OMAR JIMÉNEZ ALEMÁN
omar.aleman@academicos.udg.mx
Departamento de adscripción:
INGENIERIA DE PROYECTOS
Nombramiento: PROFESOR E INVESTIGADOR TITULAR "A"
Categoría: DEFINITIVO
Resumen curricular:
El Dr. Omar Jiménez es egresado de la Ingeniería en Ciencia de Materiales del Tecnológico de Morelia, de la Maestría en Metalurgia y Ciencia de lo... Ver más
El Dr. Omar Jiménez es egresado de la Ingeniería en Ciencia de Materiales del Tecnológico de Morelia, de la Maestría en Metalurgia y Ciencia de los Materiales de la Universidad Michoacana, y del Doctorado en Ingeniería y Ciencia de Materiales de la Universidad de Sheffield, U. K. El Dr. Jiménez es miembro del SNI, Nivel I y ha publicado más de 50 artículos JCR, y cuenta con el Perfil PRODEP de la SEP. Es también, miembro del C. A. consolidado 892 “Ingeniería de Superficies” y ha graduado más de 15 estudiantes, la mayoría de nivel Posgrado. Entre sus líneas de interés destacan el desarrollo de aleaciones y compuestos biomédicos para reemplazos óseos, aleaciones de alta entropía (HEA), aleaciones con memoria de forma (SMA), crecimiento de nanotubos de óxido de titanio TNT y aleaciones por impresión 3D. Ver menos
Perfil de Investigador SNII:
Nivel SNII:
II
Área del conocimiento:
I. Físico-Matemáticas y Ciencias de la Tierra
Campo de investigación:
Física
Periodo vigente:
1 de enero de 2023
-
31 de diciembre de 2027
Perfil PRODEP:
Inicio de la vigencia:
1 de septiembre de 2022
Fin de la vigencia:
31 de agosto de 2028
Bases de datos bibliográficas:
Publicaciones del académico:
2024 - 3 articulos.
- Processing of Porous-Core Materials for Bone Implant Applications: A Permeability and Mechanical Strength Analysis
- WCN24-1402 ANCA-ASSOCIATED GLOMERULONEPHRITIS IN DIABETIC KIDNEY DISEASE: CASE REPORT
- Effect of niobium on corrosion resistance of 75Ti-x-25Ta-xNb alloy
2023 - 19 articulos.
- Analyzing the co-sintering of Ti6Al4V/Al<inf>2</inf>O<inf>3</inf> bilayer materials
- Correlation between TiO<inf>2</inf> nanotubes thickness and their tribocorrosion performance in simulated body fluid solution
- Mechanical and Tribological Properties of the CrAl/CrAlN and CrAl/CrAlN-(a-CN<sub>x</sub>) Multilayers Deposited by HIPIMS
- Analyzing the Sintering Kinetics of Ti12.5Ta12.5Nb Alloy Produced by Powder Metallurgy
- Microstructure and Mechanical Properties of <i>Ti-TiH<sub>2</sub></i> Based Matrix Composites Reinforced with <i>xTiB<sub>2</sub></i> Particles Processed by Powder Metallurgy
- Correlation between TiO2 nanotubes thickness and their tribocorrosion performance in simulated body fluid solution
- Processing of Porous Core Materials Mimicking Bone’s Microstructure: A Permeability and Mechanical Strength Analysis
- Mechanical and Tribological Properties of the CrAl/CrAlN and CrAl/CrAlN-(a-CNx) Multilayers Deposited by HIPIMS
- Electrochemical Properties of CrAl/CrAlN and CrAl/CrAlN-(a-CNx) Multilayer Deposited by High Power Impulse Magnetron Sputtering
- Design of Ti64/Ta Hybrid Materials by Powder Metallurgy Mimicking Bone Structure
- Analyzing the Sintering Kinetics of Ti12. 5Ta12. 5Nb Alloy Produced by Powder Metallurgy
- Fabrication of tailored Ti6Al4V-based materials by conventional powder metallurgy for bone implant applications
- Tribological behavior of WC/WCN/CNx coatings deposited by high power impulse magnetron sputtering
- Powder Metallurgy Fabrication and Characterization of Ti6Al4V/xCu Alloys for Biomedical Applications
- Microstructure and Mechanical Properties of Ti-TiH2 Based Matrix Composites Reinforced with xTiB2 Particles Processed by Powder Metallurgy
- Analyzing the co-sintering of Ti6Al4V/Al2O3 bilayer materials
- Fabrication and characterization of multifunctional materials by powder metallurgy for biomedical applications
- Characterization of infiltration process of AZ91E alloy in Ti64 scaffolds
- M. en C. Luis Martín Flores Cova
2022 - 15 articulos.
