Przemysław Litewka
Contenidos
·
Libros
· Articulos para los congresos
Datos
personales (arriba)
Direccion
Prof. dr. hab. eng. Przemysław
Litewka
Instituto de
Analisis de Estructuras
ul. Piotrowo 5
60-965 Poznań
Polonia
tel.: +48-61-6652468
fax: +48-61-8766116
email: przemyslaw.litewka@gmail.com
Curriculo
|
1968 |
nacido en Poznań |
|
1975-1987 |
educacion
la escuela primaria y el liceo en Poznan; |
|
1987-1992 |
estudios, ingeniería civil en la Politecnica de Poznan; |
|
1990-1991 |
estudios, ingeniería civil en la Universidad de Nottingham (Reino
Unido) (programa Tempus); |
|
1992 |
tesina de licenciatura en la Politecnica de Poznan: Diseño del terraplano del camino junto con el puente sobre el rio Obra en Międzyrzecz (en polaco) |
|
1992-1998 |
asistente en Departamento de Mecanica
Estructural del Instituto de Ingenieria Estructural
en la Politecnica de Poznan; |
|
1998 |
doctorado
en la Politecnica de Poznan: Elemento finito efectivo con la curvatura
grande" (en polaco); |
|
1998-2013 |
profesor asistente en Departamento de Mecanica Estructural del Instituto de Ingenieria
Estructural en la Politecnica de Poznan; |
|
1999-2001 |
estancia cientica en la Universidad de Hannover (Alemania), Instituto de Mecanica
Estructural y Numerica, beca de la Fundacion de Alexander von Humboldt |
|
2008 |
habilitacion en la Politecnica de Poznan: Contacto viga-viga" (en polaco); |
|
2012-2019 |
Director
de Departamento de Mecanica Estructural del
Instituto de Ingenieria Estructural en la Politecnica de Poznan |
|
2013-2019 |
Profesor asociado en la Politecnica de Poznan |
|
2019-2021 |
Profesor
de la universidad en la Politecnica de Poznan |
|
2020-2024 |
Subdirector
del Instituto de Analysis de Estructuras |
|
2021 |
Profesor
de las ciencias de ingeniería y tecnica |
|
2024-… |
Director
de Departamento de Mecanica Estructural del
Instituto de de Analysis
de Estructuras en la Politecnica de Poznan |
Intereses profesionales
mecanica estructural;
metodos numericos en la ingenieria
·
metodo
de los elementos finitos (MEF),
·
metodo
de las franjas finitas,
· problema de shear-locking en MEF;
mecanica del contacto:
·
contacto tipo viga-viga
·
acoplamiento termico-electrico-mecanico
Otros intereses
aviación de la Primera y Segunda Guerra Mundial, modelismo;
viajes, arquitectura, fotografia;
Libros (arriba)
1. A. Litewka, P. Litewka, Mecanica estructural en arquitectura hista, (en polaco), Wydawnictwo Politechniki Poznańskiej, 2006. capa
2. P. Litewka, Contacto viga-viga, (en polaco), Seria
Rozprawy, nr 410, Wydawnictwo Politechniki Poznańskiej, 2007. capa
3. P. Litewka, Finite Element Analysis of Beam-to-Beam Contact,
Lecture Notes in Applied and Computational Mechanics, Vol. 53, Springer, 2010. capa
4. D. P. Boso, P. Litewka, B. A. Schrefler, Thermo-Mechanical Coupling in Beam-to-Beam
Contact, in: Recent Developments and Innovative Application in
Computational Mechanics, D. Mueller-Hoeppe, S. Loehnert, S. Reese, Eds., pp. 9-16, Springer, 2011.
5. P. Litewka, J. Rakowski, Elemento finito circular, Elemento finito eliptico in: Elementos curvados exactos en FEM y BEM, J. Rakowski, Ed., pp. 23-44, 99-122, (en polaco), Wydawnictwo Politechniki Poznańskiej, 2011. capa
6. P. Litewka, R. Sygulski, Elegidos problemas de la mecanica estructural avanzada, (en polaco), Wydawnictwo Politechniki Poznańskiej, 2012. capa
7. Recent Advances in Computational Mechanics, T. odygowski, J. Rakowski, P. Litewka, Eds., CRC Press/Balkema, Taylor & Francis Group, London, 2014. capa
8. A. Litewka, P. Litewka, Mechanika budowli w architekturze historycznej, (en polaco) wyd. 2, Wydawnictwo Politechniki Poznańskiej, 2020. capa
Artículos en las
revistas (arriba)
[1] P. Litewka, J. Przystański, A. Florkiewicz, Projektowanie nasypów drogowych na gruntach sabononych, Drogownictwo, styczeń 1994, pp.15-18.
