Estudo de um compósito Nb-15%pCu obtidos por moagem de alta energia e sinterizados por fase líquida

There is great difficulty in forming a composite refractory metal niobium with copper. This is due to the fact that Nb-Cu system is almost mutually immiscible and may be neglected solubility between them. These properties hinder or prevent obtaining homogeneous and high-density structures, conventionally prepared. This study aims to analyze the use of high-energy milling process (MAE) to implement these natural difficulties, with regard to the densification of the sintered bodies. The MAE and the press were used in the preparation of powders, to obtain a fine and homogeneous distribution of the grain size. Four loads Nb and Cu powders containing 15% by weight of Cu were then milled for MAE in a planetary type ball mill under various milling times and speeds. The results obtained by MAE were analyzed by scanning electron microscopy (SEM), according to the parameters of time and grinding speed. The samples were compacted under pressure of 200 MPa, were then sintered in liquid phase in a vacuum furnace at temperatures of 1100 ° C / 60 min and 1200 ° C / 60 min. Then it was used to characterize diffraction of X-rays to identify the phases. The microstructures of the sintered samples were observed and evaluated using scanning electron microscopy (SEM). Vickers Microhardness tests were performed, obtaining higher values for the sintered bodies in the largest of the post milling times and the larger grinding speeds. It was found that the liquid phase sintering of the samples that were processed by MAE produced at the end of a homogeneous and densified structure in 77,4% relative to the value of the theoretical density of the composite

Efeito da moagem de alta energia na densificação e microestrutura do compósito AI2O3-Cu

The Cu-Al2O3 composite ceramic combines the phase of alumina, which is extremely hard and durable, yet very brittle, to metallic copper phase high ductility and high fracture toughness. These characteristics make this material a strong candidate for use as a cutting tool. Al2O3-Cu composite powders nanocrystalline and high homogeneity can be produced by high energy milling, as well as dense and better mechanical structures can be obtained by liquid phase sintering. This work investigates the effect of high-energy milling the dispersion phase Al2O3, Cu, and the influence of the content of Cu in the formation of Cu-Al2O3 composite particles. A planetary mill Pulverisatte 7 high energy was used to perform the experiments grinding. Al2O3 powder and Cu in the proportion of 5, 10 and 15% by weight of Cu were placed in a container for grinding with balls of hard metal and ethyl alcohol. A mass ratio of balls to powder of 1:5 was used. All powders were milled to 100 hours, and powder samples were collected after 2, 10, 20, 50 and 70 hours of grinding. Composite powders with compact cylindrical shape of 8 mm diameter were pressed and sintered in uniaxial matrix resistive furnace to 1200, 1300 to 1350 °C for 60 minutes under an atmosphere of argon and hydrogen. The heating rate used was 10°C/min. The powders and structures of the sintered bodies were characterized by XRD, SEM and EDS. Analysis TG, DSC and particle size were also used to characterize the milled powders, as well as dilatometry was used to observe the contraction of the sintered bodies. The density of the green and sintered bodies was measured using the geometric method (mass / volume). Vickers microhardness with a load of 500 g for 10 s were performed on sintered structures. The Cu-Al2O3 composite with 5% copper density reached 61% of theoretical density and a hardness of 129 HV when sintered at 1300 ° C for 1h. In contrast, lower densities (59 and 51% of the theoretical density) and hardness (110 HV and 105) were achieved when the copper content increases to 10 and 15%.

Comparação entre técnicas de nitretação em cátodo oco e gaiola catódica na deposição de TiN

The plasma nitriding has been used in industrial and technological applications for large-scale show an improvement in the mechanical, tribological, among others. In order to solve problems arising in the conventional nitriding, for example, rings constraint (edge effect) techniques have been developed with different cathodes. In this work, we studied surfaces of commercially pure titanium (Grade II), modified by plasma nitriding treatment through different settings cathodes (hollow cathode, cathodic cage with a cage and cathodic cage with two cages) varying the temperature 350, 400 and 430oC, with the goal of obtaining a surface optimization for technological applications, evaluating which treatment generally showed better results under the substrate. The samples were characterized by the techniques of testing for Atomic Force Microscopy (AFM), Raman spectroscopy, microhardness, X-ray diffraction (XRD), and a macroscopic analysis. Thus, we were able to evaluate the processing properties, such as roughness, topography, the presence of interstitial elements, hardness, homogeneity, uniformity and thickness of the nitrided layer. It was observed that all samples were exposed to nitriding modified relative to the control sample (no treatment) thus having increased surface hardness, the presence of TiN observed by XRD as per both Raman and a significant change in the roughness of the treated samples . It was found that treatment in hollow cathode, despite having the lowest value of microhardness between treated samples, was presented the lowest surface roughness, although this configuration samples suffer greater physical aggressiveness of treatment