- Sintering Analysis of Porous Ti/xTa Alloys Fabricated from Elemental Powders
- Ti64/20Ag porous composites fabricated by powder metallurgy for biomedical applications
- Tribological behavior of multiphase super hard boron nitride films deposited by HiPIMS
- Wear behavior of AZ91E/AlN metal matrix composites
- Phase composition and its effect on the mechanical performance of an AlCoCrFeNiTi high-entropy alloy
- Analysis of in situ gas nitriding by dilatometry of porous Ti6Al4V materials
- Corrosion and tribocorrosion behavior of Ti6Al4V/xTiN composites for biomedical applications
- Effect of the Ag addition on the compressibility, sintering and properties of Ti6Al4V/xAg composites processed by powder metallurgy
- Sintering Analysis of Porous Ti/xTa Alloys Fabricated from Elemental Powders. Materials 2022, 15, 6548
- 生物医用 Ti6Al4V/xTiN 复合材料的腐蚀与腐蚀磨损行为 (英文)
- Development Of Hybrid Ti64/Ta Materials By Press And Sintering For Biomedical Applications
- Fabrication Of Tailored Ti-Based Materials By Conventional Powder Metallurgy For Bone Implant Applications
- 生物医用 Ti6Al4V/xTiN 复合材料的腐蚀与腐蚀磨损行为 (英文)
- 生物医用 Ti6Al4V/xTiN 复合材料的腐蚀与腐蚀磨损行为 (英文)
- 生物医用 Ti6Al4V/xTiN 复合材料的腐蚀与腐蚀磨损行为 (英文)
2021 - 13 articulos.
- Microstructural and high-temperature cyclic oxidation response of NiCoCrAlY coatings with and without SiC + ZrB<inf>2</inf> reactive-element dispenser
- Design and characterization of Ti6Al4V/20CoCrMo−highly porous Ti6Al4V biomedical bilayer processed by powder metallurgy
- Nanoindentation and tribological properties of Ni<inf>51</inf>Ti<inf>49−x</inf>Ta<inf>x</inf> (x < 5 at. %) alloys fabricated by arc melting
- Design of architectured Ti6Al4V-based materials for biomedical applications fabricated via powder metallurgy
- Effect of CoCrMo Addition on Ti6Al4V/xCoCrMo Biomedical Composites Processed by Powder Metallurgy
- Microstructural and high-temperature cyclic oxidation response of NiCoCrAlY coatings with and without SiC+ ZrB2 reactive-element dispenser
- X-ray computed microtomography characterization of Ti6Al4V/CoCrMo biomedical composite fabricated by semi-solid sintering
- Investigation of graphite/CNTs on the equiatomic AlCoNi alloy: Hardness and surface morphology of the oxide scale
- Microstructure and corrosion characterization of a Ti-30Zr alloy with Ta additions processed by arc-melting for biomedical applications
- Nanoindentation and tribological properties of Ni51Ti49− xTax (x< 5 at.%) alloys fabricated by arc melting
- Study of the methane flow influence in the micro-tribology behavior of DLC coatings deposited by PECVD: a Raman analysis
- Tribocorrosion and corrosion behavior of quaternary Ti-24Nb-xZr-ySn alloys in SBF
- 粉末冶金法制备 Ti6Al4V/20CoCrMo 与多孔 Ti6Al4V 双层生物医用材料的设计与表征 (英文)