[2] J. Rakowski, P.
Litewka, An efficient simple curved finite beam element, Zeitschrift fr Angewandte Mathematik und
Mechanik, vol.76 Supplement 1, pp.503-504, 1996.
[3] J. Rakowski, M. S.
Kuczma, P. Litewka, Elastoplastic Analysis of Plates on Unilateral Foundations,
Zeitschrift fr Angewandte Mathematik und
Mechanik, vol.76 Supplement 2, pp.583-584, 1996.
[4] P. Litewka, J.
Rakowski, An Efficient Curved Element for Dynamic and Stability Problems, Zeitschrift fr Angewandte Mathematik und
Mechanik , vol.77 Supplement 1, pp.191-192, 1997.
[5]
P. Litewka, J. Rakowski, An efficient curved beam
finite element, International Journal for Numerical
Methods in Engineering, vol. 40,
pp.2629-2652, 1997.
[6]
P. Litewka, J. Rakowski, The exact thick arch finite
element, Computers & Structures, vol.68, pp.369-379, 1998.
[7]
P. Litewka, R. Sygulski, Statical and dynamical analysis of bridge slabs by the
Finite Strip Method, Archives of Civil Engineering, vol.XLV,2,
pp.259-273, 1999.
[8]
P. Litewka, J. Rakowski, An efficient 3D curved beam
finite element, CAMES, vol.7, pp.707-716, 2000.
[9]
P. Litewka, J. Rakowski, Free vibrations of
shear-flexible and compressible arches by FEM, International Journal for Numerical
Methods in Engineering, vol.52(3),
pp.273-286, 2001.
[10] P. Litewka, P. Wriggers, Contact
between 3D beams with rectangular cross-sections, International Journal for Numerical
Methods in Engineering, vol.53(9),
pp.2019-2041, 2002.
[11] P. Litewka, P. Wriggers, Frictional
contact between 3D beams, Computational Mechanics, vol.28(1), pp.26-39, 2002.
[12] M. S. Kuczma, P. Litewka, J. Rakowski,
J. R. Whiteman, A variational inequality approach to an elastoplastic plate
foundation system, Foundations
of Civil and Environmental Engineering, vol.4, pp.31-48, 2004.
[13] P. Litewka, The penalty and Lagrange multiplier methods in the
frictional 3D beam-to-beam contact problem, Civil and Environmental
Engineering Reports, vol.1, pp.189-207, 2005.
[14] D. P. Boso, P. Litewka, B. A. Schrefler, P. Wriggers, A 3D beam-to-beam
contact finite element for coupled electric-mechanical fields International
Journal for Numerical Methods in Engineering,
vol. 64(13), pp.1800-1815, 2005.
[15] P. Litewka, Hermite polynomial smoothing in beam-to-beam
frictional contact problem, Computational Mechanics, vol. 40(6), pp. 815-826, 2007.
[16] P. Litewka, The elliptic curved beam finite element for static
and dynamic analysis of arches, Foundations of Civil and Environmental
Engineering, vol.14, pp.73-109, 2011.
[17] P. Litewka, Enhanced multiple-point beam-to-beam frictionless
contact finite element, Computational Mechanics, vol. 52(6), pp. 1365-1380, 2013.
[18] P. Litewka, Frictional beam-to-beam multiple-point contact
finite element, Computational Mechanics, vol. 56(2), pp. 243-264, 2015.
[19] P. Litewka, M. Bk, Stability of steel frames with bolted
joints (in Polish: Stateczno栲am stalowych z w꺳ami podatnymi), Przegld
Budowlany, 10/2015, ss. 42-47, 2015.
[20] O. Kawa, P. Litewka, Contact with friction between 3D beams with
deformable circular cross-sections, Engineering Transactions,
vol. 63(4), pp. 439-462, 2015.
