MICROMECHANICS OF DEBOND GROWTH AND INTERFACIAL WEAR UNDER FATIGUE LOADING IN A TRANSPARENT CERAMIC COMPOSITE

Varadarajan, Bhadri Narayanan

January 2000

No description available.

Engineering, Materials Science

berosilicate glass

interface model

debond growth pattern

asperity wear mechanism

Novo método para o estudo de desgaste por atrição (deslizamento alternado) em esmalte bovino, em função da carga normal e da lubrificação: redução do desgaste com gel lubrificante oral / New method to study the wear by attrition (reciprocating sliding) in enamel, depending on the normal load and lubrication: reduction in wear with gel oral lubricant

Coppo, Priscilla Pessin

27 April 2015

O esmalte dental é o tecido mineralizado mais duro do corpo humano; apesar disto, seu desgaste é um problema muito comum. Este pode estar associado aos processos de envelhecimento, ou ainda, ser encontrado em indivíduos jovens, como consequência de atividades parafuncionais, por exemplo, atrição dental. Este tipo de dano pode resultar em prejuízo da função mastigatória e em diminuição da qualidade de vida. Por isto, o desgaste do esmalte dental tem sido objeto de muitos estudos, embora poucos tenham utilizado conceitos tribológicos. Não foi encontrado nenhum estudo que explorasse o desgaste de esmalte e seus micromecanismos oriundos do deslizamento alternado de incisivo contra incisivo, configuração que mais se aproxima do tribossistema real de atrição. O presente estudo tem por objeto investigar o desgaste e seus mecanismos em pares deslizantes de esmalte incisal (configuração pino-plano), selecionados por seus similares valores de dureza e de tenacidade à fratura, submetidos a diferentes cargas normais e lubrificações do meio. Incisivos bovinos foram ensaiados em deslizamento alternado sob duas cargas normais (8 N e 16 N) e quatro modos de lubrificação: saliva natural; saliva artificial; gel lubrificante oral (Oralbalance!, Biotène); e grupo controle sem lubrificação (seco). Durante os ensaios, foram levantadas as curvas de atrito. O volume desgastado e a rugosidade da superfície foram mensurados via perfilometria 3D. Os micromecanismos de desgaste foram analisados ao microscópio eletrônico de varredura. O aumento da carga normal aplicada resultou em aumento do volume de desgaste para todas as condições. Comparando-se ao grupo sem lubrificação, as salivas (natural e artificial) não reduziram o desgaste, mas a lubrificação com o gel foi efetiva para reduzir tanto o volume de esmalte desgastado como o coeficiente de atrito. A relação entre o valor do parâmetro de rugosidade Sq e o coeficiente de atrito não foi linear, nem entre a rugosidade Sq e o coeficiente de desgaste, para todas as condições. Os micromecanismos de desgaste encontrados foram, em ordem crescente de severidade: desgaste da região interprismática (8 N - gel); propagação de trincas interprismáticas (8 N - seco); reações triboquímicas associadas à ação mecânica (8 N - saliva natural e artificial; 16 N - gel; 16 N - saliva natural e artificial); e desplacamento (16 N - seco). / Enamel is the hardest mineralized tissue in the human body; despite that, the enamel wear is a very common problem. The wear damage can be related to aging processes or also be found in young people as a result of parafunctional activities, for example, dental attrition. This type of damage can result in loss of masticatory function and decreased quality of life. Therefore, the wear of the enamel has been the subject of many studies, although few have used tribological concepts. The wear mechanisms of reciprocating sliding pairs from incisor against incisor have not been reported in the literature, this configuration is the one that is closest to the real tribosystem of attrition. The present study aims to investigate the wear behavior and the related mechanisms in reciprocating sliding pairs of incisal enamel (pin-on-flat configuration), selected for their similar hardness and fracture toughness values, with different applied normal loads and lubrication conditions. Bovine incisors were tested in reciprocating sliding with different applied normal loads (8 N and 16 N) and four lubrication conditions: natural saliva; artificial saliva; oral gel lubricant (Oralbalance!, Biotène); and control group (dry). During tests, the friction curves were recorded. The volume loss and the surface roughness Sq were investigated by 3D profilometry. Wear mechanisms were analyzed by scanning electron microscope. The increase of the normal load resulted in an increased volume loss for all conditions. Comparing to the group without lubrication, the saliva (natural and artificial) did not reduce the volume loss, but the lubricant gel was effective to reduce both the volume loss and the coefficient of friction. The relationship between the value of the roughness Sq and the friction coefficient was not linear, nor between the roughness Sq and the wear coefficient for all conditions. In increasing order of severity, the micromechanisms of wear were: wear at the interrod enamel (8 N - gel); crack propagation in the interrod enamel (8 N - dry); tribochemical reactions associated with mechanical wear (8 N - natural saliva and artificial saliva; 16 N - gel; 16 N - natural saliva and artificial saliva); and flake-like wear (16 N - dry).

