Rodrigo de Moura Gonçalves
AuthID: R-000-FKQ
11
TITLE: Generalised Beam Theory formulation for the buckling analysis of thin-walled members with circular axis Full Text
AUTHORS: Peres, Nuno; Goncalves, Rodrigo; Camotim, Dinar;
PUBLISHED: 2022, SOURCE: THIN-WALLED STRUCTURES, VOLUME: 176
AUTHORS: Peres, Nuno; Goncalves, Rodrigo; Camotim, Dinar;
PUBLISHED: 2022, SOURCE: THIN-WALLED STRUCTURES, VOLUME: 176
INDEXED IN: Scopus WOS
12
TITLE: Improving the ductility in laser welded joints of CoCrFeMnNi high entropy alloy to 316 stainless steel
AUTHORS: Oliveira, J. P.; Shamsolhodaei, A.; Shen, Jiajia; Lopes, J. G.; Goncalves, R. M.; Ferraz, Mariana de Brito; Picarra, Lourenco; Zeng, Z.; Schell, N.; Zhou, N.; Kim, Hyoung Seop;
PUBLISHED: 2022, SOURCE: MATERIALS & DESIGN, VOLUME: 219
AUTHORS: Oliveira, J. P.; Shamsolhodaei, A.; Shen, Jiajia; Lopes, J. G.; Goncalves, R. M.; Ferraz, Mariana de Brito; Picarra, Lourenco; Zeng, Z.; Schell, N.; Zhou, N.; Kim, Hyoung Seop;
PUBLISHED: 2022, SOURCE: MATERIALS & DESIGN, VOLUME: 219
INDEXED IN: Scopus WOS
13
TITLE: On the modelling of simple supports in geometrically exact thin-walled beam finite elements using a rotation vector parametrization of finite rotations Full Text
AUTHORS: Goncalves, Rodrigo; Ritto Correa, Manuel;
PUBLISHED: 2022, SOURCE: THIN-WALLED STRUCTURES, VOLUME: 172
AUTHORS: Goncalves, Rodrigo; Ritto Correa, Manuel;
PUBLISHED: 2022, SOURCE: THIN-WALLED STRUCTURES, VOLUME: 172
INDEXED IN: WOS
14
TITLE: Evaluating the potential use of recycled glass fibers for the development of gypsum-based composites Full Text
AUTHORS: Goncalves, R. M.; Martinho, A.; Oliveira, J. P.;
PUBLISHED: 2022, SOURCE: CONSTRUCTION AND BUILDING MATERIALS, VOLUME: 321
AUTHORS: Goncalves, R. M.; Martinho, A.; Oliveira, J. P.;
PUBLISHED: 2022, SOURCE: CONSTRUCTION AND BUILDING MATERIALS, VOLUME: 321
INDEXED IN: WOS
15
TITLE: A Geometrically Exact Beam Finite Element for Non-Prismatic Strip Beams: The 2D Case
AUTHORS: Goncalves, Rodrigo;
PUBLISHED: 2022, SOURCE: INTERNATIONAL JOURNAL OF STRUCTURAL STABILITY AND DYNAMICS
AUTHORS: Goncalves, Rodrigo;
PUBLISHED: 2022, SOURCE: INTERNATIONAL JOURNAL OF STRUCTURAL STABILITY AND DYNAMICS
INDEXED IN: WOS
16
TITLE: Numerical simulation and design of stainless steel columns under fire conditions Full Text
AUTHORS: Martins, AD; Goncalves, R; Camotim, D;
PUBLISHED: 2021, SOURCE: ENGINEERING STRUCTURES, VOLUME: 229
AUTHORS: Martins, AD; Goncalves, R; Camotim, D;
PUBLISHED: 2021, SOURCE: ENGINEERING STRUCTURES, VOLUME: 229
INDEXED IN: Scopus WOS
17
TITLE: A geometrically exact beam finite element for curved thin-walled bars with deformable cross-section Full Text
AUTHORS: Peres, N; Goncalves, R; Camotim, D;
PUBLISHED: 2021, SOURCE: COMPUTER METHODS IN APPLIED MECHANICS AND ENGINEERING, VOLUME: 381
AUTHORS: Peres, N; Goncalves, R; Camotim, D;
PUBLISHED: 2021, SOURCE: COMPUTER METHODS IN APPLIED MECHANICS AND ENGINEERING, VOLUME: 381
INDEXED IN: Scopus WOS
18
TITLE: Retrieving GBT mode amplitudes from shell finite element and finite strip results in first-order elastoplastic, bifurcation and vibration analyses Full Text
AUTHORS: Manta, D; Goncalves, R; Camotim, D;
PUBLISHED: 2021, SOURCE: THIN-WALLED STRUCTURES, VOLUME: 166
AUTHORS: Manta, D; Goncalves, R; Camotim, D;
PUBLISHED: 2021, SOURCE: THIN-WALLED STRUCTURES, VOLUME: 166
INDEXED IN: Scopus WOS
19
TITLE: Post-buckling behaviour of thin-walled regular polygonal tubes subjected to bending Full Text
AUTHORS: Martins, AD; Goncalves, R; Camotim, D;
PUBLISHED: 2021, SOURCE: THIN-WALLED STRUCTURES, VOLUME: 166
AUTHORS: Martins, AD; Goncalves, R; Camotim, D;
PUBLISHED: 2021, SOURCE: THIN-WALLED STRUCTURES, VOLUME: 166
INDEXED IN: Scopus WOS
20
TITLE: Generalized Beam Theory deformation modes for steel-concrete composite bridge decks including shear connection flexibility
AUTHORS: Vieira, L; Goncalves, R; Camotim, D; Pedro, JO;
PUBLISHED: 2021, SOURCE: THIN-WALLED STRUCTURES, VOLUME: 169
AUTHORS: Vieira, L; Goncalves, R; Camotim, D; Pedro, JO;
PUBLISHED: 2021, SOURCE: THIN-WALLED STRUCTURES, VOLUME: 169
INDEXED IN: Scopus WOS