Estudo do comportamento da sinterização de compactos de cavacos de um aço SAE 1050 obtidos sob alta pressão

From an economic standpoint, the powder metallurgy (P/M) is a technique widely used for the production of small parts. It is possible, through the P/M and prior comminution of solid waste such as ferrous chips, produce highly dense sintered parts and of interest to the automotive, electronics and aerospace industries. However, without prior comminution the chip, the production of bodies with a density equal to theoretical density by conventional sintering techniques require the use of additives or significantly higher temperatures than 1250ºC. An alternative route to the production of sintered bodies with high density compaction from ferrous chips (≤ 850 microns) and solid phase sintering is a compression technique under high pressure (HP). In this work, different compaction pressures to produce a sintered chip of SAE 1050 carbon steel were used. Specifically, the objective was to investigate them, the effect of high pressure compression in the behavior of densification of the sintered samples. Therefore, samples of the chips from the SAE 1050 carbon steel were uniaxially cold compacted at 500 and 2000 MPa, respectively. The green compacts obtained were sintered under carbon atmosphere at 1100 and 1200°C for 90 minutes. The heating rate used was 20°C/min. The starting materials and the sintered bodies were characterized by optical microscopy, SEM, XRD, density measurements (geometric: mass/volume, and pycnometry) and microhardness measurements Vickers and Rockwell hardness. The results showed that the compact produced under 2000 MPa presented relative density values between 93% and 100% of theoretical density and microhardness between 150 HV and 180 HV, respectively. In contrast, compressed under 500 MPa showed a very heterogeneous microstructure, density value below 80% of theoretical density and structural conditions of inadequate specimens for carrying out the hardness and microhardness measurements. The results indicate that use of the high pressure of ferrous chips compression is a promising route to improve the sinterability conditions of this type of material, because in addition to promoting greater compression of the starting material, the external tension acts together with surface tension, functioning as the motive power for sintering process. Additionally, extremely high pressures allow plastic deformation of the material, providing an intimate and extended contact of the particles and eliminating cracks and pores. This tends to reduce the time and / or temperature required for good sintering, avoiding excessive grain growth without the use of additives. Moreover, higher pressures lead to fracture the grains in fragile or ductile materials highly hardened, which provides a starting powder for sintering, thinner, without the risk of contamination present when previous methods are used comminution of the powder.

Estudo de duas pseudoligas de Nb-Cu obtidas pela rota da metalurgia do pó

The Nb-Cu pseudoalloys present themselves as potential substitutes for the alloys from a well known system and already commercially applied, as the W-Cu alloys, used in applications such as heat sinks, electrical contacts and coils for the generation of high magnetic fields. Because it is an immiscible system, where there is mutual insolubility and low wettability of the liquid Cu on the Nb surface, the processing route used in this work was the Powder Metallurgy. Two Nb alloys were used, with additions of 10% and 20% in weight of Cu, and times of 20, 30 and 40 hours for the high energy milling of the starting powders. The milling evolution of the powders is presented through the characterization techniques, such as the LASER diffraction for particle size, XRD, SEM, EDS, DSC, dilatometry, TEM and chemical analysis. After the milling, portions of the loads were submitted to the annealing heat treatment. The process used for the samples consolidation was the hot pressing, which has been applied both on some milled powders samples, as on the annealed powders. Subsequent heat treatments were performed in the samples at temperatures of 1000ºC (solid phase) and 1100ºC (in the Cu liquid phase). All sets of consolidated samples, and also the two sets of the heat treated, were analyzed by XRD, SEM, EDS, density and Vickers microhardness. Moreover, other Nb powder samples with 10% and 20% in weight of Cu obtained by simple mechanical mixing, were consolidated, thermally treated and characterized with the same techniques applied to the others, and the results were compared among themselves. Despite the difficulty of consolidation and densification of the two pseudoalloys of the Nb-Cu system of this study, on the route that passes through the HEM, samples were obtained with densities around 90% of the theoretical density. And, on the processing route of which were only mixed, the values reached up to 97%. Therefore, in this work are also emphasized the processes that made possible these results.