[21] P. Litewka, R. Lewandowski, Nonlinear harmonically excited
vibrations of plates with Zener material, Nonlinear Dynamics, vol. 89(1), pp. 691-712, 2017.
[22] P. Litewka, R. Lewandowski, Steady-state non-linear vibrations
of plates using Zener material with fractional derivative, Computational Mechanics, vol. 60(2), pp. 333-354, 2017.
[23] O. Kawa, P. Litewka, R. Studzi,
Contact between 3D beams with deformable circular cross-sections numerical
verification, Engineering
Transactions, vol. 66(3), pp. 281-299, 2018.
[24] P. Litewka, R. Lewandowski, Dynamic characteristics of
viscoelastic Mindlin plates with influence of
temperature, Computers
and Structures, vol.
229, 2020, doi 10.1016/j/compstruc.2019.106181.
[25] P. Litewka, R. Lewandowski, Temperature influence on
non-linear harmonic vibrations of plates made of viscoelastic materials, Engineering Transactions,
vol. 68(2), pp. 159-176, 2020.
[26] R.
Lewandowski, P. Wielentejczyk, P. Litewka,
Dynamic characteristics of multi-layered viscoelastic beams using the refined
zig-zag theory, Composite
Structures, vol.
259, 2021, doi.org/10.1016/j.compstruct.2020.113212.
[27] R.
Lewandowski, P. Litewka, P. Wielentejczyk,
Free vibrations of laminate plates with viscoelastic layers using the refined
zig-zag theory. Part 1 Theoretical background, Composite
Structures, vol.
278, 2021, doi.org/10.1016/j.compstruct.2020.114547.
[28] P. Litewka, R. Lewandowski, P. Wielentejczyk,
Free vibrations of laminate plates with viscoelastic layers using the refined
zig-zag theory. Part 2 Numerical analysis, Composite
Structures, vol. 278 doi.org/10.1016/j.compstruct.2021.114550.
[29] R.
Lewandowski, P. Litewka, Nonlinear harmonic
vibrations of laminate plates with VE layers using refined zig-zag theory. Part
2 – Numerical solution, Composite
Structures, vol. 319, 2023 doi.org/10.1016/j.compstruct.2023.117062.
[30] R.
Lewandowski, P. Litewka, Nonlinear harmonic
vibrations of laminate plates with VE layers using refined zig-zag theory. Part
1 – Theoretical background, Composite
Structures, vol. 319, 2023
doi.org/10.1016/j.compstruct.2023.117200.
[31] R.
Lewandowski, P. Litewka, M. Łasecka-Plura,
Z. Pawlak, Dynamics of Structures, Frames and Plates with Viscoelastic Dampers
or Layers: A Literature Review, Buildings, vol. 13, 2223,
2023 doi.org/10.3390/buildings13092223.
[32] P. Reder, P. Litewka, Nieliniowa analiza ram stalowych
z węzłami podatnymi, Nowoczesne Hale, 1/2024.
[33] P. Litewka, R. Lewandowski, Temperature influence on the
natural and forced vibraions of laminate plates with
fractional Zener viscoelastic layers, Thin-Walled
Structures, 2024, doi.org/10.1016/j.tws.2024.111943.
[34] P. Litewka, R. Lewandowski, Dynamic
characteristics of laminate plates with orthotropic faces and viscoelastic core
under ambient temperature influence, Computational Mechanics, doi.org/10.1007/s00466-026-02766-x, 2026.
Artículos en los
congresos
(arriba)
[1]
P. Litewka, J. Rakowski, Dynamics of Mindlin plates by gridwork analogy method, Computer
Methods in Mechanics, XI Polish Conference, Kielce-Cedzyna,
11-14 May 1993, vol.2, pp.519-525.
[2]
P. Litewka, Free vibrations of plates by gridwork
analogy method - the numerical analysis, Vibrations in Physical Systems, XVIth Symposium, Poznaaejewko, 26-28 May 1994, pp.221-222.
[3]
P. Litewka, J. Rakowski, An efficient simple curved
finite beam element, Computer Methods in Mechanics, XII Polish Conference,
Warsaw-Zegrze, 9-13 May 1995, pp.200-201.
[4]
J. Rakowski, P. Litewka, An efficient simple curved
finite beam element, The Third International Congress on Industrial and
Applied Mathematics, Hamburg, 3-7 July 1995, p.411.
