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Strukturne izolacijske plošče iz konopljinega pezdirja
ID Dobravec, Vid (Author), ID Medved, Sergej (Mentor) More about this mentor... This link opens in a new window

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Abstract
Zaradi vse večje težnje po uporabi naravnih obnovljivih materialov se povečuje tudi uporaba ter proizvodnja industrijske konoplje oziroma njenih vlaken in pezdirja. Oba se že uporabljata za izdelavo izolacijskih in ivernih plošč a v večini primerov zgolj kot dodatek. Ker lahko iz konopljinega pezdirja izdelamo kompozit s primerno trdnostjo kot tudi kompozit z dobrimi izolacijskimi lastnostmi smo želeli preveriti možnost izdelave strukturno izolacijskega kompozita oziroma SIP plošče (Sturctural Insolating Panel ang.), ki bi bila zanimiva za uporabo v panelnih sistemih. Tovrstni kompoziti so sestavljeni iz izolativne sredice (npr. EPS, XPS ali PUR), ki je na obeh straneh obdana z nosilnima ploščama (OSB, vezane ali iverne).V prvem delu naloge smo iz pezdirja in MUF lepilne smole izdelali štiri enoslojne plošče (8 mm) različnih gostot ter štiri izolacijske plošče (50 mm) katere smo izdelali iz različnih deležev pezdirja in PUR pene. Nosilnim ploščam smo določili mehanske lastnosti in izolacijskim ploščam toplotno prevodnost. Iz pridobljenih podatkov smo nato izbrali nosilno in izolacijsko ploščo z optimalnimi mehansko izolacijskimi lastnostmi ter izdelali SIP kompozit kateremu smo določili toplotno prevodnost in tlačno trdnost. Ugotovili smo, da je za izdelavo nosilnih plošč najbolj primerna gostota 700 kg/m3, medtem ko smo pri sredici ugotovili, da z naraščanjem deleža konoplje toplotna prevodnost narašča, zato smo za sredico uporabili ploščo z gostoto med 75 kg/m3 in 100 kg/m3 (s 25 % dodatkom konopljinega pezdirja). Tlačna trdnost SIP kompozita je bila 4,93 MPa ter toplotna prevodnost 0,0514 W/mK.

Language:Slovenian
Keywords:konopljin pezdir, SIP plošče, mehanske lastnosti, toplotna prevodnost
Work type:Master's thesis/paper
Typology:2.09 - Master's Thesis
Organization:BF - Biotechnical Faculty
Place of publishing:Ljubljana
Publisher:[V. Dobravec]
Year:2021
PID:20.500.12556/RUL-132278 This link opens in a new window
UDC:630*832.284
COBISS.SI-ID:81114115 This link opens in a new window
Publication date in RUL:20.10.2021
Views:2623
Downloads:77
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Secondary language

Language:English
Title:Structural insulation panels from hemp shives
Abstract:
Due to increasing usage of natural renewable materials, the cultivation and production of hemp (its fibres and shives) is also expanding. Hemp fibres and shives have already found applications in insulation and chipboard production, although in these they are mainly used only as additives in small quantities. Since hemp shives can be used to make a composite with suitable strength as well as a composite with good insulating properties, we wanted to test the possibilities of making a structural insulating composite or SIP board which would be of use in panel systems applications. Such composites consist of insulating cores (EPS, XPS or PUR) surrounded on both sides by structural panels (OSB, plywood or chipboard). In the first part of our study we have produced four single-layer (8 mm) structural panels of different densities using hemp shives and MUF resin and four insulating panels (50 mm) using different portions of hemp shives and PUR foam. For structural panels we have determined the mechanical properties, while for insulation panels their thermal conductivity. From the obtained data, we then selected a structural and insulating panel with the optimal mechanical/insulating properties, and based on this data constructed the SIP composite for which we determined the thermal conductivity and compressive strength. We found that a density of approx. 700 kg/m3 is most suitable for structural panels. We also found that the thermal conductivity of the insulating cores increases with the addition of hemp shives, and therefore we used an insulating panel with a density between 75 and 100 kg / m3 (25% of hemp shives). The compressive strength of the SIP composite was 4.93 Mpa, and its thermal conductivity was 0.0514 W/mK.

Keywords:hemp shive, structural insulating panel, mechanical properties, thermal conductivity

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