Atrição

Atrito

Attrition

Carga normal

Desgaste dental

Desgaste por deslizamento alternado

Enamel

Esmalte

Friction

Lubrificação

Mecanismos de desgaste

Normal load, Lubrication

Reciprocating sliding wear

Tooth wear

Wear mechanism

Novo método para o estudo de desgaste por atrição (deslizamento alternado) em esmalte bovino, em função da carga normal e da lubrificação: redução do desgaste com gel lubrificante oral / New method to study the wear by attrition (reciprocating sliding) in enamel, depending on the normal load and lubrication: reduction in wear with gel oral lubricant

Priscilla Pessin Coppo

27 April 2015

O esmalte dental é o tecido mineralizado mais duro do corpo humano; apesar disto, seu desgaste é um problema muito comum. Este pode estar associado aos processos de envelhecimento, ou ainda, ser encontrado em indivíduos jovens, como consequência de atividades parafuncionais, por exemplo, atrição dental. Este tipo de dano pode resultar em prejuízo da função mastigatória e em diminuição da qualidade de vida. Por isto, o desgaste do esmalte dental tem sido objeto de muitos estudos, embora poucos tenham utilizado conceitos tribológicos. Não foi encontrado nenhum estudo que explorasse o desgaste de esmalte e seus micromecanismos oriundos do deslizamento alternado de incisivo contra incisivo, configuração que mais se aproxima do tribossistema real de atrição. O presente estudo tem por objeto investigar o desgaste e seus mecanismos em pares deslizantes de esmalte incisal (configuração pino-plano), selecionados por seus similares valores de dureza e de tenacidade à fratura, submetidos a diferentes cargas normais e lubrificações do meio. Incisivos bovinos foram ensaiados em deslizamento alternado sob duas cargas normais (8 N e 16 N) e quatro modos de lubrificação: saliva natural; saliva artificial; gel lubrificante oral (Oralbalance!, Biotène); e grupo controle sem lubrificação (seco). Durante os ensaios, foram levantadas as curvas de atrito. O volume desgastado e a rugosidade da superfície foram mensurados via perfilometria 3D. Os micromecanismos de desgaste foram analisados ao microscópio eletrônico de varredura. O aumento da carga normal aplicada resultou em aumento do volume de desgaste para todas as condições. Comparando-se ao grupo sem lubrificação, as salivas (natural e artificial) não reduziram o desgaste, mas a lubrificação com o gel foi efetiva para reduzir tanto o volume de esmalte desgastado como o coeficiente de atrito. A relação entre o valor do parâmetro de rugosidade Sq e o coeficiente de atrito não foi linear, nem entre a rugosidade Sq e o coeficiente de desgaste, para todas as condições. Os micromecanismos de desgaste encontrados foram, em ordem crescente de severidade: desgaste da região interprismática (8 N - gel); propagação de trincas interprismáticas (8 N - seco); reações triboquímicas associadas à ação mecânica (8 N - saliva natural e artificial; 16 N - gel; 16 N - saliva natural e artificial); e desplacamento (16 N - seco). / Enamel is the hardest mineralized tissue in the human body; despite that, the enamel wear is a very common problem. The wear damage can be related to aging processes or also be found in young people as a result of parafunctional activities, for example, dental attrition. This type of damage can result in loss of masticatory function and decreased quality of life. Therefore, the wear of the enamel has been the subject of many studies, although few have used tribological concepts. The wear mechanisms of reciprocating sliding pairs from incisor against incisor have not been reported in the literature, this configuration is the one that is closest to the real tribosystem of attrition. The present study aims to investigate the wear behavior and the related mechanisms in reciprocating sliding pairs of incisal enamel (pin-on-flat configuration), selected for their similar hardness and fracture toughness values, with different applied normal loads and lubrication conditions. Bovine incisors were tested in reciprocating sliding with different applied normal loads (8 N and 16 N) and four lubrication conditions: natural saliva; artificial saliva; oral gel lubricant (Oralbalance!, Biotène); and control group (dry). During tests, the friction curves were recorded. The volume loss and the surface roughness Sq were investigated by 3D profilometry. Wear mechanisms were analyzed by scanning electron microscope. The increase of the normal load resulted in an increased volume loss for all conditions. Comparing to the group without lubrication, the saliva (natural and artificial) did not reduce the volume loss, but the lubricant gel was effective to reduce both the volume loss and the coefficient of friction. The relationship between the value of the roughness Sq and the friction coefficient was not linear, nor between the roughness Sq and the wear coefficient for all conditions. In increasing order of severity, the micromechanisms of wear were: wear at the interrod enamel (8 N - gel); crack propagation in the interrod enamel (8 N - dry); tribochemical reactions associated with mechanical wear (8 N - natural saliva and artificial saliva; 16 N - gel; 16 N - natural saliva and artificial saliva); and flake-like wear (16 N - dry).