Efeito da adição de WC e Co na sinterização e propriedades mecânicas da alumina

Composites based on alumina (Al2O3), tungsten carbide (WC) and cobalt (Co) exhibit specific properties such as low density, high oxidation resistance, high melting point and high chemical inertia. That composite shows to be a promising material for application in various fields of engineering. In this work, the mechanical properties of the composite (Al2O3 – WC – Co), particularly density and hardness, were evaluated according to the effects of the variables of powder processing parameters, green compact and sintered. Powder composites with the composition of 80 wt% Al2O3, 18 wt% WC and 2 wt% Co were processed by high energy ball milling in a planetary mill for 50 hours as well as mixed by manual mixing in a glass vessel with the same proportion. Samples were collected (2, 10, 20, 30, 40 and 50 hours) during the milling process. Then, the powders were compacted in a cylindrical die with 5 mm in diameter in a uniaxial press with pressures of 200 and 400 MPa. The sintering was in two stages: first, the solid phase sintering was performed at 1126 and 1300 °C for 1 hour with a heating rate of 10 °C/min in a resistive furnace under argon atmosphere for green samples compacted in 200 and 400 MPa; the second sintering was performed on dilatometer in solid phase at 1300 °C for green sample compacted in 200 MPa, another sintering also was performed on dilatometer, this time in liquid phase at 1550 °C for green samples compacted in 200 and 400 MPa, with the same parameters used in resistive furnace. The raw materials were characterized by X – ray diffraction (XRD), X – ray fluorescence (XRF), scanning electron microscopy (SEM), energy dispersive spectroscopy (EDS) and laser particlemeter. The sintered samples were subjected to microhardness testing. The results showed that high energy milling achieved to the objectives regarding the particle size and the dispersion of composite phases. However, the hardness did not achieve to significant results, this is an indication that the composite has low fracture toughness.

Efeito da adição de WC e Co na sinterização e propriedades mecânicas da alumina

Composites based on alumina (Al2O3), tungsten carbide (WC) and cobalt (Co) exhibit specific properties such as low density, high oxidation resistance, high melting point and high chemical inertia. That composite shows to be a promising material for application in various fields of engineering. In this work, the mechanical properties of the composite (Al2O3 – WC – Co), particularly density and hardness, were evaluated according to the effects of the variables of powder processing parameters, green compact and sintered. Powder composites with the composition of 80 wt% Al2O3, 18 wt% WC and 2 wt% Co were processed by high energy ball milling in a planetary mill for 50 hours as well as mixed by manual mixing in a glass vessel with the same proportion. Samples were collected (2, 10, 20, 30, 40 and 50 hours) during the milling process. Then, the powders were compacted in a cylindrical die with 5 mm in diameter in a uniaxial press with pressures of 200 and 400 MPa. The sintering was in two stages: first, the solid phase sintering was performed at 1126 and 1300 °C for 1 hour with a heating rate of 10 °C/min in a resistive furnace under argon atmosphere for green samples compacted in 200 and 400 MPa; the second sintering was performed on dilatometer in solid phase at 1300 °C for green sample compacted in 200 MPa, another sintering also was performed on dilatometer, this time in liquid phase at 1550 °C for green samples compacted in 200 and 400 MPa, with the same parameters used in resistive furnace. The raw materials were characterized by X – ray diffraction (XRD), X – ray fluorescence (XRF), scanning electron microscopy (SEM), energy dispersive spectroscopy (EDS) and laser particlemeter. The sintered samples were subjected to microhardness testing. The results showed that high energy milling achieved to the objectives regarding the particle size and the dispersion of composite phases. However, the hardness did not achieve to significant results, this is an indication that the composite has low fracture toughness.

Estudo da evolução das tensões residuais através da difratometria de raios x em aço rolamento submetido a esforços cíclicos

The micro-deformations caused by cyclic loading origins the variation of the distances between atoms of the crystal lattice producing the irreversible component. In order to study and understand the microstructural behavior of the material this paper investigated the influence suffered by residual stresses in thrust rolling bearing races fabricated in AISI 52100 steel, after tests by cyclic rolling contact in a tribometer at 1m/s under two contact pressures (500 MPa and 1400 MPa) in dry and boundary lubrication conditions. Procedures of tests thermo-acustically isolated were developed for monitoring the contact temperature and sound pressure level signals to establish a comparison between the residual stress measurements, micro-hardness Vickers and micrographic registers searching an indication of wear evolution. The sin²ψ method by X-ray diffraction technique was used to quantify the residual stresses. Three raceway zones were selected for the evaluation of wear and surface morphology after predetermined cycling, comparing with their new condition ("as received"). Micro-hardness and residual stress measurements showed significant changes after the tests and it was possible to observe the relationship between the increase of sound pressure level and the residual stress for dry and lubricated conditions.

