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Potencial uporabe koruznega stržena kot toplotno izolacijskega materiala : diplomska naloga
ID Pandev, Gjorgjija (Author), ID Bosiljkov, Vlatko (Mentor) More about this mentor... This link opens in a new window, ID Antolinc, David (Comentor)

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Abstract
V diplomski nalogi sem imel cilj raziskovati nov, inovativen, naraven, okolju prijazen in poceni izolacijski material, ki bi se lahko uporabljal za izolacijo najrazličnejših tipov stavb. Gre za zasnovo in preizkušanje izolacijskih plošč, ki so narejene iz dveh osnovnih gradnikov, in sicer suhega stržena koruznega stebla in mavca. Ideja je, da se koruzna stebla, ki pogosto končajo kot odpadni material v prehrambni industriji, izkoristijo kot bioizolativni material. Mavec je lahko naravnega izvora ali pa kot stranski produkt pri čiščenju dimnih plinov. Pri preizkušenih kompozitnih toploizolacijskih ploščah ima mavec vlogo veziva, s katerim delce stržena koruznega stebla povežemo skupaj in jih oblikujemo v izolacijske plošče. Za kontrolo izolativnih lastnosti predstavljenih plošč smo naredili 16 različnih preizkušancev. Preizkušanci so se med seboj razlikovali glede na volumske deleže frakcij stržena koruznih stebel v mešanici in glede različnih velikosti frakcij samih delcev. Na takih preizkušancih smo naredili meritve za določitev toplotne prevodnosti. Za recepturo z najboljšimi rezultati glede toplotne prevodnosti smo naredili tudi preizkušance za določanje mehanskih lastnosti materiala. Dodatno smo izvedli še preiskave za določanje vodovpojnosti koruznih strženov. Ugotovili smo tudi kakšne volumske spremembe, nastanejo pri koruznih strženih zaradi vpijanja vode. Rezultati za toplotno prevodnost se gibljejo med vrednostma ?=0.38 W/mK za mešanico z 10 % delcev koruznih strženov do ?=0.1 W/mK za mešanico s 70 % delcev koruznih strženov. Povprečna tlačna trdnost znaša 1.27 N/mm^2, povprečna upogibna trdnost pa znaša 1.54 N/mm^2. Glede vodovpojnosti smo zaključili, da lahko koruza vpije velike količine vode. Dobljeni rezultati pokažejo, da imajo take plošče veliko nižjo toplotno prevodnost kot sam mavec, vendarle glede na rezultate opravljenih preiskav še vedno nimajo zadostne izolativnosti, da bi jih lahko uvrstili med toplotno izolativne materiale.

Language:Slovenian
Keywords:naravna toplotna izolacija, stržen koruznih stebel, mavec, toplotna prevodnost, vodovpojnost, mehanske lastnosti
Work type:Bachelor thesis/paper
Typology:2.11 - Undergraduate Thesis
Organization:FGG - Faculty of Civil and Geodetic Engineering
Publisher:G. Pandev]
Year:2019
PID:20.500.12556/RUL-110963 This link opens in a new window
UDC:699.865:633.15(043.2)
COBISS.SI-ID:8895073 This link opens in a new window
Publication date in RUL:21.09.2019
Views:1522
Downloads:301
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Secondary language

Language:English
Title:Potential of corn stalk pith as a thermal insulation material : graduation thesis
Abstract:
The goal of this thesis was to investigate new, innovative, natural, eco friendly and inexpensive insulation material which can be used for insulating different types of buildings. In this thesis preparation and testing of insulation boards which are made of two fundamental components are presented. The main compononts are: dry corn stalk piths and gypsum. The idea was, that corn stalks which often end up as a waste product of food industry, can be used as bio-insulative material. Gypsum is also of a natural origin or it is obtained as a byproduct in flue gas desulfurization, and it acts in our case as a binder. Gypsum as a binder holds the corn stalk particles together as they are shaped into insulating boards. For verification of insulative properties, we made 16 different samples. The variations were made with different volume quantities of corn fractions in mixture and different sizes of the defined fractions. For the prepared specimens conducted experiments were performed to evaluate thermal conductivity. For the most promising mixtures regarding their thermal conductivity, additional samples were made, which have been further tested for the obtainment of mechanical properties of material. Additional tests were conducted to check water absorption of corn stalk piths. We have also checked how the volume of stalk piths change due to absorbtion of water. Results for thermal conductivity range between the values of ?=0.38 W/mK for mixture that contained 10 % corn stalk particles, down to ?=0.1 W/mK for mixture that contained 70 % of corn stalk particles. Average compression strength is 1.27 N/mm^2, average flexural strength is 1.54 N/mm^2. Testing for water absorption showed us that corn absorbs enormous quantities of water. Results show that boards like those have significantly smaller thermal conductivity than gypsum, but still do not have needed thermal properties to be accounted as an insulation material.

Keywords:natural thermal insulation, corn stalk pith, gypsum, thermal conductivity, water absorption, mechanical properties

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