Magnetic field distribution detecting and computing methods for experimental mechanics

• Autorzy: Kaleta J. , Wiewiórski P.
• Języki publikacji: EN

Abstrakty

EN

This paper presents the design and measuring potential of the latest generation of the magnetic scanner called Magscanner-Maglab System (MMS) which enables a fast acquisition of 3D signals from magnetic sensors and their visualization as digitalized magnetic images for a variety of flat and cylindrical objects. MMS can be used as entirely autonomous or combined (through common control) with a typical material testing machine for static load and fatigue tests. The system can be used to investigate magnetomechanical phenomena and identify their models in experimental mechanics, as well as detect and locate strain fields, areas of plastic deformations and cracks in industrial processes. It has been used recently to measure the magnetic field around objects subjected to technological processing in order to check their quality.

Słowa kluczowe

EN

Magscanner-Maglab System; MMS; magnetic field; computing techniques

PL

Magscanner-Maglab System; MMS; pole magnetyczne; obliczanie

• Wydawca: Instytut Podstawowych Problemów Techniki PAN
• Czasopismo: Engineering Transactions
• Rocznik: 2010
• Tom: Vol. 58, iss. 3/4
• Strony: 97--118
• Opis fizyczny: Bibliogr. 18 poz., rys., wykr.

Twórcy

autor

Kaleta J.

autor

Wiewiórski P.

• Wroclaw University of Technology Institute of Materials Science and Applied Mechanics Smoluchowskiego 25, 50-370 Wroclaw, Poland,

Bibliografia

• 1. J. Kaleta, Magnetomechanical Effect in Fatigue Investigations of Ferromagnetics, Proc.of EUROMAT-2000, 2, 1149–2254, 2000.
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• 4. J. Kaleta, P. Wiewiórski, Wireless 3D Magnetic Field Digitizer for inspection of parts fabricated using Smart Magnetic Materials, Proc. of IV ECCOMAS Thematic Conference on Smart Structures and Materials, Porto, 2009.
• 5. J. Kaleta, P. Wiewiórski, Magnetovision as a Tool for Investigation of Fatigue Process of Ferromagnetics; Proc. of Fatigue 2001, Sao-Paulo, December 12–14, 2001; 7, 2001.
• 6. J. Kaleta, R. Górecki, Method of visualizing cross fields in plates subjected to cyclic loading. Fatigue and fracture mechanics [in Polish], Proc. of XIX Symposium on Fatigue and Fracture Mechanics, Bydgoszcz, 2002.
• 7. J. Kaleta, P. Wiewiórski, Detection of defects in magnetic composite rods by means of high-resolution scanner [in Polish], Acta Mechanica et Automatica, 1, 1, 39–44, 2007.
• 8. J. Kaleta, P. Wiewiórski, W. Wiśniewski, Examination of texture of ferromagnetic sheets, using the Villari effect [in Polish], Symposium on Mechanics of Failure of Materials and Structures, Augustów, 2003.
• 9. J. Kaleta, P. Wiewiórski, W. Wiśniewski, Magnetic memory of ferromagnetic material deformation history [in Polish], Proc. of IX Domestic Conference on Fracture Mechanics, Kielce-Cedzyna, 14–17 September, 2003, Wydaw. P. Świętokrz., pp. 221–228, 2003.
• 10. B. Fassa, J. Kaleta, P. Wiewiórski, Methodology of investigating athermal martensite transformation in austenitic foils [in Polish], Proc. of XIX Symposium on Fatigue and Fracture Mechanics, Bydgoszcz, 2002.
• 11. B. Fassa, J. Kaleta, P. Wiewiórski, Martensite transformation induced by plastic strain in foils made of metastable austenite [in Polish], Proc. of VIII Domestic Conferenceon Fracture Mechanics, Kielce-Cedzyna, September 17–19, 2001; 8, Kielce, 2001.
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• 14. J. Kaleta, P. Wiewiórski, The Dipole Contouring Method as a tool for magnetic field distribution in premagnetization zone in SMART actuator, Proc. of IV ECCOMAS Thematic Conference on Smart Structures and Materials, 2009.
• 15. Yang En, Li Luming, Chen Xing, Magnetic field aberration induced by cycle stress, J. Magn. Magn. Mat., 312, 72–776, 2007.
• 16. M. J. Sablik, Modelling the effects of biaxial stress on magnetic properties of steels withapplication to biaxial stress NDE, DPA, Amsterdam, 1995.
• 17. J. Kaleta, D. Lewandowski, P. Wiewiórski, 3D magnetovision scanner as a tool for investigation of magnetomechanical principles, Solid State Phenomena, 154, 181–186, 2009.
• 18. J. Kaleta, P. Wiewiórski, Construction of magnetic scanner for application in experimental mechanics, Proc. of 26th Danubia-Adria Symposium on Advances in Experimental Mechanics, pp. 95–96, Leoben, September 23–26, 2009.