diplomsko delo
Abstract
S povečevanjem deleža lesene gradnje narašča tudi uporaba izolacijskih materialov na osnovi lesa in drugih lignoceluloznih kompozitov. Pestrost naravnih izolacijskih materialov je zelo velika (celulozna izolacija, lesna vlaka, konoplja, lan, slama ...). Vsak od naštetih izolacijskih materialov ima različno požarno odpornost. Za izboljšanje slednje proizvajalci uporabljajo različne dodatke in njihove deleže. Težava vseh teh dodatkov je neenakomerna porazdelitev v končnem izdelku, kar lahko pripelje do velikih razlik med posameznimi šaržami. Namen naše naloge je bil določiti požarno odpornost in temperaturo vžiga gradbenim materialom na osnovi lesa in drugih lignoceluloznih kompozitov ter preveriti, kako na požarno odpornost lignoceluloznih kompozitov vplivajo različni protipožarni dodatki in njihove koncentracije. Rezultati raziskav so pokazali, da skoraj vsi izolacijski materiali v razsutem stanju ustrezajo standardu SIST EN 11925: 2011, medtem ko smo nekoliko slabše rezultate dobili za lesno-vlaknene plošče. Izkazalo se je tudi, da je gorljivost izolacijskih materialov primerljiva gorljivosti smrekovega lesa.
Keywords
celulozna izolacija;protipožarni dodatek;testiranje;lignocelulozni izolacijski materiali;
Data
Language: |
Slovenian |
Year of publishing: |
2020 |
Typology: |
2.11 - Undergraduate Thesis |
Organization: |
UL BF - Biotechnical Faculty |
Publisher: |
[J. Novak] |
UDC: |
630*843 |
COBISS: |
3176073
|
Views: |
590 |
Downloads: |
148 |
Average score: |
0 (0 votes) |
Metadata: |
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Other data
Secondary language: |
English |
Secondary title: |
Fire resistance of lignocellulosic insulation materials |
Secondary abstract: |
As the share of wooden construction increases, the use of insulating materials based on wood and other lignocellulosic composites is increasing. The variety of natural insulating materials is very large (cellulose insulation, wood fibre, hemp, flax, straw,...). Each of these insulating materials has different fire resistance. To improve this, manufacturers use different additives in varied proportions. The problem with all these additives is the uneven distribution in the finished product, which can lead to big differences between batches, although all these products should meet the requirements for obtaining the CE mark. Our purpose was to determine the fire resistance and ignition temperature of building materials based on wood and other lignocellulosic composites. We examined how the fire resistance of lignocellulosic composites is affected by different fire extinguishing agents and their concentrations. The research results show that practically all bulk insulation materials meet the SIST EN 11925, 2011 standard, while slightly worse results were obtained for wood-fibre boards. It also turns out that insulating materials have comparable combustibility to spruce wood |
Secondary keywords: |
cellulose insulation;fire protection additive;testing;lignocellulosic insulation materials; |
Type (COBISS): |
Bachelor thesis/paper |
Study programme: |
0 |
Thesis comment: |
Univ. v Ljubljani, Biotehniška fak., Oddelek za lesarstvo |
Pages: |
VI, 32 f. |
ID: |
11426393 |