Year 2012,
Volume: 9 Issue: 1, 51 - 56, 01.03.2012
Abstract
Keywords
References
- Anonymous, 2003. ACI Committee 213 R-0.3. Guide for Structural Lightweight Aggregate Concrete. American Concrete Institute, Farmington Hills, MI.
- Arikan, M. and K. Sobolev, 2002. The optimization of a gypsum-based composite material, Cement and Concrete DOI:10.1016/S0008-8846(02)00858-X 32: 1725–1728.
- Cook,D.J., 1983. in:. Swamy, R.N (Ed.),. Expanded Polystyrene Concrete, Concrete Technology and Design: (1). New Concrete Materials, Surrey University Press, London, pp. 41– 69.
- Duggal, S.K., 1998. Building Materials, A.A. Balkema Publishers, Rotterdam, pp. 368– 373.
- Ganesh Babu, K. and D. Saradhi Babu, 2003. Behavior of lightweight containing silica fume. Cement Concr. Res., 33:755– 762. DOI:10.1016/S0008-8846(02)01055-4 polystyrene concrete
- Guozhong Li, Jianquan Li, Ruifang Guan, 2003. Investigation of the water resistance of gypsum materials, ZKG International 56 (8,9) 87–93. ISSN: 0722-4397
- Karadutlu, Y., 2003.A research on the use probability of prefabric building materials produced from grounded lightweight MasterThesis(Unpublished), Institute StructuresandIrrigationDepartment, Erzurum. Ataturk University, Agricultural of Science,
- Kayyali, O.A. and M.N. Haque, , 1997; “A new generation of structural lightweight concrete”, University of New South Wales, Australia. Concrete Technology SP, 171, 569–588.
- Kumar, S., 2002. A Perspective Study on Fly Ash–Lime– Gypsum Bricks and Hollow Blocks for Low Cost Housing Development. Construction and Building Materials. 0618(02)00034-X
- Kumar, S., 2003. Fly ash–lime–phosphogypsum hollow blocks for walls and partitions, Building and Environment 38:291-295. DOI:10.1016/S0360- 1323(02)00068-9
- Laukaitis, A., R. Zurauskas and J. Keriene, 2005. The effect of foam polystyrene granules on cement composite Composites. Doi:10.1016/j.cemconcomp.2003.09.004 Cement 27: 41–47.
- Li, G., Y. Yu, Z. Zhao, J. Li. and C. Li, 2003. Properties study of cotton stalk fiber/gypsum composite. Cement Concrete Res., 33 43-46. DOI:10.1016/S0008- 8846(02)00915-8
- Ragsdale, L.A. and E.A. Raynham, 1972. Building Materials Technology, Edward Arnold, London, pp. 243– 248.
- Saradhi Babu, D., K. Ganesh Babu and T.H. Wee, 2005. Properties of lightweight expanded polystyrene aggregate concretes containing fly ash. Cement Concrete DOI:10.1016/j.cemconres.2004.11.015 35:1218–23.
- Sayil, B.M. and E. Gurdal, 1999. The physical properties of polystyrene aggregated gypsum blocks. Durability of building materials and components, vol. 8. Institute for Research in Construction, Ottawa, Canada. p. 496–504.
- Short, A. and W. Kinniburgh,1978. Lightweight Concrete, 3rd edn., Applied Science Publishers, London
- TS 1471, 1974. Turkish standard for gypsum partitions wall components, Ankara. www.tse.org.tr/
- TS 3682, 1982. Turkish standard for perlite- gypsum components www.tse.org.tr/ partitions, Ankara.
- TS 451, 1983. