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Juan Carlos Pina

Profesor Asistente

Universidad de Santiago de Chile

Santiago, Chile

Líneas de Investigación


*Computational mechanics of solids & structures: mechanical & thermo-mechanical response of materials w/ complex microstructures, multiscale mechanics, plasticity and viscoplasticity. *Mechanics of timber & CLT: micro-mechanics, creep & buckling.

Educación

  •  Computational mechanics of solids and structures, EINDHOVEN UNIVERSITY OF TECHNOLOGY. Holanda, 2015
  •  Computational mechanics of solids and structures , UNIVERSITY OF WALES SWANSEA. Reino Unido, 2008
  •  Ingeniero Civil, UNIVERSIDAD NACIONAL DE CUYO. Argentina, 2005

Experiencia Académica

  •   Assistant Professor Full Time

    UNIVERSIDAD DE SANTIAGO DE CHILE

    Facultad de Ingeniería

    Santiago, Chile

    2016 - At present

Experiencia Profesional

  •   Ingenierio Estructural Full Time

    Camps y Asociados

    Mendoza, Argentina

    2004 - 2005

  •   Ingeniero Estructural Full Time

    Industrias Metallúrgicas Pescarmona S.A.

    Mendoza, Argentina

    2005 - 2007

  •   Mechanical/Structural Engineering Full Time

    ASML

    Eindhoven, Holanda

    2013 - At present


 

Article (17)

Influence on Physical and Mechanical Properties of Concrete Using Crushed Hazelnut Shell
Investigation of the Influence of Design Parameters on the Strength of Steel-Concrete Composite Shear Walls by Finite Element Simulations
Numerical study of the thermo-mechanical behavior of steel-timber structures exposed to fire
Experimental study on the short-term stress relaxation response of Chilean radiata pine
Thermo-mechanical analysis of wood through an asymptotic homogenisation approach
Nonlinear numerical model of headed shear stud anchors for composite open web steel joists
Simulation of Mode I Interlaminar Damage of a GFRP Composite Using Cohesive Laws in the Framework of the Equivalent LEFM R-Curve and an Optimised Algorithm
Numerical investigation on the creep response of concrete structures by means of a multi-scale strategy
Multiscale modeling of the thermal conductivity of wood and its application to cross-laminated timber
Novel experimental method to determine the limit strain by means of thickness variation
Numerical study on the elastic buckling of cross-laminated timber walls subject to compression
Prediction of longitudinal shear resistance of steel-concrete composite slabs
Microstructural study of the mechanical response of compacted graphite iron: An experimental and numerical approach
An Extension of the Birnbaum-Saunders Distribution as a Model for Fatigue Failure Due to Multiple Cracks
Microstructural model for the time-dependent thermomechanical analysis of cast irons
Thermo-mechanical analyses of heterogeneous materials with a strongly anisotropic phase: the case of cast iron
Elevated temperature creep of pearlitic steels: an experimental-numerical approach

ConferencePaper (1)

FINITE ELEMENT APPROACH TO SIMULATE CNT-REINFORCED CALCIUM-SILICATE-HYDRATE (C-S-H) COMPOSITE
18
Juan Pina

Profesor Asistente

Ingeniería en Obras Civiles

Universidad de Santiago de Chile

Santiago, Chile

8
Carlos Guzmán

Profesor Asistente

Ingeniería en Obras Civiles

Universidad de Santiago de Chile

Santiago, Chile

6
Sergio Yanez

Profesor Asistente

Ingeniería en Obras Civiles

Universidad de Santiago de Chile

Santiago, Chile

5
Erick Saavedra

Académico jornada completa en el Departamento de Ingenieria Civil en Obras Civiles.

Universidad de Santiago de Chile

Santiago, Chile

1
SIVA AVUDAIAPPAN

Adjunct Professor

Civil Engineering

Universidad de la Santiago de Chile

Santiago, Chile

1
Karin Saavedra

Profesor Asistente

Departamento de Tecnologías Industriales

Universidad de Talca

Curicó, Chile

1
Diego Vasco

Profesor asociado

Departamento de Ingeniería Mecánica

Universidad de Santiago de Chile

Santiago, Chile

1
Felipe Castro

Académico

Metalurgia

Universidad de Santiago de Chile

Santiago, Chile