Your search keyword '"Tamás Mankovits"' showing total 2 results

1. Structural analysis and its statistical evaluation of a closed-cell metal foam

Author

Tamás Antal Varga, István Budai, Imre Kocsis, Gábor Balogh, István Kozma, Tamás Mankovits, András Gábora, and Sándor Manó

Subjects

Engineering, Environmental Engineering, Property (programming), business.industry, Process (engineering), Materials Science (miscellaneous), Homogeneity (statistics), General Engineering, Mechanical engineering, CAD, Metal foam, Management Science and Operations Research, 3D modeling, Finite element method, Complex geometry, business, Information Systems

Abstract

The development of an efficient procedure for 3d modeling and finite element simulation of metal foams is one of the greatest challenges for engineer researchers nowadays. Creating 3d CAD model is alone a demanding engineering task due to its extremely complex geometry, and the proper finite element analysis process is still in the center of the research. The increasingly widespread application of the metal foams, e.g. in vehicle and medical industry, requires this knowledge in the design phase. A closed-cell metal foam is studied using different analyzing methods where the aim is to collect information about the composition and geometry (structure) that is satisfactory for the later research. Using statistical methods microscopic, X-ray and surface analyzing studies on the specimens produced according to the concerning standard are evaluated. The main goal of this part of the project is to obtain structural information and to determine the homogeneity or the in-homogeneity property of the metal foam specimens taken from different locations.

Published

2014

2. Basic principles of shape optimization of elastomers

Author

Tamás Mankovits

Subjects

Engineering drawing, Environmental Engineering, Materials science, Materials Science (miscellaneous), General Engineering, Mechanical engineering, Management Science and Operations Research, Elastomer, Finite element method, Natural rubber, visual_art, In vehicle, visual_art.visual_art_medium, Shape optimization, Finite element code, Information Systems

Abstract

This paper deals with the main principles of shape optimization of elastomers. The aim of the research is how to find the right optimizing solutions which can handle rubber components used in vehicle industry. Further on the chosen solution algorithms will be built in the developed finite element code.

Published

2011