Fabricação e caracterização de filme fino regenerável hidrofóbico / Fabrication and characterization of healable hydrophobic thin film

Ly, Kally Chein Sheng, 1992-

28 August 2017

Orientador: Antonio Riul Júnior / Dissertação (mestrado) - Universidade Estadual de Campinas, Instituto de Física Gleb Wataghin / Made available in DSpace on 2018-09-02T14:50:41Z (GMT). No. of bitstreams: 1 Ly_KallyCheinSheng_M.pdf: 2442128 bytes, checksum: 86716c6c19fa3a9db425b32c36463141 (MD5) Previous issue date: 2017 / Resumo: Materiais biomiméticos são inspirados em estruturas biológicas para a obtenção de propriedades e funcionalidades específicas. Dentre os materiais biomiméticos, os que são capazes de se regenerar (self-healing) despertaram grande interesse pelo potencial de aplicação em diversas áreas. Para ilustrar, alguns materiais autorregeneráveis poliméricos apresentam regeneração múltipla, necessitando apenas de água para que a regeneração ocorra em alguns minutos, aumentando consideravelmente a proteção mecânica da superfície contra desgastes, danos mecânicos entre outros. Entretanto, múltiplas imersões em água ou em meios aquosos pode degradar o material e neste contexto este projeto visa incorporar a hidrofobicidade a um sistema regenerável. Desta forma, o material regenerável hidrofóbico, durante sua regeneração imersa em água, poderá diminuir a interação da superfície não danificada com a água, reduzindo corrosões e degradações devido a meios aquosos. Estudamos a nanoestruturação de materiais através da técnica de automontagem por adsorção física (LbL, do inglês Layer-by-Layer) utilizando os polieletrólitos poli(etileno imina) (PEI) e poli(ácido acrílico) (PAA), a fim de produzir revestimentos capazes de se regenerar a danos mecânicos micrométricos. Adicionalmente, foram incorporados a estes dois materiais nanofolhas de óxido de grafeno reduzido (rGO) funcionalizados com poli(cloridrato de alilamina) (GPAH) e poli(estireno-sulfonato de sódio) (GPSS), com o intuito de verificarmos um aumento de resistência a abrasão do material e alterações nas propriedades elétricas na nanoestrutura formada para aumentar o potencial de aplicação em eletrônica flexível. A arquitetura molecular (GPAH-PEI/GPSS-PAA)60 foi caracterizada com espectroscopia Raman, medidas de ângulo de contato, microscopia de força atômica, medidas elétricas e nanoindentação. Foi observada boa regeneração do material após 15 minutos de imersão em água a temperatura ambiente em um dano mecânico da ordem de 10 micrômetros. Também observamos boa hidrofobicidade do filme LbL (GPAH-PEI/GPSS-PAA)60 ( teta = 136º), e medidas de microscopia de força atômica e perfilometria indicaram, respectivamente, rugosidade superficial de 55 nm em uma área de (2 ?m x 2 ?m) e espessura de filme de 30 ?m. A análise Raman apontou para uma forte interação das nanofolhas de rGO com os polímeros, corroborando o tem caráter elétrico isolante do filme (GPAH-PEI/GPSS-PAA)60, que apresentou função trabalho ~ 5,2 eV e condutividade elétrica da ordem de 10-7 S/cm, que acreditamos resultar das fortes interações das nanofolhas com os polímeros. Por fim, medidas de nanoindentação indicaram que a incorporação de nanofolhas de GPSS e GPAH aumentou em 10 vezes a dureza do nanocompósito formado, sem comprometer a regeneração / Abstract: Biomimetic materials are inspired in biological structures to obtain specific properties and functionalities and among them, those capable of self-healing brought great interest due to high potential of application in different areas. To illustrate, some polymeric self-healing materials present multiple regeneration in the presence of water, with the regeneration occurring within a few minutes, increasing considerably the mechanical protection of a surface against wear and mechanical damage among others. Nevertheless, multiple immersions in water or in aqueous media can degrade the material and in this context this project aims the incorporation of hydrophobicity to a self-healing system. In this way, the self-healing, hydrophobic material during its immersion in water may decrease the interaction of the damaged surface with water, reducing corrosion and degradation due to aqueous media. We study the nanostructuration f materials through the layer-by-layer (LbL) technique using poly(ethylene imine) (PEI) and poly(acrylic acid) (PAA) in order to produce self-healing coatings from micrometric mechanical damages. In addition, we also incorporate to these materials reduced graphene oxide (rGO) functionalized with poly(allylamine hydrochloride) (GPAH) and poly(styrene-sodium sulfonate) (GPSS), with the purpose of verifying an increase in the mechanical abrasion resistance of the material and changes in the electrical properties of the nanostructures formed to increase the potential application in flexible electronics. The molecular architecture (GPAH-PEI/GPSS-PAA)60 was characterized by Raman spectroscopy, contact angle measurements, atomic force microscopy, electrical measurements and nanoindentation. It was observed good self-healing capacity after 15 min f immersion in water at room temperature in a mechanical scratch of the order of 10 micrometers. It was also observed good hydrophobicity in the (GPAH-PEI/GPSS-PAA)60 LbL film ( teta = 136º) and atomic force microscopy and perfilometer indicate, respectively, surface roughness of 55 nm in a (2 ?m x 2 ?m) area and film thickness of 30 ?m. Raman analysis pointed out to a strong physical interaction between the rGO nanoplatelets with the polymeric materials, corroborating the strong insulating nature of (GPAH-PEI/GPSS-PAA)60 film that displayed a work function of 5.2 eV and electrical conductivity of 10-7 S/cm, which we believe results from the strong interactions of the nanosheets with the polymers. Finally, nanoindentation measurements indicated that the incorporation of GPAH and GPSS nanoplatelets increased hardness by 10 times, without compromising the regeneration / Mestrado / Física / Mestra em Física / 1543078/2015 / CAPES