[5]
J. Rakowski, M. S. Kuczma, P. Litewka,
Elastoplastic Analysis of Plates on Unilateral Foundations, The Third
International Congress on Industrial and Applied Mathematics, Hamburg, 3-7
July 1995, p.339.
[6] A. Florkiewicz, P. Litewka, Problemy statecznoci zboczy z wewn괲znymi systemami osabiebcionych fundamentami, VIIIth Glacitectonics Symposium, Zielona Góra 1995.
[7]
P. Litewka, J. Rakowski, Free Vibrations of Thick
Arches by Finite Element Method, Vibrations in Physical Systems, XVIIth Symposium, Poznań Błażejewko, 22-25 May 1996, p.192.
[8]
P. Litewka, J. Rakowski, An Efficient Curved Element
for Dynamic and Stability Problems, Annual Scientific Conference GAMM,
Prague 27-31 May 1996, p. 120.
[9]
P. Litewka, J. Rakowski, The Exact Thick Arch Element
with Large Curvature, XXXIst Polish Solid
Mechanics Conference, 9-14 September 1996, Mierki
k. Olsztynka, s.162.
[10] P. Litewka, J. Rakowski, Vibrations of Shear-flexible and
Compressible Arches by FEM, Annual Scientific Conference GAMM,
Regensburg, 24-27 March, 1997.
[11] P. Litewka, J. Rakowski, A Curved Beam Finite Element for
Dynamic and Stability Problems, XIII Polish Conference on Computer Methods
in Mechanics, Poznań 5-8 May, 1997, vol.2,
pp.765-772.
[12] P. Litewka, R. Sygulski, Statical Analysis of Bridge Slabs by the Finite Strip
Method, XIII Polish Conference on Computer Methods in Mechanics, Poznań 5-8 May, 1997, vol.2, pp.773-780.
[13] P. Litewka, J. Rakowski, Vibrations of arches with large
curvature by FEM, Vibrations in Physical Systems, XVIIIth
Symposium, Poznań Błażejewko,
27-30 May 1998, s.189-190.
[14] P. Litewka, R. Sygulski, Free vibrations
of bridge slabs by the Finite Strip Method, Vibrations in Physical Systems, XVIIith Symposium, Poznań Błażejewko, 27-30 May 1998, p.191-192.
[15] P. Litewka, R. Sygulski, Analysis of
bridge slabs by the Finite Strip Method, Shell Structures Theory and
Applications, The 6th Conference, Gdansk-Jurata,
October 12-14 1998, pp.187-188.
[16] P. Litewka, J. Rakowski, An efficient 3D curved beam finite
element, XIV Polish Conference on Computer Methods in Mechanics, Rzeszów 26-28 May,
1999,p.225-226.
[17] P. Litewka, R. Sygulski, Bridge
slabs analysis under moving loads by FSM, XIV Polish Conference on Computer
Methods in Mechanics, Rzeszów 26-28 May, 1999, p.227-228.
[18] P. Litewka, J. Rakowski, An efficient arch finite element for
dynamic and stability problems, 1st International Conference on Advances in
Structural Engineering and Mechanics, Seoul, Korea, 23-25 August 1999,
vol.1, pp.475-480.
[19] P. Litewka, R. Sygulski, Analiza numeryczna i eksperymentalna statyki pyt mostowych, XLV Konferencja Naukowa KILiW PAN i KN PZITB, Krynica, 13-18 wrzenia 1999, vol.1,pp.111-118.
[20] P. Litewka, R. Sygulski, Vibrations
of Bridge Slabs under Inertial Moving Loads, Vibrations in Physical Systems,
XIXth Symposium, Poznań
Błażejewko, 24-27 May, 2000.
[21] J. Rakowski,
P. Litewka, Beam analogy in the Static Analysis of
Shells of Revolution, Computational Methods for Shell and Spatial
Structures IASS-IACM 2000,
Chania, Crete, 4-7 June 2000, Abstracts, pp.10-11, CD-ROM.
[22] P. Litewka, P. Wriggers, Contact
between 3D beams with rectangular cross-sections, 3rd Contact Mechanics International Symposium CMIS 2001, Praia da Consolacao, Peniche,
Portugal, June 17-21, 2001, in: Contact Mechanics, eds.: J.A.C. Martins, M.D.P.
