1. |
Pęcherski R.B., Nowak Z., Nowak M., Natonik K.J.♦, Potoczek M.♦, Śliwa R.E.♦, Problems of virtual cellular materials: representative volume element and energy-based assessment of failure strength,
DBM, 11th Workshop Dynamic Behaviour of Materials and its Applications in Industrial Processes, 2017-08-23/08-25, Guimarães (PT), pp.12-13, 2017Abstract: Three kinds of cellular materials are considered. Depending on geometry and physical properties of the skeleton, these are metallic cellular materials with convex or reentrant open cell structure. To the third group belong alumina foams produced by gel casting method. Finite element computations are used to analyse mechanical properties of a material volume. Such an analysis is usually related with big computational costs. Therefore, it is important to keep the size of the considered cellular material volume as small as possible. On the other hand, the validity of the continuum model requires the proper size of the RVE. The aim of the study is to estimate the sufficient size of representative volume element (RVE) in order to assess the validity of the elastic model of the considered cellular material. An array of cubes of virtual cellular material is used to compute the particular deformation modes providing elastic moduli, Young modulus E, shear modulus G and bulk modulus K as well as the resulting Poisson's ratio. Also the results of the microtomography of alumina foams are used to create the „virtual cellular material” i.e. the numerical model reconstructing the structure of real foam skeleton. The numerical simulations of compression test are performed. The results are compared with experimental data of elastic moduli and failure strength. The numerical simulations of failure strength under compression for alumina foams are performed. The calculations with use of the numerical model are time consuming. Therefore, the simplified method of the assessment of failure strength is proposed. It is based on the energy-based hypothesis on the equivalence of of elastic moduli and the resulting equivalence of the values of failure strength of real alumina foam and the cellular material with regular structure (e.g. fcc type). The justification of the hypothesis based on experimental data of compression of alumina foam are discussed and the range of validity as regards porosity values is studied. Keywords: virtual cellular materials, convex skeleton, reentrant skeleton. representative volume element, numerical simulations Affiliations:
Pęcherski R.B. | - | IPPT PAN | Nowak Z. | - | IPPT PAN | Nowak M. | - | IPPT PAN | Natonik K.J. | - | other affiliation | Potoczek M. | - | Rzeszów University of Technology (PL) | Śliwa R.E. | - | Rzeszów University of Technology (PL) |
| |
2. |
Nowak Z., Nowak M., Pęcherski R.B., Potoczek M.♦, Śliwa R.E.♦, Numerical simulations of mechanical properties of alumina foams based on computer tomography,
PCM-CMM 2015, 3rd Polish Congress of Mechanics and 21st Computer Methods in Mechanics, 2015-09-08/09-11, Gdańsk (PL), pp.853-854, 2015Abstract: The aim of the paper is to apply the results of microtomography of alumina foam to create the numerical model and perform the numerical simulations of compression tests. The geometric characteristics of real foam samples are estimated from tomographic and scanning electron microscopy images. The performance of the reconstructed models is compared to experimental values of elastic moduli. Keywords: Alumina open-cell foam, the computed tomography microstructure, Young modulus, the compressive strength of alumina foams Affiliations:
Nowak Z. | - | IPPT PAN | Nowak M. | - | IPPT PAN | Pęcherski R.B. | - | IPPT PAN | Potoczek M. | - | Rzeszów University of Technology (PL) | Śliwa R.E. | - | Rzeszów University of Technology (PL) |
| |
3. |
Nowak Z., Nowak M., Pęcherski R.B., Potoczek M.♦, Śliwa R.E.♦, Własności mechaniczne pianek ceramicznych o komórkach otwartych i różnej porowatości,
IX Seminarium Naukowe ZINTEGROWANE STUDIA PODSTAW DEFORMACJI PLASTYCZNEJ METALI PLASTMET, 2014-11-25/11-28, Łańcut (PL), pp.1-2, 2014Abstract: W pracy określono własności mechaniczne i przedstawiono model numeryczny ceramicznej pianki korundowej, otrzymanej metodą żelowania spienionej zawiesiny (gelcasting). Metoda ta pozwala wytwarzać pianki zawierające kmórki o różnej wielkości, a w konsekwencji otrzymywać pianki o różnej porowatości. Wielkości charakteryzujące geometrię rzeczywistych pianek ustalono z wykorzystaniem obrazów tomograficznych 3D oraz obrazów z mikroskopu skaningowego. Informacje te wykorzystano przy opracowaniu modelu numerycznego badanej pianki. Symulacje numeryczne procesów deformacji przeprowadzono z zastosowaniem programu elementow skończonych ABAQUS. Keywords: pianki ceramiczne, metoda żelowania, porowatość, symulacje numeryczne procesów deformacji tomografia komputerowa, mikroskopia skaningowa Affiliations:
Nowak Z. | - | IPPT PAN | Nowak M. | - | IPPT PAN | Pęcherski R.B. | - | IPPT PAN | Potoczek M. | - | Rzeszów University of Technology (PL) | Śliwa R.E. | - | Rzeszów University of Technology (PL) |
| |
4. |
Nowak Z., Nowak M., Pęcherski R.B., Potoczek M.♦, Śliwa R.E.♦, Numerical characterization and estimation of elastic properties of ceramic foams,