Materiais inteligentes

Materiais nanocompósitos poliméricos

Materiais de autocuração

Óxido de grafeno reduzido

Filmes finos

Hidrofobicidade

Smart materials

Polymeric nanocomposite materials

Self-healing materials

Reduced graphene oxide

Thin films

Hydrophobicity

Silicone supramoléculaire : un nouveau concept permettant l'auto-cicatrisation / Supramolecular silicone : a new concept allowing self-healing

Simonin, Léo

03 December 2018

Les silicones auto-cicatrisants de façon autonome (sans stimulus externe) présentent de faibles propriétés mécaniques, limitant leur utilisation industrielle. L’objectif de cette étude était de dépasser cette limitation. Nos travaux se sont intéressés aux copolymères segmentés PDMS-urée constitués de blocs souples (SS) et rigides (HS). Tout d’abord, nous avons étudié la relation entre la structure des bis-urées et les propriétés macroscopiques. Nous avons ainsi montré que la symétrie des HS gouverne la rigidité de ces matériaux. Toutefois, la présence de HS symétriques inhibe la cicatrisation du matériau. Puis, nous avons développé un nouveau concept permettant d’accélérer leur cinétique de cicatrisation. Un stoppeur de chaine macromoléculaire a été ajouté à la formulation de ces silicones thermoplastiques, créant un défaut dans l’assemblage supramoléculaire, conduisant à des clusters organiques plus petits et plus dynamiques. Néanmoins, contrairement aux plastifiants, la chute du module de Young observée par rapport à la matrice est limitée. D’ailleurs, nous reportons la synthèse d’un copolymère PDMS-urée avec un module de traction de 1MPa dont 90% de la contrainte à rupture peut être récupérée après cicatrisation pendant 24h à 25°C. Ce concept a aussi été adapté à un thermoplastique commercial (GENIOMER80). Enfin, notre défi a été d’optimiser la balance entre rigidité et autocicatrisation. Dans ce contexte, nous avons synthétisé de nouvelles matrices plus rigides, ainsi que des additifs avec des groupements associatifs de plus grande énergie cohésive. Nous avons alors pu repousser la limite de rigidité accessible aux silicones auto-cicatrisants de façon autonome (3MPa). / Autonomous self-healable (without external stimulus) silicones exhibit too low mechanical properties restricting their use in industry. The aim of this study was to overcome this limitation. We focused our work on segmented PDMS-urea copolymers made of soft (SS) and hard segments (HS). First the investigation of the relationship between the bis-urea chemical structure and the macroscopic properties was made. Results shown that, the symmetry of HS governs materials rigidity. Moreover, with a too symmetrical HS, the material does not exhibit self-healing abilities. We have developed a new concept improving the healing efficiency of these materials. The idea was to add to the formulation of these silicone thermoplastics a macromolecular chain stopper. The new additive creates a defect in the supramolecular assembly which leads to smaller and more dynamic H-bonding clusters and hence a faster healing kinetic. Unlike plasticizers, this additive deteriorates the tensile modulus only marginally. We therefore report a stress at break recovery of 90% after 24 hours at room temperature for a PDMS-urea copolymer with a tensile modulus of 1MPa. The concept was also extented to a commercial thermoplastic (GENIOMER80). Finally, our last challenge was to manage the balance between rigidity and chains dynamics allowing self-healable materials with good mechanical properties. In this context we have synthesized new matrixes with higher HS percentage and additives with stickers with higher cohesive energy. These new syntheses have led to an improvement of the rigidity limit reachable by the autonomous self-healable silicones (3MPa).