Monteiro Marques, pp.355-362, Solid Mechanics and its Applications,
vol.103, Kluwer academic publishers, Dordrecht.
[23] P. Litewka, P. Wriggers, J.
Rakowski, 3D beam finite element for large displacement analysis, 2nd European Conference on Computational
Mechanics ECCM-2001, Cracow, Poland, June
26-29, 2001, CD-ROM.
[24] P. Litewka, P. Wriggers,
Beam-to-beam contact finite element, WCCM V - Fifth World Congress on Computational Mechanics, Vienna, Austria, July 7-12, 2002, Book of Abstracts, vol.II, p.120; in: eds.: H.A. Mang,
F.J. Rammerstorfer, J. Eberhardsteiner,
paper ID-80222, website: http://www.wccm.tuwien.ac.at/index.html,.
[25] P. Litewka, P. Wriggers, Frictional
beam-to-beam contact by the Lagrange multipliers method, Complas
VII - 7th International Conference on Computational Plasticity,
Barcelona, Spain, April 7-10, 2003, Book of Abstracts, p.204; in: CD-ROM, eds.:
E. Oñate, D.R.J. Owen.
[26] P. Litewka, Frictional beam-to-beam contact by penalty and
Lagrange multiplier methods - numerical comparison, CMM-2003 15th International
Conference on Computer Methods in Mechanics, Gliwice/Wisła, June 3-6, 2003, Short Papers, p.227-228; in: CD-ROM,
eds.: T. Burczy, P. Fedeli,
E. Majchrzak.
[27] M. Guminiak, P. Litewka, R. Sygulski, Static analysis of plates on the unilateral
foundation by BEM, The 8th
International Conference MODERN BUILDING MATERIALS, STRUCTURES AND TECHNIQUES,
Vilnius, May 19-21, 2004, Short Papers, p.349-350; CD-ROM.
[28] D. Boso, P. Litewka, B. Schrefler, P. Wriggers,
Electric-mechanical beam-to-beam contact, 21st International Congress of Theoretical
and Applied Mechanics, Warsaw, August 15-21, 2004, Abstracts Book,
p.218; CD-ROM; Mechanics of the 21st Century, Ed. W. Gutkowski,
T. Kowalewski, Springer 2005, CD-ROM paper10415.
[29] D. Boso, P. Litewka, B. Schrefler, P. Wriggers,
Electro-mechanical coupling in beam-to-beam contact, CMM-2005 16st International Conference on
Computer Methods in Mechanics, Cz곴ochowa, June 20-24, 2005, Short
Papers, p.127-128.
[30] D. Boso, P. Litewka, B. Schrefler, P. Wriggers, 3D
beam-to-beam contact within coupled electro-mechanical fields: a finite element
model, 4th
Contact Mechanics International Symposium CMIS 2005, Hannover, July
4-6, 2005; in: Analysis and Simulation of Contact Problems, Eds. Peter Wriggers, Udo Nackenhorst,
Lecture Notes in Applied and Computational Mechanics, vol. 27, pp. 103-110,
Springer Verlag, Berlin Heidelberg, 2006.
[31] B. Litewka, P. Litewka, R. Sygulski, Analysis of floating plates under dynamic loads, Shell Structures Theory and
Applications, The 8th Conference, GdaJurata, 12-14 October 2005, in: Shell Structures: Theory
and Applications, Eds. W. Pietraszkiewicz, C. Szymczak, pp.377-381, Taylor & Francis Group, London,
2005.
[32] D. Boso, P. Litewka, B. Schrefler, P. Wriggers,
Thermo-electro-mechanical coupling in beam-to-beam contact, III European Conference on
Computational Mechanics, Lisbon, June 5-9, 2006, Book of Abstracts,
p.306.
[33] P. Litewka, Smooth frictional contact between beams in 3D, IUTAM Symposium on
Computational Contact Mechanics, Hannover, 5-8 November 2006; in: IUTAM
Symposium on Computational Methods in Contact Mechanics, Eds. P. Wriggers, U. Nackenhorst, pp.
157-176, IUTAM Bookseries Vol.3, Springer, Dordrecht,
2007.