Atrição

Atrito

Carga normal

Desgaste dental

Desgaste por deslizamento alternado

Esmalte

Lubrificação

Mecanismos de desgaste

Attrition

Enamel

Friction

Normal load, Lubrication

Reciprocating sliding wear

Tooth wear

Wear mechanism

Electrochemical Characterization Of Zinc-Rich Epoxy Primer-Cnt Nanocoating / Steel Interface In Co2 Saturated Under Different Flow Conditions

Valencia , Violeta

03 June 2015

No description available.

Engineering

Chemistry

Chemical Engineering

Carbon nanotubes CNT

turbulent flow

hydrodynamics

EIS

Electrochemical Impedance Spectroscopy

SEM

Zinc-rich epoxy primers

coatings

CO2

carbon dioxide

NaCl

salt solution

sweet corrosion

internal coating

pipeline

X52 stee

wear mechanism

Greffage de polymères biomimétiques sur implants articulaires en polyéthylène: contrôle du comportement tribologique

Wang, Na

15 April 2013

Les maladies ostéoarticulaires représentent environ 10% de l'ensemble des pathologies identifiées en France chaque année. Pour l'instant aucun traitement permettant la réparation du tissu cartilagineux n'est vraiment disponible, hormis la pose d'un implant articulaire. Mais, malgré de nombreux efforts pour développer de nouveaux matériaux pour les implants articulaires leur durée de vie in vivo s'avère souvent très décevante par rapport aux extrapolations faites à partir de simulations ex-vivo. Les discordances entre les durées de vie in vivo et ex vivo sont principalement imputées aux conditions d'essais ex vivo insuffisamment réalistes vis-à-vis des propriétés physico-chimiques des lubrifiants biologiques. Dans ce contexte, ce travail vise à agir sur la réactivité physicochimique des surfaces frottantes des implants articulaires en UHMWPE afin de maîtriser l'accrochage des molécules lubrifiantes de type phospholipidique et ainsi d'augmenter leurs performances tribologiques. Les résultats montre que l'activation physichochimique des surfaces de UHMWPE par des couche de MPC peut diminuer l'usure des surfaces polymères d'implant mais cela nécessite un contrôle de la qualité de la couche MPC greffée (densité surfacique, épaisseur, accrochage chimique, adsorption physico-chimique) afin de garantir une bonne tenue mécanique et tribologique. D'autre part il a été montré que la présence de lubrifiant biologique (substitut du fluide synovial à base de liposomes) réduit l'usure des surfaces de UHWPE même si la couche de MPC est peu dense et peu épaisse

