Az adott oktató valamelyik doktori iskolában kiírt doktoranduszok számára kutatási témát, amire most jelentkezni is lehet, de még nincsen témavezetett doktorandusza.
)
the share of work in the different doctoral schools.
multi-field dual-mixed variational principles, development of hp-version finite element methods, analytical mechanics, continuum mechanics, coupled elasticity problems, refined thermodynamics, radial basis function technique,
adaptive mesh and pointcloud refinement schemes
research field in which current research is conducted
mechanical engineering physics
Publications
2023
from data base, 2024. IV. 03.
Tóth Balázs, Düster Alexander: h-Adaptive radial basis function finite difference method for linear elasticity problems, COMPUTATIONAL MECHANICS 71: (3) pp. 433-452. type of document: Journal paper/Article number of independent citations: 4 language: English URL
2023
from data base, 2024. IV. 03.
Orosz Tamás, Horváth Tamás, Tóth Balázs, Kuczmann Miklós, Kocsis Bence: Iron Loss Calculation Methods for Numerical Analysis of 3D-Printed Rotating Machines: A Review, ENERGIES 16: (18) 6547 type of document: Journal paper/Review paper language: English URL
2023
from data base, 2024. IV. 03.
Tóth Balázs: Three-field mixed hp-finite element method for the solution of the Guyer–Krumhansl heat conduction model, INTERNATIONAL JOURNAL OF HEAT AND MASS TRANSFER 217: 124663 type of document: Journal paper/Article number of independent citations: 1 language: English URL
2021
from data base, 2024. IV. 03.
Tóth Balázs: Natural frequency analysis of shells of revolution based on hybrid dual-mixed hp-finite element formulation, APPLIED MATHEMATICAL MODELLING 98: pp. 722-746. type of document: Journal paper/Article number of independent citations: 2 language: English URL
2020
from data base, 2024. IV. 03.
Tóth Balázs, Burmeister Dániel: Dual-mixed hp-version axisymmetric shell finite element using NURBS mid-surface interpolation, ACTA MECHANICA 231.: (6) pp. 2457-2483. type of document: Journal paper/Article number of independent citations: 1 language: English URL
2019
from data base, 2024. IV. 03.
Tóth Balázs: Hybridized dual-mixed hp-finite element model for shells of revolution, COMPUTERS & STRUCTURES 218: pp. 123-151. type of document: Journal paper/Article number of independent citations: 4 language: English URL
2018
from data base, 2024. IV. 03.
Tóth Balázs: Dual and mixed nonsymmetric stress-based variational formulations for coupled thermoelastodynamics with second sound effect, CONTINUUM MECHANICS AND THERMODYNAMICS 30: (2) pp. 319-345. type of document: Journal paper/Article number of independent citations: 3 language: English URL
2016
from data base, 2024. IV. 03.
Tóth Balázs: Multi-field dual-mixed variational principles using non-symmetric stress field in linear elastodynamics, JOURNAL OF ELASTICITY 122: (1) pp. 113-130. type of document: Journal paper/Article number of independent citations: 5 language: English URL
2013
from data base, 2024. IV. 03.
Tóth Balázs, Kocsán Lajos György: Comparison of dual-mixed h- and p-version finite element models for axisymmetric problems of cylindrical shells, FINITE ELEMENTS IN ANALYSIS AND DESIGN 65: pp. 50-62. type of document: Journal paper/Article number of independent citations: 5 language: English URL
2012
from data base, 2024. IV. 03.
Tóth Balázs: Dual-mixed hp finite element model for elastic cylindrical shells, ZAMM-ZEITSCHRIFT FUR ANGEWANDTE MATHEMATIK UND MECHANIK 92: (3) pp. 236-252. type of document: Journal paper/Article number of independent citations: 4 language: English URL
Number of independent citations to these publications:
monographs/books in which chapters/sections were contributed:
0
number of independent citations to scientific publications and creative works:
The number of citations displayed after clicking on the link may differ from the displayed number because the former displays the current state of MTMT2 and the latter was the case when importing science metrics.
2024. IV. 17. ODT ülés Az ODT következő ülésére 2024. június 14-én, pénteken 10.00 órakor kerül sor a Semmelweis Egyetem Szenátusi termében (Bp. Üllői út 26. I. emelet).