Sakulya, Thipkritta (2025) Effect of Bamboo as an Alternative Core Layer Material in OSB Production Using PMDI and MUF. MA/MSc, Faipari Mérnöki és Kreatívipari Kar (2013-tól 2021.06.30-ig: Simonyi Károly Műszaki, Faanyagtudományi és Művészeti Kar).
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Absztrakt (kivonat)
This study focused in depth on the use of bamboo, a fast-growing non-wood material with properties such as wood, to make biocomposite materials that were interesting and important to the construction and wood industries, such as OSB, which was a component of wood strands mixed with industrial grade adhesive. It was used as a basic material in construction and building, which was useful for wood waste and did not need to be burnt as fuel. The research focused on mixing it with local raw materials that were easy to find and commonly used to make OSB, namely poplar wood, which was strong and lightweight, to develop strength properties, reduce waste generation, and use more sustainable raw materials with the potential to improve sustainable construction techniques by a combination of empirical investigation and theoretical analysis. The aim was to discover the advantages and problems associated with the use of bamboo mixing in wood materials in a variety of conditions. The intricate interplay between the physical and mechanical characteristics of the mixing of bamboo OSB was obtained from various ratios and different adhesives. We compare our findings with recognized standards in structural material science. In terms of different types of adhesives, we also tried to improve the mechanical bonding of the modified OSB by using SEM microscopy to observe changes in surface bonding due to the pulling of the material. Furthermore, the purpose was to construct prediction frameworks that gave significant insights into the behavior of various OSB sets by using FTIR to compare the chemical composition. Since bamboo had a different chemical composition from wood, we wanted to prove and find a way to develop it in the future. Using this novel technique, we wanted not only to predict the mechanical and physical properties of various bamboo OSB samples but also to understand the underlying mechanisms and others that influenced their performance. In summary, this research was a scholarly endeavor to reconcile empirical data with theoretical frameworks in the use of OSB and to improve the properties and comprehension of the potential of OSB and sustainable material construction techniques through the use of novel materials.
Intézmény
Soproni Egyetem
Kar
Tanszékcsoport/intézet
FMK - Alkalmazott Tudományi Intézet
Szak
NEM RÉSZLETEZETT
Témavezető(k)
Helyi kari azonosító
FMK-10-2025-D
| Mű típusa: | Diplomadolgozat (MA/MSc) |
|---|---|
| Felhasználói azonosító szám (ID): | Thipkritta Sakulya |
| Dátum: | 10 Máj 2025 10:51 |
| Utolsó módosítás: | 10 Máj 2025 10:51 |
| URI: | http://diploma.uni-sopron.hu/id/eprint/15101 |
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