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Warianty tytułu
Wpływ ubioru uciskowego na średnie i miejscowe zmiany wartości nacisku jednostkowego
Języki publikacji
Abstrakty
On the basis of models developed and experimental studies, the impact of a compression garment on average and local changes in unit pressure was analysed. The study was based on the analysis of the results of 3D scans of selected parts of female and male bodies. It was found out that surface pressure exerted by the compression garment leads to some changes in the geometry of body circumferences and in their lengths and, consequently, to a change in the average pressure value, as well as local changes along the circumference. The main purpose of this work was to estimate the size of these changes in the example of selected parts of female and male bodies.
Na podstawie opracowanych modeli i badań eksperymentalnych dokonano analizy wpływu ubioru uciskowego na średnie i miejscowe zmiany nacisku jednostkowego. Badania przeprowadzono na przykładzie analizy wyników skanowania 3D części ciała sylwetki damskiej i męskiej. Stwierdzono, iż nacisk powierzchniowy wywierany przez ubiór uciskowy prowadzi do zmian geometrii obwodów ciała i zmian ich długości, a w konsekwencji do zmiany średniej wartości nacisku i jego zmian miejscowych wzdłuż długości obwodu. Głównym celem tej pracy jest oszacowanie wielkości tych zmian na przykładzie wybranych części ciała dla sylwetki damskiej i męskiej.
Czasopismo
Rocznik
Strony
68--74
Opis fizyczny
Bibliogr. 18 poz., rys.
Twórcy
autor
- Lodz University of Technology, Department of Knitting Technology, Łódź, Poland
autor
- Cracow University of Technology, Mechanical Department, Kraków, Poland
autor
- Lodz University of Technology, Department of Knitting Technology, Łódź, Poland
autor
- Lodz University of Technology, Department of Knitting Technology, Łódź, Poland
autor
- Tricomed S.A., Łódź, Poland
autor
- Tricomed S.A., Łódź, Poland
autor
- Tricomed S.A., Łódź, Poland
autor
- Lodz University of Technology, Computer Engineering Department, Łódź, Poland
Bibliografia
- 1. Maklewska E, Nawrocki A, Ledwoń J, Kowalski K. Modelling and Designing of Knitted Products used in Compressive Therapy. Fibres & Textiles in Eastern Europe 2006; 14, 5(59): 111-113.
- 2. Mirjalili S A, Rafeeyan M, Soltanzadeh Z. The Analytical Study of garment Pressure on the Human Body Using Finite Elements. Fibres & Textiles in Eastern Europe 2008; 16, 3(68): 69-73.
- 3. Ališauskienė D, Mikučionienė D. Influence of the Rigid Element Area on the Compression Properties of Knitted Orthopaedic Supports. Fibres & Textiles in Eastern Europe 2012; 20, 6A(95): 103-107.
- 4. Kowalski K, Mielicka E, Kowalski T M. Modeling and Design of Compression Products of the Intended Unit Pressure for the Circuits of the Body with a Variable Radius of Curvature. Fibres & Textiles in Eastern Europe 2012; 20, 6A(95): 98- 102.
- 5. Liu R, Kwok Y-L, Li Y, Lao T-T. Fabric Mechanical-Surface Properties of Compression Hosiery and their Effects on Skin Pressure Magnitudes when Worn. Fibres & Textiles in Eastern Europe 2010; 18, 2(79): 91-97.
- 6. Kirstein T., Krzywinski S. Fit optimisation for close-fitting garments with regard to material properties, Institute for Textile and Clothing Technology (Dresden University of Technology) 1994 6/4, 17-27.
- 7. Ng SFF, Hui CLP. Effect of hem edges on the interface pressure of pressure garments. International Journal of Clothing Science and Technology 1999, 11/5, 251-261.
- 8. Ng SF, Hui CLP. Pressure model of elastic fabric for producing pressure garments. Textile Research Journal 2001; 71/3, 275-279.
- 9. Macityre L, Baird M, Weedall P. Elastic Fabrics for Use in Pressure Garments – Comfort Properties. World Textile Congress (Heriot-Watt University UK) 2000, 74-81.
- 10. Pressure garments for use in the treatment of hypertrophic scars—a review of the problems associated with their use, Lisa Macintyre, Margot Baird, Burns 32 (2006) 10–15
- 11. Bin Salleh, Mohamed Najib; Acar, Memis; Burns, Neil D. Customised Pressure Garment Development by Using 3D Scanned Body Image. Research Journal of Textile and Apparel 1997; 15, 4.
- 12. Whitestone JJ. Richard RL, Slemker T, CAuse-Ellias KL, Miller SF. “Fabrication of Total-Contact Burn Masks by Use of Human Body Topography and Computer-Aided”. Journal of Burn Care & Rehabilitation 1995; 16(5): 543-7.
- 13. Zhi-Hua Hu, Yong-Sheng Ding, Wen-Bin Zhang, Qiao Yan. An interactive co- evolutionary CAD system for garment pattern design. Computer-Aided Design 2008; 40: 1094-1104
- 14. Yang Y C, Zou Z Y, Li Z, Ji X F, Chen M Z. Development of a Prototype Pattern Based on the 3D Surface Flattening Method for MTM Garment Production, Fibres & Textiles in Eastern Europe 2011; 19, 5(88): 107-111.
- 15. Yang Y-C, Zou F-Y, Li Z, Ji X-F, Chen M-Z. Development of a Prototype Pattern Based on the 3D Surface Flattening Method for MTM Garment Production. Fibres & Textiles in Eastern Europe 2011; 19, 5(88): 107-111.
- 16. Petrak S, Mahnic M, Ujevic D. Study of the Computer-based Adjustment of a 3D Body Model Based on Anthropometric Data Obtained by 3D Laser Scanner. Proceedings of the 3rd International Conference on 3D Body Scanning Technologies, D’Apuzzo N. editor, Lugano, Switzerland 2012: 115-126.
- 17. Derejczyk K, Siemiński P. Analysis of the accuracy of optical 3D scanning methods (in polish) Mechanik. 2016.4.41. DOI: 10.17814
- 18. Ilska A, Kowalski K, Kłonowska M, Kowalski TM. Influence of Stress and Relaxation Characteristics of Knitted Fabrics on the Unit Pressure of Compression Garments Supporting External Treatment. Fibres & Textiles in Eastern Europe 2014; 22, 4(106): 87-92.
Uwagi
PL
Opracowanie rekordu w ramach umowy 509/P-DUN/2018 ze środków MNiSW przeznaczonych na działalność upowszechniającą naukę (2018).
Typ dokumentu
Bibliografia
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