ÓSCAR JUAN BORRERO LÓPEZ

Literals

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  • A0500-CATEDRÁTICO/A DE UNIVERSIDAD
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  • 35d0c922e991af0f993c3c7be55b38c3
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  • TIEMPO COMPLETO
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  • ÓSCAR JUAN
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  • BORRERO LÓPEZ
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  • ÓSCAR JUAN BORRERO LÓPEZ
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  • 9038396500

Typed Literals

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  • AMPLIACIÓN DE FUNDAMENTOS DE CIENCIA DE MATERIALES
  • COMPORTAMIENTO TÉRMICO Y ELECTROMAGNÉTICO DE LOS MATERIALES I
  • DEGRADACIÓN, PROTECCIÓN Y SELECCIÓN DE MATERIALES
  • INICIACIÓN A LA INVESTIGACIÓN EN CIENCIA E INGENIERÍA DE MATERIALES
  • NANOMATERIALES Y MATERIALES AVANZADOS PARA APLICACIONES ENERGÉTICAS
  • AMPLIACIÓN DE FUNDAMENTOS DE CIENCIA DE MATERIALES
  • COMPORTAMIENTO TÉRMICO Y ELECTROMAGNÉTICO DE LOS MATERIALES I
  • COMPORTAMIENTO TÉRMICO Y ELECTROMAGNÉTICO DE LOS MATERIALES I
  • DEGRADACIÓN, PROTECCIÓN Y SELECCIÓN DE MATERIALES
  • DEGRADACIÓN, PROTECCIÓN Y SELECCIÓN DE MATERIALES
  • FUNDAMENTOS DE CIENCIA DE MATERIALES
  • FUNDAMENTOS DE CIENCIA DE MATERIALES
  • FUNDAMENTOS DE CIENCIA DE MATERIALES
  • FUNDAMENTOS DE CIENCIA DE MATERIALES
  • FUNDAMENTOS DE CIENCIA DE MATERIALES
  • FUNDAMENTOS DE CIENCIA DE MATERIALES
  • FUNDAMENTOS DE CIENCIA DE MATERIALES
  • FUNDAMENTOS DE CIENCIA DE MATERIALES
  • INICIACIÓN A LA INVESTIGACIÓN EN CIENCIA E INGENIERÍA DE MATERIALES
  • INICIACIÓN A LA INVESTIGACIÓN EN CIENCIA E INGENIERÍA DE MATERIALES
  • INICIACIÓN A LA INVESTIGACIÓN EN CIENCIA E INGENIERÍA DE MATERIALES
  • INICIACIÓN A LA INVESTIGACIÓN EN CIENCIA E INGENIERÍA DE MATERIALES
  • NANOMATERIALES Y MATERIALES AVANZADOS PARA APLICACIONES ENERGÉTICAS
  • NANOMATERIALES Y MATERIALES AVANZADOS PARA APLICACIONES ENERGÉTICAS
  • NANOMATERIALES Y MATERIALES AVANZADOS PARA APLICACIONES ENERGÉTICAS
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• ou:tienePublicacion
  • A model for predicting wear rates in tooth enamel
  • A route for the pressureless liquid-phase sintering of SiC with low additive content for improved sliding-wear resistance
  • A simple nanoindentation-based methodology to assess the strength of brittle thin films
  • Anisotropy effects on the reliability of single-crystal silicon
  • Bioinspired design of triboceramics: Learning from the anisotropic micro-fracture response of dental enamel under sliding contact
  • Characterization of the chemically deposited hydroxyapatite coating on a titanium substrate
  • Chipping of ceramic-based dental materials by micrometric particles
  • Contact damage of human dental enamel under cyclic axial loading with abrasive particles
  • Contact damage of tetrahedral amorphous carbon thin films on silicon substrates
  • Desconchado de materiales dentales. Efectos de terceras partículas de tamaño micrométrico
  • Desgaste del esmalte dental humano a escalas micro y macroscópica
  • Effect of 1-D and 2-D carbon-based nano-reinforcements on the dry sliding-wear behaviour of 3Y-TZP ceramics
  • Effect of Ar or N2 sintering atmosphere on the high-temperature oxidation behaviour of pressureless liquid-phase-sintered α-SiC in air
  • Effect of Post-Processing Heat Treatment on Micro-Contact Damage of Zirconia-Reinforced Lithium Silicate Dental Materials
  • Effect of a DLC film on the sliding-wear behaviour of TI6AL4V: Implications for dental implants
  • Effect of hexagonal-BN additions on the sliding-wear resistance of fine-grained α-SiC densified with Y3Al5O12 liquid phase by spark-plasma sintering
  • Effect of intergranular phase chemistry on the sliding-wear resistance of pressureless liquid-phase-sintered α-SiC
  • Effect of ion nitriding on the crystal structure of 3 mol% Y 2 O 3 -doped ZrO 2 thin-films prepared by the sol-gel method
  • Effect of liquid-phase content on the contact-mechanical properties of liquid-phase-sintered α-SiC
  • Effect of microstructure on sliding-wear properties of liquid-phase- sintered α-SiC
  • Effect of processing conditions on the sliding-wear resistance of ZrC triboceramics fabricated by spark-plasma sintering
  • Effect of sintering atmosphere on the mechanical properties of liquid-phase-sintered SiC
  • Effect of sintering duration on the sliding-wear resistance of 3Y-TZP dental ceramics
  • Effect of substrate roughness on the contact damage of thin brittle films on brittle substrates
  • Effect of the nature of the intergranular phase on sliding-wear resistance of liquid-phase-sintered α-SiC
  • Effect of the sintering additive content on the non-protective oxidation behaviour of pressureless liquid-phase-sintered α-SiC in air
  • Effect of the sintering additive content on the protective passive oxidation behaviour of pressureless liquid-phase-sintered SiC
  • Effects of the test method on wear measurements in dental enamel/ceramic tribosystems
  • Fracture resistance of dental glass-ceramics under sliding contact
  • Fracture strength of polycrystalline silicon wafers for the photovoltaic industry