Joint implant

UHMWPE

MPC

Graft polymerization

Atomic force spectroscopy

Wear mechanism

Etude expérimentale des systèmes d'étanchéité de type labyrinthe pour turbomachine par l'étude du contact grande vitesse / Experimental study of the labyrinth sealing system for turbo-engine by studying high speed interaction

Delebarre, Corentin

18 December 2015

Une des solutions envisagées par les motoristes pour améliorer le rendement des turbomoteurs consiste à réduire le jeu en fonctionnement dans les deux systèmes d’air des turbomachines. Plus particulièrement dans le système d’étanchéité d’air secondaire, la réduction du jeu entre les parties fixes et tournantes améliore le contrôle des étanchéités du moteur et les niveaux de refroidissement entre les différents modules des turbomoteurs, mais entraînent des interactions indésirables entre les différents composants. Les systèmes d’étanchéité dynamiques sont composés de joints labyrinthes couplés à un revêtement abradable sacrificiel en vis-à-vis, qui offre la particularité de s’user préférentiellement en préservant la majeure partie du système d’étanchéité en évitant une usure de la partie tournante. L’objectif de cette thèse est de reproduire et d’étudier, par l’intermédiaire d’un banc technologique haute vitesse spécialement conçu pour l’étude, les interactions labyrinthe-abradable appliquées au couple acier inoxydable/Al-Si 6%, dans des conditions de fonctionnement d’un turbomoteur. Une instrumentation spécifique est développée sur le banc et apporte à l’étude les données expérimentales manquantes visant à la caractérisation des interactions labyrinthe-abradable. Une analyse tribologique, basée sur le concept de troisième corps, est menée afin d’identifier les différents débits de matière puis de décrire les étapes successives des mécanismes d’usure (circuit tribologique) du revêtement Al-Si 6%. L’influence des paramètres de pilotage de l’interaction et de la géométrie du joint a été étudiée. Enfin, une étude statistique basée sur l’iconographie des corrélations, permet de modéliser le comportement global du système labyrinthe-abradable, d’identifier les paramètres influents du système et d’apporter des critères pour une potentielle surveillance des interactions. Ces travaux de thèse ont été réalisés dans le cadre d’une collaboration entre TURBOMECA Bordes (groupe SAFRAN), et le Laboratoire Génie Production (LGP) de Tarbes. / S of turbomachinery. Especially in the secondary air sealing system, the tight clearance between the stationary and rotating parts improves control of engine seals and cooling levels between the different modules of the engines but may cause undesirable interactions between the static and rotating components. Dynamic sealing systems are composed of labyrinth seals coupled to a sacrificial abradable coating, which can accommodate interactions to preserve the global geometrical seal integrity. The objective of this thesis is to study and reproduce, through a technological high speed test rig specifically designed for the study, the labyrinth-abradable interactions applied to stainless steel/Al-Si 6% couple, under similar turbo-engine operating conditions. A suitable instrumentation is developed on the test ring to complete missing experimental data to characterize abradable labyrinth interactions. A tribological study, based on the third body concept, is proposed to identify wear mechanisms process of the Al-Si 6% coating. The influence of interaction control parameters and the seal geometry was investigated. Finally, a statistical study, based on the iconography of the correlation, is proposed to model the overall labyrinth-abradable system behavior and to identify influential parameters of the system and provide suitable criteria to monitor labyrinth seal interactions. This work was achieved within the framework of cooperation between TURBOMECA Bordes (SAFRAN Group), and the Laboratoire Génie de Production (LGP) de Tarbes.

Joint labyrinthe

Revêtement abradable

Contact labyrinthe-abradable

Contact à haute vitesse

Mécanisme d’usure

Troisième corps

Iconographie des corrélations

Couple Inox-Al-Si 6%

Labyrinth seal

Abradable coating

Labyrinth-abradable contact

High speed contact

Wear mechanism

Third body

Iconography correlations

Stainless steel-Al-Si 6% couple