7th International Workshop on Dynamic Behaviour of Materials and its Applications in Industrial Processes, 2013-05-08/05-10, Madryt (ES), pp.41-42, 2013Abstract: In this work a numerical model of real foam with different cell sizes is presented and its applications are discussed. Geometric characteristics of real foam samples were estimated from tomographic and scanning electron microscopy images. Using this information, numerical foam model was proposed. The examples of generated numerically structures are shown. A good agreement between numerical model and the results elaborated from microtomography was obtained. Keywords: Alumina open-cell foam, foam with different cell sizes, numerical foam model based on tomographic and scanning electron microscopy images Affiliations:
Nowak Z. | - | IPPT PAN | Nowak M. | - | IPPT PAN | Pęcherski R.B. | - | IPPT PAN | Potoczek M. | - | Rzeszów University of Technology (PL) | Śliwa R.E. | - | Rzeszów University of Technology (PL) |
| |
5. |
Nowak Z., Nowak M., Pęcherski R.B., Potoczek M.♦, Śliwa R.E.♦, The Compressive Strength of Ceramic Open-Cell Foams with the Variability of Cell Sizes,
ICMM3, 3rd International Conference on Material Modelling incorporating 13th European Mechanics of Materials Conference, 2013-09-08/09-11, Warszawa (PL), pp.315-316, 2013Abstract: New aeronautic materials are obtained by liquid metal infiltration into a ceramic foam, called a preform. Ceramic preforms are produced by a new method of manufacturing of porous ceramics foams known as gelcasting. Porous ceramics fabricated by this method is characterized by a continuous network of spherical cells interconnected by circular windows. The open porosity due to the presence of windows creates good hydro-dynamical properties for liquid metals infiltration. For better understanding mechanical properties of such composites a numerical model of ceramic foam is needed, see e. g. ref. [1-4]. Geometry of ceramic foams can be generated in two steps. First, the coordinates of the center point of the spherical bubbles and its diameter are produced by PYTHON scripts. The diameters of spherical bubbles were estimated from microtomography and scanning electron microscopy images. On the other hand, the coordinates of the center points are determined in such a way that the bubbles have to intersect with each other. Finally, the intersecting bubbles are subtracted from the bulk block of any shape. Using this information, numerical foam model was proposed and good agreement between numerical model and real foam structure from microtomography was obtained. In this work we present a numerical model of real foam of alumina with different cell sizes and discuss its mechanical properties using several examples. The numerical simulations of uniaxial compression test have been performed. As a result the compressive strength of the investigated foams with porosities changing from 60 to 95 % were determined. Keywords: Porous ceramics foams produced by gelcasting, open-cell ceramic foam, the numerical simulations of uniaxial compression test, the compressive strength of alumina foams with porosities changing from 60 to 95 % Affiliations:
Nowak Z. | - | IPPT PAN | Nowak M. | - | IPPT PAN | Pęcherski R.B. | - | IPPT PAN | Potoczek M. | - | Rzeszów University of Technology (PL) | Śliwa R.E. | - | Rzeszów University of Technology (PL) |
| |
6. |
Nowak M., Nowak Z., Pęcherski R.B., Potoczek M.♦, Śliwa R.E.♦, Ocena mechanicznych właściwości ceramicznej pianki poddanej procesowi infiltracji,
OMIS 2013, X Jubileuszowa Konferencja ODKSZTAŁCALNOŚĆ METALI I STOPÓW, 2013-11-26/11-29, Łańcut (PL), pp.1-2, 2013Abstract: Celem pracy jest ocena granicznych ciśnień oraz temperatury procesu, dla których proces infiltracji zachodzi bez uszkodzenia pianki w skali makroskopowej. W pracy przedstawiono numeryczny model procesu wypełniania ceramicznej preformy o otwartej strukturze porów. W procesie wypełniania preformy ciekłym metalem lokalny wzrost naprężeń i kruchość materiału powodują pękanie części elementów pianki. Opracowano model numeryczny tego procesu, który zaimplementowano w programie ABAQUS. Dla określenia stanu naprężenia w piance użyto sprzężonej metody CEL (ang. the coupled Eulerian-Lagrangian method) w programie Abaqus/Explicit. Keywords: Proces infiltracji ceramicznych pianek ciekłym metalem, ocena granicznych ciśnień oraz temperatury procesu Affiliations:
Nowak M. | - | IPPT PAN | Nowak Z. | - | IPPT PAN | Pęcherski R.B. | - | IPPT PAN | Potoczek M. | - | Rzeszów University of Technology (PL) | Śliwa R.E. | - | Rzeszów University of Technology (PL) |
| |
7. |
Nowak M., Nowak Z., Pęcherski R.B., Potoczek M.♦, Śliwa R.E.♦, On the Geometry and Compressive Strength of Ceramic Foams,
SolMech 2012, 38th Solid Mechanics Conference, 2012-08-27/08-31, Warszawa (PL), pp.174-175, 2012 | |
8. |
Nowak M., Nowak Z., Pęcherski R.B., Potoczek M.♦, Śliwa R.E.♦, Opracowanie metody rekonstrukcji struktury geometrycznej i sposobu wyznaczania modułu Younga pianek ceramicznych,
PLASMET/2012, VIII Seminarium Naukowe Zintegrowane Studia Podstaw Deformacji Plastycznej Metali, 2012-11-20/11-23, Łańcut (PL), pp.1-3, 2012 | |