Silicone

Autocicatrisation

Liaisons hydrogène

Stoppeur de chaine

Bis-Urée

Polymères segmentés

Silicone

Self-healing

H-bonding

Chain stopper

PDMS-urea

Segmented polymers

541.2254

Estudo da resistência à  corrosão da liga de alumínio 2024-T3 clad anodizada em ácido tartárico sulfúrico e pós-tratada em banho contendo íons Ce. / Study of the corrosion resistance of 2024-T3 clad aluminum alloy analized in sulfuric tarturic acid and post-treated in a both containing Ce ions.

Prada Ramirez, Oscar Mauricio

02 August 2019

Neste estudo foi avaliada a resistência à corrosão da liga 2024-T3 clad, anodizada em solução de ácido tartárico-sulfúrico (TSA) e pós-tratada em banhos contendo íons de cério (Ce(NO3)3) sem e com H2O2. O pós-tratamento visa aumentar a resistência à corrosão e conferir propriedades de auto regeneração à camada anodizada, sem, no entanto, causar o fechamento dos poros, mantendo assim as propriedades de adesão. Foram avaliados os efeitos da temperatura, do tempo de imersão e da porcentagem de H2O2 no banho de pós-tratamento sobre a microestrutura e resistência à corrosão. As observações por microscopia eletrônica de varredura (MEV) mostraram que não houve fechamento dos poros e que ocorre precipitação preferencial de oxihidróxidos de Ce nas proximidades dos defeitos da camada. A avaliação da resistência à corrosão em solução de NaCl 0,1 e 0,5 mol/L por espectroscopia de impedância eletroquímica (EIS) mostrou que a etapa de pós-tratamento em solução contendo 50 mM de Ce(NO3)3.6H2O e 10% vol. de H2O2 melhora o desempenho da camada, com o melhor resultado tendo sido obtido para a temperatura intermediária (50°C) de pós-tratamento. Os resultados dos ensaios de EIS mostraram também efeito negativo de altas temperaturas no pós-tratamento nas propriedades protetoras da camada anodizada. Esses resultados foram confirmados por fotos digitais e observação SEM das amostras após a conclusão dos experimentos de EIS. Já a caracterização composicional por meio de GDOES mostrou a incorporação de espécies de Ce dentro dos poros da camada anodizada após pós-tratamentos em solução contendo 50 mM de Ce(NO3)3.6H2O e 10% vol. H2O2 a 50°C para tempos de imersão de 2 e 5 minutos, resultados confirmados com a técnica RBS, que mostrou ainda a presença de Ce na superfície da camada e no interior dos poros mesmo após 15 dias de imersão em NaCl 0,1M. Medições de XPS mostraram que o Ce está presente na superfície das amostras nos estados de oxidação 3+ e 4+, e uma maior relação Ce3+/Ce4+ para as amostras pós-tratadas por 2 minutos. O ajuste dos diagramas de EIS com circuitos equivalentes mostrou que a selagem parcial dos poros tem papel importante na resistência à corrosão, e evidenciaram que os pós-tratamentos mais eficientes não afetam as propriedades protetoras da camada barreira. / This study evaluated the corrosion resistance of a 2024-T3 clad alloy anodized in tartaric-sulfuric acid solution (TSA) and post-treated in baths containing cerium ions, without or with H2O2. The post-treatment aims to increase the corrosion resistance and afford self-healing properties to the anodized layer, without, however, closing its porous structure, thus maintaining its adhesion properties. The effects of the temperature, immersion time and concentration of H2O2 in the post-treatment bath in the microstructure and in the corrosion resistance of the samples were evaluated. SEM observations showed that pores are not blocked and that preferential precipitation of Ce occurs in the vicinity of defective sites of the anodized layer. The evaluation of the corrosion resistance in 0.1 and 0.5 mol/L NaCl solution by means of electrochemical impedance spectroscopy (EIS) showed that the post-treatment in solutions containing 50 mM of Ce(NO3)3.6H2O and 10% vol. of H2O2 improves the corrosion resistance of the anodized samples, with the best result being obtained for the intermediary temperature (50°C) of the post-treatment bath. The results of the EIS tests also showed a negative effect of higher temperatures on the protective properties of the anodized layer. Digital photos and SEM observation of the samples after the completion of the EIS experiments confirmed these results. The compositional characterization by GDOES showed the incorporation of Ce species within the pores of the anodized layer after post-treatments in solution containing 50 mM Ce (NO3)3.6H2O and 10% vol. H2O2 at 50°C for 2 and 5 minutes, confirmed by the RBS technique, which also showed the presence of Ce both at the surface and within the pores of the layer, even after 15 days of immersion in 0.1M NaCl. XPS measurements showed the presence of Ce3+ and Ce4+ species at the post-treated samples surface and showed higher Ce3+ / Ce4+ ratio for the sample post-treated for 2 minutes. Fitting of the EIS diagrams with equivalent circuits showed that partial pore sealing plays an important role in corrosion resistance and evidenced that the most efficient post-treatments do not affect the protective properties of the barrier layer.

