise dos dados de propriedades ópticas, RC e PT, e microdureza. Distribuição de Weibull foi utilizada para análise dos dados de resistência à flexão biaxial para determinar o módulo de Weibull, estresse característico e confiabilidade. Os espectros de DRX revelaram um conteúdo cristalino típico de sistemas à base de alumina pura, α-alumina, e zircônia tetragonal policristalina estabilizada por ítria (3Y-TZP), predominantemente fase tetragonal; sendo que, o envelhecimento hidrotérmico desencadeou uma transformação de fase de tetragonal para monoclínica de 12,3%. Ainda, o sistema policristalino ATZ apresentou tensões compressivas residuais após envelhecimento (-488 ± 40 MPa). Os parâmetros utilizados para avaliação das propriedades ópticas do ATZ indicaram uma alta opacidade e capacidade de mascaramento, RC (0,99 ± 0,002) e PT (0,21 ± 0,081); entretanto, o envelhecimento hidrotérmico acarretou um aumento da translucidez, RC (0,96 ± 0,023) e PT (1,413 ± 0,956). A microdureza Vickers do ATZ foi de aproximadamente 1600 HV, independente da condição de armazenamento. O estresse característico obtido para o compósito ATZ foi 757 MPa, sendo que o envelhecimento hidrotérmico gerou tensões residuais compressivas e, consequentemente, um aumento significativo no estresse característico, 962 MPa (aumento de ~200 MPa). Baseado na distribuição das falhas, o compósito ATZ demonstrou uma alta confiabilidade para missões estimadas em 100, 300 e 500 MPa, acima de 94%, independente da condição de armazenamento. Tal fato corrobora com a indicação do compósito ATZ para infraestruturas de coroas até próteses parciais fixas posteriores de 3 elementos (ISO 6872:2015). A análise fractográfica qualitativa revelou que o início da fratura aconteceu na área submetida a tensão de traçã...

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