[34] P. Litewka, A smoothing technique frictional contact between
beams in 3D, CMM-2007 17th
International Conference on Computer Methods in Mechanics, Spaa, June 19-22, 2007, Short Papers, p.253-254.
[35] P. Litewka, A 3D curve smoothing method preserving nodes for
the beam-to-beam contact, 8th World
Congress on Computational Mechanics / 5th European congress on Computational
methods in Applied Sciences and Engineering Methods in Mechanics,
Venice, Italy, 30 June 4 July 2008, CD-ROM, paper a2916.
[36] P. Litewka, Two smoothing methods in frictional beam-to-beam
contact a numerical comparison, XXII
International Congress of Theoretical and Applied Mechanics, Adelaide,
Australia, August 24-29, 2008, Abstracts Book, p.212; CD-ROM paper10700. .
[37] P. Litewka, The node-preserving beam-to-beam contact smoothing
using Beziers curves, CMM-2009 18th
International Conference on Computer Methods in Mechanics, Zielona Góra May 18-21, 2009, Short Papers, p.65-66; in:
Computer Methods in Mechanics. Lectures of the CMM2009, Eds. M. Kuczma, K. Wilma, pp. 439-452 The Beam-to-Beam
Contact Smoothing with Beziers Curves, Springer, Advanced Structured Materials
1, 2010.
[38] P. Litewka, Numerical comparison of various smoothing
techniques in the beam-to-beam contact, 1st International Conference on
Computational Contact Mechanics ICCCM09, Lecce, Italy, 16-18 September
2009, Abstracts, p.85-86.
[39] P. Litewka, S. Sikora, Elliptic curved beam finite element, IV European Conference on Computational
Mechanics ECCM 2010, Palais des Congres,
Paris, France, May 16-21, 2010, CD-ROM paper 833.
[40] P. Litewka, Multiple-point beam-to-beam contact finite
element, CMM-2011 19th International
Conference on Computer Methods in Mechanics, Warszawa, May 9-12, 2011, Short Papers, p.317-318.
[41] P. Litewka, Enhanced beam-to-beam contact element for almost
parallel beams, 2nd International Conference on Computational
Contact Mechanics ICCCM 2011,
Hannover, Germany, 15-17 June 2011, Abstracts, p.135-136.
[42] P. Litewka, Beam-to-beam contact, Bilateral Workshop on
Topics in Civil and Mechanical Engineering on 30th Anniversary of Scientific
Cooperation between Poznan University of Technology and Leibniz Universitaet Hannover, Hannover, Germany, 14-15 March
2013.
[43] O. Kawa, P. Litewka, Contact between 3-D beams with deformable
cross-sections, CMM-2013 20th International
Conference on Computer Methods in Mechanics, Poznań, August 27-31, 2013, Short Papers, p.
MS14-11-12; in: Recent Advances in Computational Mechanics, T. odygowski, J. Rakowski, P. Litewka,
Eds., p. 183-190, CRC Press/Balkema, Taylor &
Francis Group, London, 2014.
[44] P. Litewka, Numerical analysis of frictionless contact between
almost conforming beams, CMM-2013
20th International Conference on Computer Methods in Mechanics, Poznań, August 27-31, 2013, Short Papers, p. MS14-13-14;
in: Recent Advances in Computational Mechanics, T. Łodygowski,
J. Rakowski, P. Litewka, Eds., p. 191-199, CRC Press/Balkema, Taylor & Francis Group, London, 2014.
[45] O. Kawa, P. Litewka, Contact with friction between 3-D beams with
deformable circular cross section, 11th World Congress on Computational
Mechanics WCCM XI, Barcelona, July 27-31, 2014.
[46] P. Litewka, Frictional multiple-point beam-to-beam contact
finite element, 11th World
Congress on Computational Mechanics WCCM XI, Barcelona, July 27-31,
2014.
[47] O. Kawa, P. Litewka, Numerical analysis of contact between 3-D beams
with deformable cross-sections, 3rd
Polish Congress of Mechanics - 21th International Conference on Computer
Methods in Mechanics, Gdańsk, September 8-11,
2015, Short Papers vol. 1, p. 119-120; in: Advances in Mechanics, M. Kleiber, T. Burczyński, K. Wilde,
J. Górski, K. Winkelmann, Ł. Smakosz,
Eds., p. 287-291, CRC Press/Balkema, Taylor &
Francis Group, London, 2016.