Estudo da evolução das tensões residuais através da difratometria de raios x em aço rolamento submetido a esforços cíclicos

The micro-deformations caused by cyclic loading origins the variation of the distances between atoms of the crystal lattice producing the irreversible component. In order to study and understand the microstructural behavior of the material this paper investigated the influence suffered by residual stresses in thrust rolling bearing races fabricated in AISI 52100 steel, after tests by cyclic rolling contact in a tribometer at 1m/s under two contact pressures (500 MPa and 1400 MPa) in dry and boundary lubrication conditions. Procedures of tests thermo-acustically isolated were developed for monitoring the contact temperature and sound pressure level signals to establish a comparison between the residual stress measurements, micro-hardness Vickers and micrographic registers searching an indication of wear evolution. The sin²ψ method by X-ray diffraction technique was used to quantify the residual stresses. Three raceway zones were selected for the evaluation of wear and surface morphology after predetermined cycling, comparing with their new condition ("as received"). Micro-hardness and residual stress measurements showed significant changes after the tests and it was possible to observe the relationship between the increase of sound pressure level and the residual stress for dry and lubricated conditions.

Retificação plana tangencial dos ferros fundidos nodular, vermicular e cinzento em várias condições de corte

In a scenario of increasing competitiveness of the global industrial sector and with a consumer market increasingly demanding, there is an increased demand for new materials and, consequently, possibilities to explore new research and technological advances towards the development of new manufacturing methods or the improvement of existing technologies. In the case of cast irons, new grades of them have been developed so that their mechanical properties have been improved, making them more competitive with steel, expanding the applications and thus represents great economic gain for metallurgy and manufacturing sectors. This increases the interest and creates new opportunities to study these materials and identify how they respond in terms of the surface integrity, tool wear, cutting forces, among others, when machined by grinding operation. In this context, due to the lack of results from grinding of cast irons and studies comparing grindability among several grades of cast irons found in the literature, this work aims to generate scientific and technological contribution to the metallurgical and metal working sector through roughness results (Ra and Rz parameters) and evaluation and analysis of the subsurface integrity of three cast iron grades (gray, compacted graphite and nodular). The machining trials were performed on a surface grinding machine with silicon carbide grinding wheel at different cutting conditions. The input variables were the radial depth of cut (15 and 30 μm), worktable speed, vw (5 and 10 m/min) and the abrasive grain size of the grinding wheel. The results showed that surface roughness increased with the radial depth of cut for all materials tested; and the lowest values were obtained for gray cast iron. Also, roughness was sensitive to variation of worktable speed and the lowest values were obtained after machining with vw = 5 m/min. With respect to the abrasive grain size, as it decreased the roughness values increased to gray and nodular cast iron grades. Furthermore, grinding burns marks were observed on the surfaces of nodular cast iron and compacted graphite iron grades after grinding the smallest grain size, contrary to what is usually reported in literature. However, no evidence of severe thermal damages below the machined surfaces of all cast iron grades was observed after analyzing the results of hardness and the SEM micrograph images.

Propriedades óticas dos sistemas cerâmicos atuais e suas aplicações em dentes naturais

A estética representa uma qualidade cada vez mais requisitada pela sociedade na atualidade. A busca pela aparência ideal expandiu-se também na medicina dentária, aumentando as exigências por resultados perfeitos. A medicina dentária tem desenvolvido novas técnicas e novos materiais com a ambição de reproduzir as propriedades estéticas e funcionais dos dentes naturais. Os sistemas totalmente cerâmicos têm sido alvo de grande entusiasmo dado as suas características inerentes. O seu potencial na reabilitação oral estética tem derrotado as suas antecessoras metalocerâmicas. À semelhança do esmalte e da dentina, os sistemas totalmente cerâmicos exibem boas propriedades óticas de translucidez, opacidade, fluorescência e opalescência, resultado da interação com a luz. Ainda que não seja possível dissociar as propriedades óticas das propriedades mecânicas de um dente natural para o sucesso de uma restauração, a heterogeneidade das cerâmicas têm sido exitosas enquanto sistema que combina diferentes propriedades para diferentes indicações clínicas. Esta variabilidade deve-se a diferentes composições químicas e a diferentes processos de fabricação, entre outros, que acentuam ou atenuam qualidades em cada sistema totalmente cerâmico. Este trabalho pretende abordar e comparar os sistemas cerâmicos atuais (cerâmicas com base em sílica, cerâmicas com base de alumina, cerâmicas com base em zircónia) de acordo com as suas propriedades óticas e a consequente aplicação clínica tendo em conta as características dos dentes naturais.

