Abstract
Tarihi ahşap yapılar, mimari mirasımızın önemli bir parçasıdır ve bu yapıların korunması büyük bir özen gerektirir. Ahşap yapıların korunmasında enerji verimliliği, sürdürülebilirlik ve çevre dostu malzemelerin kullanımı kritik bir rol oynar. Bu makalede, tarihi ahşap cephelerde kullanılabilecek yalıtım malzemeleri detaylı bir şekilde incelenmiştir. Keten elyafı, selüloz yalıtım, ahşap lif levha, kenevir yalıtım ve şapka yalıtımı gibi doğal yalıtım malzemelerinin avantajları ve dezavantajları ele alınmış, bu malzemelerin tarihi yapılarda nasıl uygulanabileceği tartışılmıştır. Ayrıca, modern yalıtım malzemelerinin tarihi yapılardaki kullanım potansiyeli değerlendirilmiştir. Tarihi yapıları korurken enerji verimliliğini artırmak için bu malzemelerin doğru seçimi ve uygulanması gerektiği vurgulanmıştır. Gelecekteki yalıtım teknolojileri ve yeniliklerin, tarihi ahşap yapıların korunmasında daha sürdürülebilir ve etkili çözümler sunabileceği sonucuna varılmıştır.
Keywords
Tarihi ahşap yapılar yalıtım malzemeleri enerji verimliliği sürdürülebilirlik çevre dostu malzemeler.
References
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- Brischke, C., Rapp, A. O., & Bayerbach, R. (2011). Decay hazard mapping for Europe. International Biodeterioration & Biodegradation, 65(2), 395-401.
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Abstract
Historic wooden structures are a significant part of our architectural heritage, requiring meticulous preservation efforts. The conservation of wooden buildings necessitates a careful balance between energy efficiency, sustainability, and the use of environmentally friendly materials. This article provides an in-depth examination of insulation materials suitable for use on historic wooden façades. The advantages and disadvantages of natural insulation materials such as flax fiber, cellulose insulation, wood fiberboard, hemp insulation, and cork insulation are discussed, along with their application methods in historic structures. The potential use of modern insulation materials in historic buildings is also evaluated. The importance of selecting and applying these materials correctly to enhance energy efficiency while preserving the aesthetic and historical integrity of these structures is emphasized. The paper concludes that future advancements in insulation technologies and innovations could offer more sustainable and effective solutions for the preservation of historic wooden buildings.
Keywords
Historic wooden buildings insulation materials energy efficiency sustainability eco-friendly materials.
References
- Baker, P. (2011). U-value measurements in traditional buildings. Historic Scotland Technical Paper.
- Brischke, C., Rapp, A. O., & Bayerbach, R. (2011). Decay hazard mapping for Europe. International Biodeterioration & Biodegradation, 65(2), 395-401.
- Dinwoodie, J. H. (2000). Timber: Its nature and behaviour. E & FN Spon.
- Feilden, B. M. (2003). Conservation of Historic Buildings. Routledge.
- Green, M. (2020). Wood: A sustainable construction material. Journal of Sustainable Forestry, 39(4), 297-310.
- Glover, J., & Bell, J. (2014). Eco-Refurbishment: A Practical Guide to Creating an Energy Efficient Home. Routledge.
- Jung, C. G. (2015). Moisture control in timber structures. Wood Science and Technology, 49(3), 455-472.
- Jones, D., & Brischke, C. (2017). Performance of Bio-based Building Materials. Woodhead Publishing.
- Korjenic, A., Petránek, V., Zach, J., & Hroudová, J. (2011). Development and performance evaluation of natural thermal-insulation materials composed of renewable resources. Energy and Buildings, 43(9), 2518-2523.
- King, A. B. (2012). Thermal and acoustic properties of timber. Construction and Building Materials, 35(6), 512-523.
- Rice, R. W. (2018). Wood density and its effect on structural performance. Journal of Materials in Civil Engineering, 30(7), 04018123.
- Straube, J., & Smegal, J. (2009). Building America Special Research Project: High-R Walls Case Study Analysis. Building Science Corporation.
- Straube, J., & Burnett, E. (2005). Building Science for Building Enclosures. Building Science Press.
- Lawrence, M., Heath, A., & Walker, P. (2009). Development of hemp-lime composites for energy-efficient buildings. Energy and Buildings, 41(8), 763-773.
Details
| Primary Language | Turkish |
|---|---|
| Subjects | Architectural Heritage and Conservation |
| Journal Section | Research Articles |
| Authors | |
| Publication Date | August 26, 2025 |
| Submission Date | August 14, 2024 |
| Acceptance Date | August 20, 2024 |
| Published in Issue | Year 2025 Volume: 8 Issue: 1 |