[48] P. Litewka, Electro-mechanical multiple-point beam-to-beam
contact, 3rd Polish Congress of
Mechanics - 21th International Conference on Computer Methods in Mechanics,
Gdańsk, September 8-11, 2015, Short Papers vol. 1, p.
121-122; in: Advances in Mechanics, M. Kleiber,
T. Burczyński, K. Wilde, J. Górski,
K. Winkelmann, Ł. Smakosz, Eds., p. 349-353, CRC
Press/Balkema, Taylor & Francis Group, London,
2016.
[49] O. Kawa, P. Litewka, Numerical analysis of frictionless contact between
3D beams with circular cross-section, VII
European Congress on Computational Methods in Applied Sciences and Engineering
- ECCOMAS Congress 2016, Crete, June 5-10, 2016,
https://www.eccomas2016.org/proceedings/pdf/6888.pdf.
[50] R.
Lewandowski, P. Litewka, Harmonically forced
non-linear vibrations of plates made from Zener material, VII European Congress on Computational
Methods in Applied Sciences and Engineering - ECCOMAS Congress 2016,
Crete, June 5-10, 2016, https://www.eccomas2016.org/proceedings/pdf/5811.pdf.
[51] P. Litewka,
R. Lewandowski, Influence of elastic supports on non-linear steady-state
vibrations of Zener material, 22nd
International Conference on Computer Methods in Mechanics, Lublin,
September 13-16, 2017, Short Papers p. MS09-17-18; in: COMPUTER METHODS IN
MECHANICS (CMM2017): Proceedings of the 22nd International Conference on
Computer Methods in Mechanics, Eds, AIP
Conference Proceedings 1922, 100002 (2018); https://doi.org/10.1063/1.5019087.
[52] O. Kawa, P. Litewka,
R. Studzi, Numerical analysis of
cross-section deformation in beam-to-beam contact, Emerging Trends in Applied
Mathematics and Mechanics ETAMM2018, June 18-22, 2018, KrakBook of Abstracts, p.106.
[53] P. Litewka,
R. Lewandowski, Comparison of viscoelastic material models in non-linear
vibrations of plates, 9th International
Congress of Croatian Society of Mechanics, September 18-22, 2018,
Split, Croatia, Book of Abstracts, P. Marovic, L. Krstulovic-Opara, M. Galic, Eds.,
p.66.
[54] P. Litewka,
R. Lewandowski, Temperature influence on non-linear harmonic vibrations of
plates made of viscoelastic materials, 4th
Polish Congress of Mechanics - 23rd International Conference on Computer
Methods in Mechanics, Kraków September 8-12, 2019, Paper 465.
[55] P. Litewka,
R. Lewandowski, Temperature influence on free vibrations of viscoelastic Mindlin plates, Eurodyn 2020, XI International Conference on Structural
Dynamics, Athens, Greece, November 23-26, 2020, Paper 18623.
[56] P. Litewka,
R. Lewandowski, Refined zig-zag theory for dynamic
characteristics of laminate plates with viscoelastic layers, 24th
International Conference on Computer Methods in Mechanics - 42nd Solid
Mechanics Conference, Świnoujście, September
5-8, 2022, S-09 Keynote
Lecture.
[57] P. Litewka,
R. Lewandowski, Non-linear vibrations of viscoelastic
laminate plates with the influence of ambient temperature, 43rd Solid Mechanics Conference,
Wrocław, September 15-18, 2024.
[58] P. Litewka,
R. Lewandowski, Modeling of temperature influence on harmonic vibrations of viscoelastic layered
plates, 31st
Conference Vibrations in Physical and Technical Systems, Poznań, October 16-18, 2024, Book of
Abstracts, p.63-64.
[59] P. Litewka,
R. Lewandowski, Modeling of ambient temperature influence on dynamic characteristics of
viscoelastic layered plates, GAMM
95th Annual Meeting, Poznań, April 7-11,
2025, Book of Abstracts, p.368-369.
Enlaces (arriba)
Universidades,
fundaciones
Fundacie
Alexander von Humboldt
Revistas
cient�cas
Zeitschrift fr Angewandte Mathematik und
Mechanik
International Journal for Numerical
Methods in Engineering
Solid Mechanics and its Applications
Otros