VALIDITY EXPIRED personal data approved: 2019. V. 20.
Personal data
name
Balázs Tukora
accreditation statement submitted to:
University of Pécs
Academic title
scientific degree, title
Ph.D.
year degree was obtained
2012
discipline to which degree belongs
mechanical engineering
institution granting the degree
Budapest University of Technology and Economics
Employment
1998 -
University of Pécs university professor or researcher
Thesis topic supervisor
number of doctoral students supervised until now
0
number of students who fulfilled course requirements
0
students who obtained their degrees:
Research
research area
Volumetric visualization of medical datasets
research field in which current research is conducted
computer sciences
Publications
2014
from data base, 2019. V. 20.
Paul Heinzleiter, Christoph Anthes, Balázs Tukora: Project Mr. Symbiomath, INNOVATIVES SUPERCOMPUTING IN DEUTSCHLAND 12: (1) pp. 80-84. type of document: Journal paper/Article language: English
2012
from data base, 2019. V. 20.
Tukora Balázs, Szalay Tibor: Multi-dexel based material removal simulation and cutting force prediction with the use of general-purpose graphics processing units, ADVANCES IN ENGINEERING SOFTWARE 43: pp. 65-70. type of document: Journal paper/Article number of independent citations: 15 language: English URL
2011
from data base, 2019. V. 20.
Tukora Balázs, Szalay Tibor: Real-time determination of cutting force coefficients without cutting geometry restriction, INTERNATIONAL JOURNAL OF MACHINE TOOLS & MANUFACTURE 51: pp. 871-879. type of document: Journal paper/Article number of independent citations: 23 language: English URL
2011
from data base, 2019. V. 20.
Szalay Tibor, Horváth Mátyás, Tukora Balázs: Hybrid experimental-dynamical modelling of cutting considering the complex chip geometry, APPLIED MECHANICS AND MATERIALS 88-89: pp. 741-745. type of document: Journal paper/Article language: English URL
2011
from data base, 2019. V. 20.
Tukora Balázs, Szalay Tibor: Real-time Cutting Force Prediction and Cutting Force Coefficient Determination during Machining Processes, ADVANCED MATERIALS RESEARCH 223: pp. 85-92. type of document: Journal paper/Article number of independent citations: 4 language: English URL
2010
from data base, 2019. V. 20.
Tukora Balázs, Szalay Tibor: GPGPU-based Material Removal Simulation and Cutting Force Estimation, In: B H, V Topping; J M, Adam; F J, Pallarés; R, Bru; M L, Romero (szerk.) Proceedings of the Seventh International Conference on Engineering Computational Technology, Civil-Comp Press (2010) 17 type of document: Part of book/Proceedings Paper number of independent citations: 3 language: English URL
2009
from data base, 2019. V. 20.
Tukora Balázs, Szalay Tibor: Fully GPU-based volume representation and material removal simulation of free-form objects, In: Bartolo, PJD; DeLemos, ACS; Pereira, AMH; Mateus, AJD; Mendes, ALA; DeMoura, CSM; Capela, CAB; DaSilva, CSG; Domingues, FAC; Bartolo, HMCDTG; Almeida, HD; Ferreira, ISC; Matias, JM; Alves, NMF; Rodrigues, SCSF (szerk.) Innovative Developments in Design and Manufacturing, Taylor and Francis Group (2009) pp. 609-614. type of document: Part of book/Proceedings Paper number of independent citations: 4 language: English
Number of independent citations to these publications:
monographs/books in which chapters/sections were contributed:
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).