Diego Cardenas
Diego Cardenas
Professor of Mechatronics, ITESM GDA
Verified email at tec.mx
TitleCited byYear
State of the art and trends in wind resource assessment
O Probst, D Cárdenas
Energies 3 (6), 1087-1141, 2010
Numerical validation of a finite element thin‐walled beam model of a composite wind turbine blade
D Cárdenas, AA Escárpita, H Elizalde, JJ Aguirre, H Ahuett, P Marzocca, ...
Wind Energy 15 (2), 203-223, 2012
Progressive failure analysis of thin-walled composite structures
D Cardenas, H Elizalde, P Marzocca, F Abdi, L Minnetyan, O Probst
Composite Structures 95, 53-62, 2013
A coupled aeroelastic damage progression model for wind turbine blades
D Cárdenas, H Elizalde, P Marzocca, S Gallegos, O Probst
Composite Structures 94 (10), 3072-3081, 2012
Biaxial tensile strength characterization of textile composite materials
DAA Escárpita, D Cárdenas, H Elizalde, R Ramirez, O Probst
Composites and their properties, 2012
Influence of controlled cooling in bimodal scaffold fabrication using polymers with different melting temperatures
H Lara-Padilla, C Mendoza-Buenrostro, D Cardenas, A Rodriguez-Garcia, ...
Materials 10 (6), 640, 2017
Progressive failure analysis for thin-walled composite beams under fatigue loads
JA Rivera, E Aguilar, D Cardenas, H Elizald, O Probst
Composite Structures 154, 79-91, 2016
The Poly-SAFE method: A semi-analytical representation of finite element models via nested polynomial reduction of modal data
D Cárdenas, H Elizalde, P Marzocca, O Probst, R Ramirez, JP Toledo
Composite Structures 111, 301-316, 2014
Unified theory for curved composite thin-walled beams and its isogeometrical analysis
D Cárdenas, H Elizalde, JC Jáuregui-Correa, MT Piovan, O Probst
Thin-Walled Structures 131, 838-854, 2018
An Adaptive Curvature-Guided Approach for the Knot-Placement Problem in Fitted Splines
RR Enrique Aguilar, Hugo Elizalde, Diego Cardenas, Oliver Probst, Pier Marzocca
Journal of Computing and Information Science in Engineering, 2018
Wind turbine predictive control focused on the alleviation of mechanical stress over the blades
LI Minchala, D Cardenas, O Probst
Modelling, Identification and Control of Nonlinear Systems, 2018
Control of mechanical loads in wind turbines using an integrated aeroelastic model
LI Mínchala, D Cárdenas, O Probst
IEEE PES Innovative Smart Grid Technologies Conference - Latin America, 2017
Progressive failure analysis of wind turbine blades under stochastic fatigue load
D Cárdenas, O Probst, H Elizalde
Development and Commissioning of a Small/Mid-Size Wind Turbine Test Facility
DN Valyou, TJ Arsenault, K Janoyan, P Marzocca, N Post, C Grappasonni, ...
33rd Wind Energy Symposium, 1000, 2015
An efficient and automated method to generate complex blade geometries for numerical analysis
A Delgado-Gutiérrez, D Cárdenas, O Probst
Advances in Engineering Software 127, 38-50, 2019
A simple approach to predictive control for small wind turbines with an application to stress alleviation
M García-Vera, JC San Martín-Alcázar, A Favela-Contreras, LI Minchala, ...
Journal of Control Engineering and Applied Informatics 20 (4), 69-77, 2018
Dynamic Modelling of Blades Based on a Novel Curved Thin Walled Beam Theory
JC Jauregui, D Cardenas, H Elizalde, O Probst
ASME Turbo Expo 2018: Turbomachinery Technical Conference and Exposition, 2018
Computationally efficient reduction of modal data from finite element models by nested sets of B-splines
D Cárdenas, H Elizalde, O Probst, W Lacarbonara, P Marzocca, E Aguilar, ...
Composite Structures 134, 549-564, 2015
Realidad Virtual como herramienta para aprendizaje inmersivo en ingeniería
R Crespo, E Riestra, R Gánem, D Cárdenas
Tecnológico de Monterrey, 2013
Progressive Failure Analysis of Wind Turbine Blades Based on a Thin-Wall Beam Finite Element Model
D Cardenas, D Arellano, H Elizalde, O Probst, F Abdi, A Achuthan, ...
53rd AIAA/ASME/ASCE/AHS/ASC Structures, Structural Dynamics and Materials …, 2012
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