J. Nosal scite author profile

J. Nosal

5Publications

8Citation Statements Received

58Citation Statements Given

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Lodz University of Technology

Publications

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Assessment of the Impact of the Surface Modification Processes of Cotton and Polyester Fabrics with Various Techniques on Their Structural, Biophysical, Sensory, and Mechanical Properties

2022

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This article presents research on the assessment of the impact of surface modification of cotton and polyester fabrics using four techniques (flocking, layer by layer, screen printing and thermal-transfer printing) on their structural, mechanical, biophysical, and sensory properties. Depending on geometry and raw materials of the fabrics, the clothing made of them it is characterized by certain biophysical properties which are intended to protect the human body against external factors, but also against excessive sweating and overheating or cooling down. The aforementioned properties of the modified textiles were determined with: optical microscopy, microcomputed tomography, a tensile testing machine, sweating guarded-hotplate, air permeability tester, and the Kawabata evaluation system. Based on analysis of obtained results, it can be concluded that flocking reduces air permeability the most (−77% for cotton fabric and −99.7% for polyester fabric), and total hand value (−58% and −57%) and increases water vapor resistance the most (+769% and +612%) while the screen printing increases the thermal resistance the most (+119% and +156%) compared to unmodified textiles. It can be concluded that, when modifying textile substrates, the area of modification and their size on clothing products should be carefully selected so as not to adversely affect the feelings of potential wearers.

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Static 3D Model of the Rotliegend Deposits in the Żuchlów Gas Field Area, Fore-Sudetic Monocline, Western Poland

Ząbek¹,

Machowski²,

Nosal³

2013

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Deeply Buried Sandstones - Diagenesis and Reservoir Quality

Nosal¹,

Ząbek²

2014

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SUMMARYDuring development of sedimentary basin, pore space of sandstones undergo transformations related to diagenetic stages. These processes include compaction, cementation, dissolution, replacement and recrystalisation, and become more and more advanced with depth. This interactions amends primary porosity, leading to deterioration of reservoir properties. The paper presents diagenetical changes occurred within deeply buried tight Rotliegend sandstones from Polish part of Southern Permian Basin and its impact on reservoir properties

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Multiscale 3D Modeling for Evaluation of Shale Gas Resources in Western Part of the Baltic Basin - Preliminary Results

Papiernik¹,

Machowski²,

Poprawa³

et al. 2015

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An Example of a Tight Gas Deposit in Polish Part of the Southern Permian Basin

Nosal¹,

Ząbek²

2013

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J. Nosal

Assessment of the Impact of the Surface Modification Processes of Cotton and Polyester Fabrics with Various Techniques on Their Structural, Biophysical, Sensory, and Mechanical Properties

Static 3D Model of the Rotliegend Deposits in the Żuchlów Gas Field Area, Fore-Sudetic Monocline, Western Poland

Deeply Buried Sandstones - Diagenesis and Reservoir Quality

Multiscale 3D Modeling for Evaluation of Shale Gas Resources in Western Part of the Baltic Basin - Preliminary Results

An Example of a Tight Gas Deposit in Polish Part of the Southern Permian Basin

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