Juan Francisco Vivanco

Juan Francisco Vivanco
Juan Francisco Vivanco
Profesor Asistente
Área(s): BIOINGENIERÍA
FACULTAD DE INGENIERÍA Y CIENCIAS
PH.D. MATERIALS SCIENCE-BIOMECHANICS, UNIVERSITY OF WISCONSIN-MADISON, UNITED STATES, 2011
E-mail: juan.vivanco@uai.cl
Sede: VIÑA DEL MAR
Edificio: Viña del Mar
Número de oficina: D201

RESUMEN

Profesor Investigador en la carrera de Bioingeniería desde agosto 2014. Ha orientado su trabajo a la formulación y ejecución de proyectos de innovación tecnológica en áreas multidisciplinarias de la bioingeniería con aplicaciones en medicina y sistemas de salud. Tiene publicaciones científicas en experimentación y análisis de estructuras porosas utilizadas en regeneración ósea, biomecánica de implantes ortopédicos, y experimentación multi-escala de biomateriales.

Realizó estudios de postgrado multidisciplinario en la Universidad de Wisconsin-Madison: PhD en Biomateriales y Biomecánica; MSc en Ingeniería de Materiales; MSc en Ingeniería Mecánica; y MSc en Ingeniería Civil. Título profesional de Ingeniero Civil de la UTFSM.

Fue nominado por The American Ceramic Society, EE.UU., como futuro líder en el desarrollo de materiales biocerámicos y premiado por la Wisconsin Alumni Association por haber tenido un desempeño académico excepcional. Becas Presidente de la República de Chile y Eduardo Neale-Silva de la UW-Madison para realizar estudios de postgrado en EE.UU. Beca Federico Santa María para financiar estudios de Ingeniería Civil en la UTFSM.

Revisa aquí su perfil en Google Scholar


Artículos
2017 A methodology based on the Birnbaum–Saunders distribution for reliability analysis applied to nano-materials, Reliability Engineering & System Safety, 157, 192-201
2016 Combined exposure to big endothelin-1 and mechanical loading in bovine sternal cores promotes osteogenesis., BONE, 85, 115-122
2016 Diagnostics in multivariate generalized Birnbaum-Saunders regression models., Journal of Applied Statistics, , 1-21
2016 The Effect of Sintering Temperature on the Microstructure and Mechanical Properties of a Bioceramic Bone Scaffold., Journal of Mechanical Behavior of Biomedical Materials, 4, 2150-2160
2016 Nanomechanical properties of polymeric fibres used in geosynthetics, Polymer Testing, 54, 67-77
2016 Characterization of the quasi-static and viscoelastic properties of orthopaedic bone cement at the macro and nanoscale., Journal of Biomedical Materials Research Part B: Applied Biomaterials (18 abril 2016), ,
2015 Fracture healing in mice lacking Pten in osteoblasts: A micro-computed tomography image-based analysis of the mechanical properties of the femur, Journal Of Biomechanics, 310-317, 48
2015 Mechanical, material, and antimicrobial properties of acrylic bone cement impregnated with silver nanoparticles, Materials Science and Engineering C: Materials for Biological Applications, 188-196, 48
2014 Estimating the density of human trabecular bone using clinical CT scan data, Proceedings of the Institution of Mechanical Engineers, Part H: Journal of Engineering in Medicine, 616-626, 228
2014 Accounting for structural compliance in nanoindentation measurements of bioceramic bone scaffolds, Ceramics International, 12485-12492, 40
2014 The influence of low concentrations of a water soluble poragen on the material properties, antibiotic release, and biofilm inhibition of an acrylic bone, Materials Science and Engineering C - Materials for Biological Applications, 168-176, 42
2014 Dependence of anisotropy of human lumbar vertebral trabecular bone on quantitative computed tomography-based apparent density, Journal Of Biomechanical Engineering-Transactions Of The Asme, 10 pp, 136
2014 Multiscale characterization of acrylic bone cement modified with functionalized mesoporous silica nanoparticles, Journal Of The Mechanical Behavior Of Biomedical Materials, 141-152, 37
2014 Modification of acrylic bone cement with mesoporous silica nanoparticles: Effects on mechanical, fatigue and absorption properties, Journal Of The Mechanical Behavior Of Biomedical Materials, 451-461, 29
2013 Apparent Elastic Modulus of Ex Vivo Trabecular Bovine Bone Increases with Dynamic Loading., Proceedings of the Institution of Mechanical Engineers, Part H: Journal of Engineering in Medicine, 904-912, 227
2012 Mechanical Characterization of Injection-Molded Macro Porous Bioceramic Bone Scaffolds, Journal of Mechanical Behavior of Biomedical Materials, 9, 135-152
2011 3D Elastomeric Scaffolds- Fabricated by Casting in Micro End Milled Molds., Journal of Biomimetics, Biomaterials and Tissue Engineering, 9, 17-23
2011 The Effect of Sintering Temperature on the Microstructure and Mechanical Properties of a Bioceramic Bone Scaffold., Journal of Mechanical Behavior of Biomedical Materials, 4, 2150-2160
2009 Evaluation of the Mechanical Behavior of a Direct Compression Molded Porous Tantalum-UHMWPE Construct: a Microstructural Model., Journal of Applied Biomaterial and Biomechanics, 34-42, 7
2008 Microstructural Mechanical FE Analysis of Compression Molded Porous Tantalum-UHMWPE, Journal of Biomechanics, 41,
Capítulo de libro
2012 Biomaterials Science: Processing, Properties and Applications II, The Effect of the Sintering Temperature on Microstructural Properties of Bioceramic Bone Scaffolds,