2024-T3

2024-T3

Anodização tartárico-sulfúrico

Auto regeneração

Cério

Cerium

Corrosão

EIS

EIS

Ligas leves

Self-healing

Tartaric sulfuric anodizing

Corrosion protection concepts for aluminium and magnesium alloys coated with silica films prepared by water-based sol-gel process / Konzepte für den Korrosionsschutz von Aluminium-und Magnesiumlegierungen mit mittels Sol-Gel-Prozess hergestelltem Silikafilm auf Wasserbasis

Darwich, Samer

14 August 2012

The present work provides an insight in the development of silica films prepared by water-based sol-gel process. The weaknesses of the coating technology are identified, also solutions are discussed. The silica film is applied on aluminium alloy 6082-T6 and magnesium alloy AZ31. The development of the coating properties such as cost-efficiency, crack-free, self-healing and long-term corrosion protection is the main topic of this work. Cracking is the major drawback of silica films; the cracks are generated due to shrinkage of the film during the heat treatment, nanoparticles-doped silica film is successfully reduced the shrinkage which leads to crack-free silica films. The self-healing of the coated aluminium and magnesium samples is generated by corrosion inhibitors-doped silica film. When a defect appears in the film, the corrosion inhibitors leach out of the silica film to the defect area to heal the corroded surface. The long-term corrosion protection is realized by means of a mixture of corrosion inhibitors-doped silica film. / Die vorliegende Arbeit liefert einen Einblick in die Entwicklung von Silikafilmen, die mittels Sol-Gel-Prozess auf Wasserbasis hergestellt wurden. Die Schwächen der Beschichtungstechnologie werden dargestellt und Lösungen diskutiert. Der Silikafilm wird auf Aluminiumlegierung 6082-T6 und Magnesium-legierung AZ31 aufgebracht. Schwerpunkt dieser Arbeit ist die Entwicklung der Schichteigenschaften, wie Kosteneffizienz, Rissfreiheit, Selbstheilung so wie langfristiger Korrosionsschutz. Rissbildung ist ein wesentlicher Nachteil von Silikafilmen; rissfreie Filme wurden mittels nanopartikeldotierter Silikafilme hergestellt. Die Selbstheilung von Aluminium-und Magnesiumsubstraten mit Silikafilm wird durch den Effekt der wasserlöslichen Korrosionsinhibitoren generiert. Die Experimente haben gezeigt, dass die Proben mit inhibitordotierter Beschichtung selbst gegen Korrosion geschützt sind. Ein langfristiger Korrosionsschutz wird durch eine Mischung aus Korrosionsinhibitor-dotierten Silika-Film realisiert.

