dr inż. Artur Marczewski


Doktorat
2005Optymalizacja procesów tłoczenia blach oparta na symulacji numerycznej i ścisłych metodach analizy wrażliwości 
promotor -- prof. dr hab. inż. Włodzimierz Sosnowski, IPPT PAN
582 
Ostatnie publikacje
1.Konowrocki R., Kalinowski D., Szolc T., Marczewski A., Identification of safety hazards and operating conditions of the low-floor tram with independently rotating wheels with various drive control configurations, EKSPLOATACJA I NIEZAWODNOŚĆ - MAINTENANCE AND RELIABILITY, ISSN: 1507-2711, DOI: 10.17531/ein.2021.1.3, Vol.23, No.1, pp.21-33, 2021

Streszczenie:

The aim of the article is to develop a method for the analysis of tram dynamics related to safety during operation. To achieve this, a mathematical model of the vehicle represented by a multibody simulation MBS system is used. Models of tram with a classic and innovative drive, based on a system of independently rotating wheels on crank axles are analyzed. A new configuration of an innovative drive control of the considered vehicle with the use of braking of independent wheels is proposed. A new geometry of test track is presented. During numerical investigation the values of 'Y' leading forces of tram wheels with the considered innovative drive proved to be lower than in the corresponding vehicle with standard wheelsets. It has been demonstrated that the active control systems are of key importance and should be applied in such innovative tram drives.

Słowa kluczowe:

maintenance of safety, reliability of trams, derailment of tramcar, numerical tests, drive with independently rotating wheel

Afiliacje autorów:

Konowrocki R.-IPPT PAN
Kalinowski D.-IPPT PAN
Szolc T.-IPPT PAN
Marczewski A.-other affiliation
140p.
2.Bednarek T., Kowalczyk P., Marczewski A., Sosnowski W., Improvement of stability conditions and uniqueness of penalty approach in contact modelling in sheet metal forming, COMPUTER METHODS IN MATERIALS SCIENCE / INFORMATYKA W TECHNOLOGII MATERIAŁÓW, ISSN: 1641-8581, Vol.11, No.2, pp.411-417, 2011

Streszczenie:

The main objective of this paper is to improve stability conditions, uniqueness and convergence of the flow approach algorithm with viscoplastic and plastic material models. In this paper, the problem of convergence and uniqueness of the problem of non-linear simulation of sheet metal forming processes modeled using rigid-viscoplastic material model is considered. In the numerical simulation of the deformation process MFP2D and MFP3D Finite Element programs were used. The simplicity of the algorithm is the main advantage of these codes, the Direct Differentiation method and optimization modules can be implemented in the source code. The numerical instability caused by high values of the condition number of the main system of equations is the main disadvantage of the codes. The penalty approach contact model used in the program makes the stiffness matrix condition number worse.

Słowa kluczowe:

finite element method, sheet metal forming, computational stability, flow approach

Afiliacje autorów:

Bednarek T.-IPPT PAN
Kowalczyk P.-IPPT PAN
Marczewski A.-IPPT PAN
Sosnowski W.-IPPT PAN
5p.
3.Marczewska I., Bednarek T., Marczewski A., Sosnowski W., Jakubczak H., Rojek J., Practical fatigue analysis of hydraulic cylinders and some design recommendations, INTERNATIONAL JOURNAL OF FATIGUE, ISSN: 0142-1123, Vol.28, pp.1739-1751, 2006

Lista rozdziałów w ostatnich monografiach
1.
165
Sosnowski W., Szolc T., Bednarek T., Marczewska I., Marczewski A., Knowledge acquisition for hybrid systems of risk assessment and critical machinery diagnosis, rozdział: Attempts of durability assessment of cracked rotor shafts, Silesian University of Technology (Gliwice), Moczulski W., Ciupke K. (Eds.), pp.193-204, 2008

Abstrakty konferencyjne
1.Kalinowski D., Konowrocki R., Szolc T., Marczewski A., Simulation research on safety against derailment of trams with independently rotating wheels, RAIL VEHICLES 2020 , The 24th scientific conference RAIL VEHICLES 2020 , 2020-10-25/10-28, Arłamów - Ustrzyki Dolne/ Poland (PL), No.1, pp.81-82, 2020

Streszczenie:

Trams with independently rotating wheels (IRW) enable to increase a comfort of traveling by lowering the floor level along the entire length of the vehicle, in particular above the bogies. In these trams such solution imposes a different design of motor bogies. In this construction of the bogies, four independent motors mounted on the bogie frame are connected each by a gear-stage with a single running-wheel. By means of the appropriate control algorithm guiding driving torques in curved sections of the railway track can be generated. Trams must ensure a high level of safety of passengers, and one of its aspect is safety against derailment. This article presents an original simulation method to investigate a level of safety against derailment for such vehicles. Principles of this method are independent of the tram car configuration. Using this approach, structural analysis of trams was carried out, which tested drive control in the boogie equipped with independently rotating wheels. Here, numerous simulations of motion on curved tracks were performed by means of various wheel drive control algorithms.

Słowa kluczowe:

research safety, safety against derailment, derailment of trams, trams with independently rotating wheels, independently rotating wheels

Afiliacje autorów:

Kalinowski D.-IPPT PAN
Konowrocki R.-IPPT PAN
Szolc T.-IPPT PAN
Marczewski A.-other affiliation
2.Bednarek T., Marczewski A., Sosnowski W., Modelling of fluid and structure interaction in blood vessels, SolMech 2010, 37th Solid Mechanics Conference, 2010-09-06/09-10, Warszawa (PL), pp.1-2, 2010
3.Szolc T., Bednarek T., Marczewska I., Marczewski A., Sosnowski W., Fatigue analysis of the cracked rotorby means of the one and three dimensional dynamical model, IFToMM, 7th International Conference on Rotor Dynamics, 2006-09-25/09-28, Wiedeń (AT), pp.3-200-00689-7, 2006

Streszczenie:

In the paper the structural one-dimensional hybrid dynamical model of the entire vibrating rotor-shaft system and the three-dimensional fmite element model of its cracked shaft zone were applied for a fatigue life prediction of the machine faulty segment under coupled bending-torsional-axial vibrations. The steady-state dynamic response amplitudes, obtained by means of the one-dimensional model of the system, have been used for the three-dimensional model as an input data for determination of maximal stresses and stress intensity factors at the crack tip. These quantities together with the Wohler curves enable us an approximate determination of load limits responsible for a probable further crack propagation. By means of the proposed approach one can predict a damage probability of the faulty rotor-shaft system of arbitrary structure operating under various dynamic and quasi-static loads affecting a crack of various sizes and shaft locations. From the investigations performed for various crack axial locations on the shaft with respect to bearing supports of the single- and double-span rotor-shaft systems, it follows that a strength of the cracked zone is much more sensitive to normal stresses due to bending and axial oscillations than to tangential stresses caused by torsional vibrations.

Słowa kluczowe:

hybrid dynamical mode, vibrating rotor-shaft system, fatigue analysis

Afiliacje autorów:

Szolc T.-IPPT PAN
Bednarek T.-IPPT PAN
Marczewska I.-IPPT PAN
Marczewski A.-IPPT PAN
Sosnowski W.-IPPT PAN