Considerações anatómicas sobre o envelhecimento do aparelho estomatognático

Introdução: com o crescente aumento da expectativa de vida, o conhecimento das alterações anatómicas e fisiológicas que ocorrem no aparelho estomatognático durante o envelhecimento é de suma importância para a correta avaliação do paciente idoso. Objetivos: descrição e abordagem das principais estruturas anatómicas do indivíduo, adulto e idoso. Estabelece-se uma anatomia comparativa e evolutiva durante o processo de envelhecimento. Pretende-se contribuir para o conhecimento e reflexão sobre o tema em questão e demonstrar a aplicabilidade deste conhecimento em contexto clínico. Métodos: realizou-se pesquisa bibliográfica, nas bases de dados Pubmed, b-on SciElo e Elsevier, no período entre 2006-2016. Resultados: Maxila - ocorre reabsorção óssea, alteração no contorno do arco da maxila, retrusão maxilar, rotação da maxila no sentido horário, diminuição gradual e constante do ângulo maxilar e redução vertical da altura maxilar. Mandíbula - aumento do ângulo da mandíbula, diminuição da densidade e volume ósseo. Articulação gonfose e Articulação Temporo-Mandibular - pode ocorrer tanto anquilose, como perda das estruturas de suporte. Observa-se degeneração e/ou perfuração do disco radicular e alteração do formato do côndilo. Dentes - cáries radiculares, fraturas dentárias e desgaste dentário. Ocorrem modificações histológicas no esmalte, dentina e polpa dentária. Periodonto: reabsorção do osso alveolar, gengiva atrófica com tendência a migração apical, deposição apical das camadas incrementais e desgaste de cemento exposto, ligamento periodontal fino, irregular e diminuição do espaço periodontal. Conclusões: as alterações anatómicas decorrentes do envelhecimento fisiológico são múltiplas. O Médico Dentista diante de um paciente idoso, deverá conhecer e distinguir entre uma alteração decorrente do envelhecimento fisiológico e uma alteração patológica, para o correto diagnóstico clínico e uma excelente decisão terapêutica. O Médico Dentista deverá contribuir para o envelhecimento saudável e para tal deve ser conhecedor em pleno da temática do presente trabalho.

Erosão dentária associada a distúrbios alimentares

Os distúrbios alimentares traduzem-se em comportamentos, quer pela falta, quer pelo excesso da ingestão de alimentos, sendo a anorexia nervosa e a bulimia as que mais frequentemente se verificam na população. O crescente aumento destes distúrbios, nomeadamente a obsessão pelos corpos magros, está relacionada com o impacto que os media têm na sociedade, uma vez que a magreza é vista como mecanismo de atracção sexual e de integração social. O diagnóstico das desordens alimentares não é fácil de ser efectuado, dado que os sinais são muitas vezes omitidos/ocultados pelos indivíduos. Os médicos dentistas podem ter um papel importante na sua detecção, dadas as manifestações precoces das alterações alimentares na cavidade oral. Há diversos sintomas comuns aos dois distúrbios alimentares como a erosão dentária, a hipersensibilidade dentinária, a hipertrofia das glândulas salivares e consequente hipossalivação, a cárie dentária, a doença periodontal, as mucosites, a candidíase oral e a queilite angular. Resultante do vómito induzido, há o aporte de ácido proveniente do conteúdo gástrico que induz alterações estruturais do esmalte e dentina, facilitando o processo de desgaste erosivo. Os fenómenos erosivos são uma das manifestações orais mais evidentes dos distúrbios alimentares. O conhecimento dos sinais, sintomas e da forma de evolução da erosão dentária, é imprescindível, e acaba por diferenciar a atuação profissional que possibilita um diagnóstico eficaz e o tratamento correto. A elaboração desta dissertação tem como objectivo reforçar a informação sobre estes fenómenos para que possam ser mais eficazmente prevenidos, diagnosticados e controlados/tratados. Para tal efectuou-se uma pesquisa na B-On, Medline/PubMed, sciELO, RCAAP e em livros, de informação válida sobre o tema. Interpôs-se limitação temporal e usaram-se as seguintes palavras-chave na seleção de artigos: “Dental erosion”, “Erosive wear”, “Anorexia”, “Bulimia”, “Eating disorders”.