Wasserbasis sol

Silikafilm

Sol-Gel-Prozess

Korrosionsinhibitoren

Selbstheilung

Korrosionsschutz

water-based sol

silica film

sol-gel process

corrosion inhibitors

self-healing

corrosion protection

ddc:629

Korrosionsschutz

Selbstheilung

Applications of N-heterocycles in electrically and ionically conductive polymers

Norris, Brent Carl

20 October 2011

The covalent bond formed between a N-heterocyclic carbene and an aryl-isothiocyanate was discovered to be thermally-reversible. This bond was incorporated into the backbone of an aromatic polymer which, when subjected to heat and excess monomer, would depolymerize to smaller oligomers. In addition these small molecules contain active chain ends and could be repolymerized to reform the original polymer. The high molecular weight material was made into freestanding sheets with desirable mechanical properties and could be made conductive by treatment with iodine. A new poly(triazene) was formed from the reaction of a facially opposed, annulated, bis-N-heterocyclic carbene (NHC) and an organic bis-azide. The NHC as well as the azide were varied and combined to produce a series of polymers which were characterized by GPC, TGA, and NMR. These thermally robust polymers were also coated onto glass slides and rendered electrically conductive by exposure to iodine vapor. A new reagent for Reversible Addition Fragmentation Chain Transfer Polymerization (RAFT) is described. This imidazolium based reagent shows unusually fast kinetics which allows it to control polymerizations at significantly reduced loadings compared to the more traditional neutral dithiocarbamates or dithioesters. The fast kinetics is explained by the rapid rotation of the dithioester about the plane of the cationic N-heterocycle. Sulfonated poly(ether ether ketone) (sPEEK) membranes were blended with imidazoles with varying pKas. The proton conductivity of the membranes was evaluated as a function of pKa and temperature. Interestingly, the conductivity of the dry membranes showed a non-monotonous profile over a temperature range of 25 – 150 C. We use a theoretical model to better understand the mechanistic origins of the observed temperature–conductivity profiles. This model is based on the reaction equilibria between sPEEK’s sulfonic acid groups and the basic sites of the added heterocycles. Using the copper-catalyzed 1,3-dipolar “click” cycloaddition reaction, poly(sulfone)s containing pendant azide moieties were functionalized with various amounts of sodium 3-(prop-2-ynyloxy)propane-1-sulfonate and crosslinked with 1,7-octadiyne. The degree of sulfonation as well as the degree of cross-linking was systematically varied by changing the ratios of the aforementioned reagents. The polymers were cast into membranes, acidified, and then tested for proton conductivity, methanol permeability, and membrane-electrode assembly (MEA) performance. / text

Dynamic covalent polymers

Self healing materials, reversible

Conjugated polymers

Direct methanol fuel cell membranes

N-heterocyclic carbene

Polytriazene

Design of self-repairable superhydrophobic and switchable surfaces using colloidal particles

Puretskiy, Nikolay

06 March 2014

The design of functional materials with complex properties is very important for different applications, such as coatings, microelectronics, biotechnologies and medicine. It is also crucial that such kinds of materials have a long service lifetime. Unfortunately, cracks or other types of damages may occur during everyday use and some parts of the material should be changed for the regeneration of the initial properties. One of the approaches to avoid the replacement is utilization of self-healing materials. The aim of this thesis was to design a self-repairable material with superhydrophobic and switchable properties using colloidal particles. Specific goals were the synthesis of colloidal particles and the preparation of functional surfaces incorporated with the obtained particles, which would exhibit a repairable switching behavior and repairable superhydrophobicity. In order to achieve these goals, first, methods of preparation of simple and functional colloidal particles were developed. Second, the behavior of particles at surfaces of easy fusible solid materials, namely, paraffin wax or perfluorodecane, was investigated.

