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Quenot G.M., Pakleza J., Kowalewski T.A., Particle Image Velocimetry with Optical Flow, EXPERIMENTS IN FLUIDS, 25, 3, 177-189, 1998 | |
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Stückrad B., Hiller W.J., Kowalewski T.A., Measurement of dynamic surface tension by the oscillating droplet method, EXPERIMENTS IN FLUIDS, 15, 4, 332-340, 1993 | |
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Hiller W., Kowalewski T.A., An experimental study of the lateral migration of a droplet in a creeping flow, EXPERIMENTS IN FLUIDS, 5, 1, 43-48, 1986 | |
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Kowalewski T.A., Concentration and velocity measurements in the flow of droplet suspensions through a tube, EXPERIMENTS IN FLUIDS, 2, 4, 213-219, 1984 | |
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Pawłowska S., Nakielski P., Pierini F., Zembrzycki K., Kowalewski T.A., Mobility of nanofilaments, EXPERIMENTS IN FLUID MECHANICS 2015, 2015-10-26/10-27, WARSZAWA (PL), 1-, 2015 | |
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Hiller W.J., Kowalewski T.A., Koch S., Three-dimensional structures in laminar natural convection in a cubic enclosure, EXPERIMENTAL THERMAL AND FLUID SCIENCE, 2, 1, 34-44, 1989 | |
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Tabin J., Brodecki A., Parametrisation of Uniform Deformation in Ductile Metals Using Digital Image Correlation Technology, EXPERIMENTAL TECHNIQUES, 1-12, 2024 | |
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Ziółkowski A., Luckner J., Dietrich L., On Conditioning of Resistive Strain Gage Channel Connected in Quarter Bridge Configuration in Measurement of Moderately Large Strains, EXPERIMENTAL TECHNIQUES, 1, 1-16, 2014 | |
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Dębska-Vielhaber G., Miller I., Peeva V., Zuschratter W., Walczak J., Schreiber S., Petri S., Machts J., Vogt S., Szczepanowska J., Gellerich F.N., Hermann A., Vielhaber S., Kunz W.S., Impairment of mitochondrial oxidative phosphorylation in skin fibroblasts of SALS and FALS patients is rescued by in vitro treatment with ROS scavengers, EXPERIMENTAL NEUROLOGY, 339, 113620-1-10, 2021 | |
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Kopeć M.,Gunputh U.,Williams G.,Macek W.,Kowalewski Z.,Wood P., Fatigue Damage Evolution in SS316L Produced by Powder Bed Fusion in Different Orientations with Reused Powder Feedstock, EXPERIMENTAL MECHANICS, 1-16, 2024 | |
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Kopeć Mateusz, Compression and Fatigue Testing of High‑Strength Thin Metal Sheets by Using an Anti-Buckling Device, EXPERIMENTAL MECHANICS, 1-11, 2023 | |
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Moćko W., Radziejewska J., Analysis of the application of a nanosecond laser pulse for dynamic hardness tests under ultra-high strain rates, EXPERIMENTAL MECHANICS, 59, 4, 483-487, 2019 | |
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Kucharski S., Jarząbek D., Piątkowska A., Woźniacka S., Decrease of Nano-hardness at Ultra-low Indentation Depths in Copper Single Crystal, EXPERIMENTAL MECHANICS, 56, 3, 381-393, 2016 | |
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Oliferuk W., Maj M., Zembrzycki K., Determination of the Energy Storage Rate Distribution in the Area of Strain Localization Using Infrared and Visible Imaging, EXPERIMENTAL MECHANICS, 55, 753-760, 2015 | |
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Kucharski S., Stupkiewicz S., Petryk H., Surface Pile-Up Patterns in Indentation Testing of Cu Single Crystals, EXPERIMENTAL MECHANICS, 54, 957-969, 2014 | |