  • Fracture, fatigue, and sliding-wear behavior of nanocomposites of alumina and reduced graphene-oxide
  • Fundamental mechanics of tooth fracture and wear: Implications for humans and other primates
  • Hardness degradation in liquid-phase-sintered SiC with prolonged sintering
  • Highly sliding-wear resistant B4C composites fabricated by spark-plasma sintering with Ti–Al additives
  • Improved sliding-wear resistance in in situ-toughened silicon carbide
  • Improving the dry sliding-wear resistance of B4C ceramics by transient liquid-phase sintering
  • Improving the sliding wear resistance of SiC nanoceramics fabricated by spark plasma sintering via gentle post-sintering annealing
  • In-vitro study of the sliding-wear of CAD/CAM dental composite materials
  • Inverse correlations between wear and mechanical properties in biphasic dental materials with ceramic constituents
  • Investigating correlations between translucency and wear resistance in lithium silicate-based dental glass-ceramics
  • Measurement of fracture strength in brittle thin films
  • Mechanical properties and scratch resistance of filtered-arc-deposited titanium oxide thin films on glass
  • Mechanical stability of two-step chemically deposited hydroxyapatite coating on Ti substrate: Effects of various surface pretreatments
  • Mechanics of microwear traces in tooth enamel
  • Mechanics prediction of the fracture pattern on scratching wafers of single crystal silicon
  • Micromechanics of machining and wear in hard and brittle materials
  • Microstructural design of sliding-wear-resistant liquid-phase-sintered SiC: An overview
  • Microstructural development during heat treatment of a commercially available dental-grade lithium disilicate glass-ceramic
  • Microstructural effects on the sliding wear of transparent magnesium-aluminate spinel
  • Microstructural effects on the sliding-wear resistance of pressureless liquid-phase-sintered SiC under diesel fuel
  • Microstructural effects on the sliding-wear resistance of ZrC–MoSi2 triboceramics fabricated by spark-plasma sintering
  • Microstructural evolution and contact-mechanical properties of SiC ceramics prepared colloidally with low additive content
  • Novel bioinspired composites fabricated by robocasting for dental applications
  • Novel experimental methods to investigate the effects of plant phytoliths on tooth enamel wear
  • On the durability of zirconia-reinforced lithium silicate and lithium disilicate dental ceramics under severe contact
  • On the suitability of photocuring-assisted DIW for manufacturing complex prosthesis from commercial dental composites
  • On the vital role of enamel prism interfaces and graded properties in human tooth survival
  • Oxidation behavior of pressureless liquid-phase-sintered α-SiC in ambient air at elevated temperatures
  • Phytoliths can cause tooth wear: Phytoliths Can cause tooth wear
  • Propiedades mecánicas a temperatura ambiente de cerámicos de a-SiC sinterizados con fase líquida de Y2O3-Al2O3
  • Reverse size effect in the fracture strength of brittle thin films
  • Role of particulate concentration in tooth wear
  • Room-temperature mechanical properties of liquid-phase-sintered α-SiC with Y2O3-Al2O3 additions
  • Scratch Fracture of Polycrystalline Silicon Wafers
  • Simulation of enamel wear for reconstruction of diet and feeding behavior in fossil animals: A micromechanics approach
  • Sliding-contact fracture of brittle layers
  • Sliding-wear resistance of liquid-phase-sintered SiC containing graphite nanodispersoids
  • Sliding-wear resistance of pure near fully-dense B4C under lubrication with water, diesel fuel, and paraffin oil
  • Sliding-wear resistance of ultrafine-grained SiC densified by spark plasma sintering with 3Y2O3 + 5Al2O3 or Y3Al5O12 additives
  • Sliding-wear-resistant liquid-phase-sintered SiC processed using α-SiC starting powders
  • Spark plasma sintering and dry sliding-wear of ZrC-16.7 vol.% Co cemented carbides
  • Strength measurement in brittle thin films
  • Substrate effects on the mechanical properties and contact damage of diamond-like carbon thin films
  • The use of the scratch test to measure the fracture strength of brittle thin films
  • Threshold damage mechanisms in brittle solids and their impact on advanced technologies
  • Tutoría recíproca entre iguales en grados de la rama de ingeniería intercentros de la UEx: Caso práctico
  • Ultra-low temperature spark plasma sintering of super wear-resistant hard B4C composites
  • Ultra-low wear B4C-SiC-MoB2 composites fabricated at lower temperature from B4C with MoSi2 additives
  • Wear of ceramic-based dental materials
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  • CIENCIAS DE MATERIALES E INGENIERÍA METALÚRGICA
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  • Escuela De Ingenierías Industriales
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  • DESGASTE POR DESLIZAMIENTO LUBRICADO EN CERÁMICOS DE SIC SINTERIZADOS CON FASE LÍQUIDA
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  • NUEVAS ESTRATEGIAS MICROESTRUCTURALES PARA LA MEJORA DE LA RESISTENCIA AL DESGASTE DE CERÁMICOS AVANZADOS DE SIC

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