Superhydrophobe Oberflächen

kolloidale Partikel

schaltbare Oberflächen

Selbstheilung

himbeer-ähnliche Partikel

Superhydrophobic surfaces

colloidal particles

switchable surfaces

self-healing

raspberry-like particles

ddc:540

rvk:VE 8007

Reconfigurable amplifiers and circuit components for built-in-self testing and self-healing in SiGe BiCMOS technology

Howard, Duane Clarence

22 May 2014

The design of reconfigurable microwave and millimeter-wave circuit components and on-chip testing circuitry are demonstrated. These components are designed to enable the mitigation of process faults, aging, radiation effects, and other mechanisms that lead to performance degradation in circuits and systems. The presented work is primarily based on SiGe HBTs in BiCMOS technology and harnesses the inherent resilience of SiGe to mechanisms that degrade transistor performance. However, CMOS FETs are also used in limited applications, such as in the design of switches, op-amps, and DACs. Individual circuit blocks and circuit systems are characterized with the aim of evaluating their performance under nominal conditions as well as in the context of extreme environments and other deleterious phenomena.

Microwave systems

RF systems

Tunable circuits

Automated testing

Built-in-self testing

Self-healing

Integrated circuits

Microwave integrated circuits

Electronic circuits

Microwave circuits

Estruturas de avaliação escolar para mapear habilidades tomando como base as Taxonomias de Bloom em questões de múltipla escolha

Martins, Henrique Araken

January 2016

Orientador: Prof. Dr. Valdecir Marvulle / Dissertação (mestrado) - Universidade Federal do ABC, Programa de Pós-Graduação em Mestrado Profissional em Matemática em Rede Nacional, 2016. / Na educação, desde sempre existe a necessidade de melhorar os resultados do desempenho de aprendizado de nossos alunos. Sendo assim, com grande frequência surgem novas propostas com intenção de aperfeiçoar o todo, ou parte do processo educativo. "As estruturas de avaliação escolar para mapear habilidades tomando como base a Taxonomia de Bloom em questões de múltipla escolha", tem por objetivo: propor uma metodologia de elaboração de questões seguindo os patamares da hierarquia de aprendizado proposto por Bloom; aplicação on-line de avaliações de múltiplas escolhas; priorizar a devolutiva dos resultados com a finalidade de mapear por meio de um gráfico de cores as habilidades dos alunos, das turmas, das séries, e da escola; obter indicadores do ensino dos professores e obter indicadores dos conteúdos envolvidos. Na prática, desenvolvemos uma planilha de correção on-line que dinamizou o processo de correção, fornecendo-nos indicadores de processo instantâneos, permitindo-nos refletir, discutir e propor intervenções do nosso ensino, através dos resultados de aprendizado de nossos alunos. / In education, we always felt the need to improve the outcome of the learning process of our students. Often we hear about new proposals, aimed at improving the whole teaching process, or just part of it. Models of school evaluation to map skills, based on Bloom¿s Taxionomy in multiple choice questions has the following objectives: to propose a methodology for the processing of the questions, based on the different levels of the learning hierarchy suggested by Bloom; the online application of multiple choice evaluations; to prioritize the feedback about results, in order to map the skills of students, classes, and of a given school through a color graph; to obtain indicators about the teaching performance of the teacher, and to the relevant contents that are involved. We developed a worksheet for the online correction, which can dinamize the proofing process and result in instantaneous process indicators, thus allowing us to reflect, discuss and suggest interventions in our education system, based on the performance of our students.

PLANILHAS DE AUTOCORREÇÃO

TAXONOMIA DE BLOOM

SELF-HEALING GRID

BLOOM'S TAXONOMY

Développement d'architectures HW/SW tolérantes aux fautes et auto-calibrantes pour les technologies Intégrées 3D / Development of HW/SW Fault Tolerant and Self-Configuring Architectures for 3D Integrated Technologies

