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Razvoj večfunkcionalnih 3D pletenih struktur z oksetičnim potencialom
ID Rant, Darja (Author), ID Pavko-Čuden, Alenka (Mentor) More about this mentor... This link opens in a new window

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Abstract
V naravi najdemo številne zglede učinkovitih in okolju prijaznih rešitev izzivov, s katerimi se dandanes ukvarja človeštvo. Veda, ki trajnostne odgovore na izzive današnje družbe išče v posnemanju naravnih, časovno preizkušenih vzorcev in strategij, se imenuje biomimetika. Biomimetične smernice oblikovanja so bile temelj razvoja večfunkcionalnih embalažnih pletiv, ki ne predstavljajo dodatnega okoljskega bremena, temveč so mnogokratno uporabna in vizualno privlačna. Ohranjanje svežine hrane pomembno prispeva k zdravemu prehranjevanju in zmanjšanju količine zavržene hrane. Na ohranjanje svežine pomembno vpliva shranjevanje hrane, med drugim tudi embalaža. Za gospodinjsko shranjevanje živil se v sodobnosti uporabljajo raznoliki materiali, manj tekstilije. Tekstilije imajo večfunkcionalni potencial za shranjevanje živil. Živila lahko mehansko ščitijo pred udarci, so zračno prepustne in s tem preprečujejo nastanek plesni, so pralne in s tem večkratno uporabne, biorazgradljive in s tem trajnostne, zložljive, prijetne na otip in okrasne, tj. primerne za izdelavo v različnih barvah, velikostih in oblikah. Med tekstilijami se pletiva odlikujejo po razteznosti in prilagodljivosti oblike, možnosti brezšivne izdelave, visoki produktivnosti izdelave, možni samodejni zložljivosti ter možnosti kompleksne funkcionalizacije. Namen raziskave je bil na podlagi teoretičnih in eksperimentalnih izhodišč – inspiracij oblikovati, na industrijskem pletilniku izdelati in preizkusiti vizualno zanimiva, estetska in večfunckcionalna pletiva s potencialim samodejnim prečnim povečevanjem ob hkratnem vzdolžnem raztezanju, kar imenujemo oksetični potencial. Na ravni ozko usmerjene uporabnosti za embalažo je bil namen oblikovati in razviti pletene strukture z več funkcijami za shranjevanje živil, na ravni večuporabnosti pa je bil namen predvideti uporabo teh pletenih struktur tudi na drugih oblačilnih in neoblačilnih področjih. Osrednji cilj raziskave je bila analiza vplivnosti strukturnih parametrov levo-levih pletiv na sposobnost zlaganja, ki izkazujejo večji oksetični in varovalni učinek. Oblikovalsko eksperimentalno delo je temeljilo na sistematičnem razvoju reliefnih in zložljivih struktur z oksetičnim potencialom iz različnih materialov in v različnih gostotah. Tehnološko eksperimentalno delo je obsegalo preizkušanje večfunkcionalnih lastnosti izbranih novooblikovanih pletenih struktur: sposobnosti zlaganja, kompresijskih, protibakterijskih in biorazgradnih lastnosti ter sposobnosti ohranjanja svežine živil. Na koncu je sledila likovna analiza izdelanih večfunkcionalnih pletenih struktur, ki so primerne tako za izdelavo estetsko zanimivih oblačil in ostalih tekstilij kot za izdelavo vizualno privlačnega in funkcionalno koristnega embalažnega materiala za gospodinjsko shranjevanje pekovskih izdelkov/kruha.

Language:Slovenian
Keywords:biomimetika, oksetični potencial, levo-levo pletivo, protibakterijske lastnosti, kompresija, biorazgradljivost, embalaža, shranjevanje kruha
Work type:Doctoral dissertation
Organization:NTF - Faculty of Natural Sciences and Engineering
Year:2018
PID:20.500.12556/RUL-100603 This link opens in a new window
COBISS.SI-ID:295880192 This link opens in a new window
Publication date in RUL:31.03.2018
Views:1744
Downloads:648
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Secondary language

Language:English
Title:Development of multifunctional 3D knitted structures with auxetic potential
Abstract:
Nature provides us with many examples of effective and environmentally friendly solutions to the various problems that plague humanity. The study of applying designs from nature to solve problems in engineering, materials science, medicine and other fields is called biomimetics. Biomimetic design guidelines are the basis for the development of knitted fabrics for multifunctional packaging, which do not represent an additional environmental burden, but are often useful and visually appealing. Preserving the freshness of food is an important contribution to healthy nutrition and reducing the amount of discarded food. Food conservation including packaging is important for preserving the freshness of food. For household storage of foods, a variety of materials are used in modern times, of which textiles represent a smaller share. Textiles have multifunctional food storage potential. They can mechanically protect food against impact, they are air-permeable, thus preventing the formation of molds, they are washable and therefore repeatedly usable, biodegradable and thus sustainable, foldable, pleasant to the touch and decorative, i.e. suitable for production in different colors, sizes and shapes. Among the textiles, knitted fabrics are distinguished by their stretchability and flexibility, the possibility of seamless production, high efficiency of production, possible self-folding and the possibility of complex functionalization. The purpose of this research was to formulate based on theoretical and experimental starting points-inspirations, design, produce on an industrial knitting machine and test visually interesting, aesthetic and multifunctional knitted fabrics with auxetic potential – the potential ability of lateral expansion under axial strain. In the area of packaging performance the purpose was to design and develop knitted structures with several functions for food storage, while in the area of multi-purpose use the objective was to anticipate the use of these knitted structures in other clothing and non-clothing areas. The main objective of the study was to analysis the influence of the structural parameters of links-links knitted fabrics on the folding potential, which leads to a greater auxetic and protective effect. Experimental work in design was based on the systematic development of 3D, textured and foldable structures with auxetic potential, from various materials and in different densities. The technological experimental work consisted of testing the multifunctional properties of selected, newly designed, knitted structures for: foldability, compression, antibacterial and biodegradable properties, and the ability to preserve the freshness of food. Finally, a visual analysis of the manufactured multifunctional knitted structures, which are suitable for the production of aesthetically interesting clothing and other textiles, as well as for the production of visually attractive and functionally useful packaging material for household storage of baked goods / breads was performed.

Keywords:biomimetics, auxetic potential, links-links knitting, antibacterial properties, compression, biodegradability, packaging, bread storage

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