Fraturas dentárias

Uma lesão traumática é, a seguir à cárie dentária, um dos problemas mais comuns da saúde oral. O traumatismo dentário consiste numa agressão que afeta os dentes ou os tecidos de suporte, podendo levar ao rompimento do ligamento periodontal, fratura dentária, fratura óssea ou alterações pulpares. Este problema causa desconforto físico, emocional e comprometimento estético. Quando os traumatismos afetam os tecidos duros ou polpa denominam-se de fraturas dentárias. Estas podem ser divididas em fraturas coronárias de esmalte; fraturas coronárias de esmalte e dentina sem exposição pulpar; fraturas coronárias de esmalte e dentina com exposição pulpar; fraturas corono-radiculares de esmalte, dentina e cemento sem exposição pulpar; fraturas corono-radiculares com exposição pulpar e fratura radicular envolvendo cemento, dentina e polpa. O objetivo deste trabalho monográfico foi fazer uma revisão bibliográfica de estudos científicos sobre fraturas dentárias. Assim, serão abordados os diversos tipos de fraturas dentárias, as suas etiologias, prevalências e fatores associados, também definir planos de tratamento, técnicas de restauração direta de fraturas coronárias e possíveis medidas de prevenção. A pesquisa bibliográfica para esta revisão foi realizada em bases eletrónicas de referência como Pubmed, Scielo, selecionando artigos entre os anos 2006 e 2016. Foram também utilizados como elementos de pesquisa o site Dental Trauma Guide (DTG), o site International Association of Dental Traumatology (IADT), livros da especialidade existentes na Biblioteca da Universidade Fernando Pessoa que embora com datas de publicação mais antigas (2001) foram imprescindíveis para o desenvolvimento da monografia. A pesquisa foi realizada em duas línguas, português e inglês. Como conclusão pode-se dizer que nos dias de hoje, o médico dentista tem muitas opções de tratamento de dentes fraturados. Para restaurar a fratura o médico pode optar por colar o fragmento, restaurar usando uma matriz guia ou restaurar à mão livre. A escolha da técnica deve ser estudada de acordo com cada paciente e suas expectativas.

Reabilitação estética com facetas em pacientes com amelogénese imperfeita

A Amelogénese Imperfeita é uma anomalia hereditária que interfere no desenvolvimento do esmalte, pode variar em seu grau de intensidade, podendo afetar o esmalte tanto na sua qualidade, quanto na sua quantidade e em ambas as dentições. Existem pelo menos catorze subtipos diferentes de amelogénese imperfeita, sendo as do tipo hipoplásico, hipomaturado, hipocalcificado e hipoplásico ou hipomaturado com taurodontia segundo o seu fenótipo e quinze subtipos, segundo o seu modo de transmissão. Segundo a literatura, os pacientes com amelogénese imperfeita, independentemente do subtipo presente, apresentam complicações orais semelhantes: estética dentária comprometida, sensibilidade dentária e diminuição da dimensão vertical de oclusão. O tratamento destes pacientes assume um papel relevante, na medida em que requer cuidados especiais, já que esta doença acarreta, por norma, problemas psicológicos e interfere com o autoestima do individuo. É notória, atualmente, uma oferta variada de opções reabilitadoras ao dispor do Médico Dentista, que ajudarão o mesmo a restabelecer a estética e função. Os tratamentos são variados e por vezes complexos, podem ser desenvolvidos de forma conservadora ou invasiva. Contudo, a escolha do melhor tratamento será consequência da gravidade da patologia e de fatores inerentes ao próprio paciente. Neste estudo, abordamos as facetas, como uma alternativa reabilitadora, que com o avanço e melhorias na área da Dentisteria Estética, nomeadamente no que diz respeito à adesão à dentina, parecem ser uma opção credível. Assim, o objetivo desta dissertação é demonstrar e elucidar a reabilitação dos defeitos associados a esta doença com a utilização de facetas diretas e indiretas. Foram efetuadas pesquisas e consulta de livros, monografias, dissertações, artigos em base de dados como o Pubmed/Medline, para que conseguíssemos realizar uma discussão sobre o mesmo tema e desta forma encontrar uma adequada resposta a todas as nossas inquietações sobre esta questão.