Pasca, Vladimir

11 January 2013

Malgré les avantages de l'intégration 3D, le test, le rendement et la fiabilité des Through-Silicon-Vias (TSVs) restent parmi les plus grands défis pour les systèmes 3D à base de Réseaux-sur-Puce (Network-on-Chip - NoC). Dans cette thèse, une stratégie de test hors-ligne a été proposé pour les interconnections TSV des liens inter-die des NoCs 3D. Pour le TSV Interconnect Built-In Self-Test (TSV-IBIST) on propose une nouvelle stratégie pour générer des vecteurs de test qui permet la détection des fautes structuraux (open et short) et paramétriques (fautes de délaye). Des stratégies de correction des fautes transitoires et permanents sur les TSV sont aussi proposées aux plusieurs niveaux d'abstraction: data link et network. Au niveau data link, des techniques qui utilisent des codes de correction (ECC) et retransmission sont utilisées pour protégé les liens verticales. Des codes de correction sont aussi utilisés pour la protection au niveau network. Les défauts de fabrication ou vieillissement des TSVs sont réparé au niveau data link avec des stratégies à base de redondance et sérialisation. Dans le réseau, les liens inter-die défaillante ne sont pas utilisables et un algorithme de routage tolérant aux fautes est proposé. On peut implémenter des techniques de tolérance aux fautes sur plusieurs niveaux. Les résultats ont montré qu'une stratégie multi-level atteint des très hauts niveaux de fiabilité avec un cout plus bas. Malheureusement, il n'y as pas une solution unique et chaque stratégie a ses avantages et limitations. C'est très difficile d'évaluer tôt dans le design flow les couts et l'impact sur la performance. Donc, une méthodologie d'exploration de la résilience aux fautes est proposée pour les NoC 3D mesh. / 3D technology promises energy-efficient heterogeneous integrated systems, which may open the way to thousands cores chips. Silicon dies containing processing elements are stacked and connected by vertical wires called Through-Silicon-Vias. In 3D chips, interconnecting an increasing number of processing elements requires a scalable high-performance interconnect solution: the 3D Network-on-Chip. Despite the advantages of 3D integration, testing, reliability and yield remain the major challenges for 3D NoC-based systems. In this thesis, the TSV interconnect test issue is addressed by an off-line Interconnect Built-In Self-Test (IBIST) strategy that detects both structural (i.e. opens, shorts) and parametric faults (i.e. delays and delay due to crosstalk). The IBIST circuitry implements a novel algorithm based on the aggressor-victim scenario and alleviates limitations of existing strategies. The proposed Kth-aggressor fault (KAF) model assumes that the aggressors of a victim TSV are neighboring wires within a distance given by the aggressor order K. Using this model, TSV interconnect tests of inter-die 3D NoC links may be performed for different aggressor order, reducing test times and circuitry complexity. In 3D NoCs, TSV permanent and transient faults can be mitigated at different abstraction levels. In this thesis, several error resilience schemes are proposed at data link and network levels. For transient faults, 3D NoC links can be protected using error correction codes (ECC) and retransmission schemes using error detection (Automatic Retransmission Query) and correction codes (i.e. Hybrid error correction and retransmission).For transients along a source-destination path, ECC codes can be implemented at network level (i.e. Network-level Forward Error Correction). Data link solutions also include TSV repair schemes for faults due to fabrication processes (i.e. TSV-Spare-and-Replace and Configurable Serial Links) and aging (i.e. Interconnect Built-In Self-Repair and Adaptive Serialization) defects. At network-level, the faulty inter-die links of 3D mesh NoCs are repaired by implementing a TSV fault-tolerant routing algorithm. Although single-level solutions can achieve the desired yield / reliability targets, error mitigation can be realized by a combination of approaches at several abstraction levels. To this end, multi-level error resilience strategies have been proposed. Experimental results show that there are cases where this multi-layer strategy pays-off both in terms of cost and performance. Unfortunately, one-fits-all solution does not exist, as each strategy has its advantages and limitations. For system designers, it is very difficult to assess early in the design stages the costs and the impact on performance of error resilience. Therefore, an error resilience exploration (ERX) methodology is proposed for 3D NoCs.

Intégration 3D

Thru-Silicon-Via

Détection / Correction des Fautes

Réseau sur Puce

Auto-calibration

3D Integration

Thru-Silicon-Via

Fault Detection / Correction

Networks-on-Chip

Self-configuring / Self-healing

Elaboration par Spark Plasma Sintering et caractérisation de composites et multi-couches zircone yttrié/MoSi2(B) pour application barrière thermique auto-cicatrisante / Elaboration by Spark Plasma Sintering and characterization of yttria partially stabilized zirconia/MoSi2(B) composites and multi-layer systems for self-healing thermal barrier coatings

