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  • (-) Empa Authors = Pietrzko, Stanislaw J.
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Vibration identification and sound insulation of triple glazing
Pietrzko, S., & Mao, Q. (2013). Vibration identification and sound insulation of triple glazing. Noise Control Engineering Journal, 61(3), 345-354. https://doi.org/10.3397/1/3761029
Mechanical properties of magnetorheological elastomers under shear deformation
Boczkowska, A., Awietjan, S. F., Pietrzko, S., & Kurzydłowski, K. .J. (2012). Mechanical properties of magnetorheological elastomers under shear deformation. Composites Part B: Engineering, 43(2), 636-640. https://doi.org/10.1016/j.compositesb.2011.08.026
Free vibration analysis of a type of tapered beams by using Adomian decomposition method
Mao, Q., & Pietrzko, S. (2012). Free vibration analysis of a type of tapered beams by using Adomian decomposition method. Applied Mathematics and Computation, 219(6), 3264-3271. https://doi.org/10.1016/j.amc.2012.09.069
Design of shaped piezoelectric modal sensor for a type of non-uniform beams using adomian-modified decomposition method
Mao, Q., & Pietrzko, S. (2011). Design of shaped piezoelectric modal sensor for a type of non-uniform beams using adomian-modified decomposition method. Journal of Intelligent Material Systems and Structures, 22(2), 149-159. https://doi.org/10.1177/1045389X10395796
Control of sound transmission trough a double wall structure
Pietrzko, S., & Mao, Q. (2011). Control of sound transmission trough a double wall structure (pp. 10-24). Presented at the 10th international conference on active noise and vibration control methods (MARDiH 2011). .
Control of structural sound radiation and vibration using shunt piezoelectric materials
Pietrzko, S., & Mao, Q. (2011). Control of structural sound radiation and vibration using shunt piezoelectric materials. Journal of System Design and Dynamics, 5(5), 752-764. https://doi.org/10.1299/jsdd.5.752
Vibration identification of triple pane insulating glazing
Pietrzko, S., & Mao, Q. (2011). Vibration identification of triple pane insulating glazing (p. (14 pp.). Presented at the 25th conference of the institute of noise control engineering (NOISE-CON 2011). .
Design of shaped piezoelectric modal sensor for beam with arbitrary boundary conditions by using Adomian decomposition method
Mao, Q., & Pietrzko, S. (2010). Design of shaped piezoelectric modal sensor for beam with arbitrary boundary conditions by using Adomian decomposition method. Journal of Sound and Vibration, 329(11), 2068-2082. https://doi.org/10.1016/j.jsv.2009.12.016
Design of shaped piezoelectric modal sensor for beam with general boundary conditions
Mao, Q., & Pietrzko, S. (2010). Design of shaped piezoelectric modal sensor for beam with general boundary conditions (p. (8 pp.). Presented at the 17th international congress on sound & vibration (ICSV 17). .
Experimental study for control of sound transmission through double glazed window using optimally tuned Helmholtz resonators
Mao, Q., & Pietrzko, S. (2010). Experimental study for control of sound transmission through double glazed window using optimally tuned Helmholtz resonators. Applied Acoustics, 71(1), 32-38. https://doi.org/10.1016/j.apacoust.2009.07.007
Free vibration analysis of stepped beams by using Adomian decomposition method
Mao, Q., & Pietrzko, S. (2010). Free vibration analysis of stepped beams by using Adomian decomposition method. Applied Mathematics and Computation, 217(7), 3429-3441. https://doi.org/10.1016/j.amc.2010.09.010
Control of structural sound radiation and vibration using shunt piezoelectric materials
Pietrzko, S., & Mao, Q. (2010). Control of structural sound radiation and vibration using shunt piezoelectric materials (p. 3C11 (13 pp.). Presented at the 10th international conference on motion and vibration control (MOVIC 2010). .
Active control of a beam for generating points of zero displacements and zero slopes
Mao, Q., & Pietrzko, S. (2009). Active control of a beam for generating points of zero displacements and zero slopes. Solid State Phenomena, 147-149, 861-868. https://doi.org/10.4028/www.scientific.net/SSP.147-149.861
Experimental study for passive control of sound transmission through a double glazed window using optimally tuned Helmholtz resonators
Mao, Q., & Pietrzko, S. (2009). Experimental study for passive control of sound transmission through a double glazed window using optimally tuned Helmholtz resonators. In Vol. 5. 16th international congress on sound and vibration 2009 (ICSV16) (pp. 3051-3058). International Institute of Acoustics and Vibration (IIAV).
Vibroacoustic simulation of a triple glazed window as an example of a multilayered structure
Nguyen, C. H., & Pietrzko, S. J. (2009). Vibroacoustic simulation of a triple glazed window as an example of a multilayered structure. In Vol. 2. 16th international congress on sound and vibration 2009 (ICSV16) (pp. 888-895). International Institute of Acoustics and Vibration (IIAV).
Contributions to noise and vibration control technology
Pietrzko, S. J. (2009). Contributions to noise and vibration control technology. Kraków: Akademia Górniczo-Hutnicza.
Noise reduction in a duct using passive/semiactive shunt loudspeakers
Pietrzko, S., & Mao, Q. (2009). Noise reduction in a duct using passive/semiactive shunt loudspeakers (p. 8 pp.). Presented at the The 16th international congress on sound and vibration. .
Reduction of structural sound radiation and vibration using shunt piezoelectric materials
Pietrzko, S., & Mao, Q. (2009). Reduction of structural sound radiation and vibration using shunt piezoelectric materials. Solid State Phenomena, 147-149, 882-889. https://doi.org/10.4028/www.scientific.net/SSP.147-149.882
Active vibration isolation using an electrical damper or an electrical dynamic absorber
Kim, S. M., Pietrzko, S., & Brennan, M. J. (2008). Active vibration isolation using an electrical damper or an electrical dynamic absorber. IEEE Transactions on Control Systems Technology, 16(2), 245-254. https://doi.org/10.1109/TCST.2007.903376
Active control of a beam for generating points of zero displacement and zero slopes
Mao, Q., & Pietrzko, S. (2008). Active control of a beam for generating points of zero displacement and zero slopes. In Z. Cosiewski & Z. Kulesza (Eds.), The 4th international conference mechatronic systems and materials: mechatronic systems and materials MSM 2008, Bialsystok, Poland, 14-17 July, 2008 (p. (8 pp.). Bialystok Technical University.