Nozahic, Franck

28 November 2016

La réparation des revêtements barrières thermiques endommagés par fissuration entraine des coûts de maintenance très élevés. Dans cette étude, qui s’inscrit dans le cadre du projet Européen FP7-SAMBA, il a été proposé d’utiliser des particules de MoSi2(B), revêtues d’une couche d’alumine, comme agent cicatrisant. L’oxydation de celles-ci doit entrainer la formation de silice amorphe qui s’écoule dans la fissure puis réagit avec la barrière thermique en zircone yttriée pour former du zircon. Cette étude traite dans un premier temps de l’élaboration par Spark Plasma Sintering (SPS) de composites modèles composés de zircone yttriée et de particules de MoSi2(B) non revêtues. Les propriétés mécaniques (ténacité, dureté, module d’Young) et thermiques (conductivité thermique, coefficient de dilatation) de ces composites ont été déterminées. Les travaux se sont ensuite orientés vers l’étude du comportement en oxydation cyclique à 1100 °C sous air de ces composites par thermogravimétrie cyclique. La modélisation de l’oxydation de ces composites mais aussi de systèmes multi-couches MoSi2(B)/YPSZ modèles a permis de déterminer les mécanismes et les cinétiques de formation de la silice et du zircon. Une augmentation significative des cinétiques de formation de ces oxydes a été observée lorsque le bore est ajouté dans le MoSi2 ce qui peut être potentiellement très bénéfique pour la cicatrisation des fissures. L'utilisation du procédé SPS a permis de réaliser des systèmes barrières thermiques auto-cicatrisants sur substrats en superalliages à base de nickel revêtus à partir de zircone yttriée et de particules de MoSi2(B) elles-mêmes revêtues d’une couche d’alumine. La pré-oxydation des substrats revêtus favorise la croissance d’une couche d’alumine qui empêche la formation de siliciures par réaction entre les particules et la sous-couche. Ces revêtements présentent une bonne résistance à l’endommagement en cyclage thermique. Les observations post-mortem de ces systèmes mettent en évidence la cicatrisation locale de fissures par formation de silice et de zircon. Bien qu’il ne soit pas possible aujourd’hui de dire si la présence de ces particules augmente ou non la durée de vie de la barrière thermique, par manque de systèmes de référence, ces observations très encourageantes démontrent expérimentalement la validité du concept d’auto-cicatrisation des barrières thermiques proposé dans le cadre de ce projet. / Repair of thermal barrier coatings (TBC) systems damaged by cracking leads to significant maintenance costs. In this project (FP7-SAMBA), it was proposed to use MoSi2(B) particles, coated with an alumina shell, as healing agent for TBCs. Healing particles intercepted by cracks will oxidize preferentially, leading to the formation of amorphous SiO2, which flows into cracks and subsequently reacts with the TBC leading to the formation of a load bearing ZrSiO4 phase. In this study model composite materials were prepared from mixtures of yttria partially stabilized zirconia (YPSZ) and uncoated MoSi2(B) particles by using Spark Plasma Sintering (SPS) technique. Mechanical (toughness, hardness, Young modulus) and thermal (conductivity, coefficient of thermal expansion) properties of these materials were determined. Then, cyclic thermogravimetry analysis (CTGA) was used to study the oxidation behavior of these materials at 1100 °C in air. Kinetics of silica and zircon formations were determined through modelling of the oxidation of composite materials but also the oxidation of multi-layer YPSZ/MoSi2(B) materials. Boron addition was shown to significantly increase silica and zircon formation rates which could be very beneficial for the healing of the cracks. Then, SPS technique was used to sinter self-healing thermal barrier coatings on bond coated Ni-based superalloys from mixtures of YPSZ and Al2O3-coated MoSi2(B) particles. The pre-oxidation of coated substrates was shown to prevent the detrimental formation of silicides by the reaction of MoSi2(B) particles and the bond coat. Good results were obtained upon thermal cycling and post-mortem observations highlight local healing of cracks. At this time, it is too early to quantify the potential effect of the particles on the TBC lifetime due to a lack of reference systems and statistics. However, these observations demonstrate, experimentally, the validity of the self-healing mechanism proposed in the framework of this project.

Composites YPSZ/MoSi2

Système barrière thermique

Frittage Flash

Oxydation haute température

Auto-cicatrisant

Composites YPSZ/MoSi2

Thermal barrier coatings

Spark Plasma Sintering

High temperature oxidation

Self-healing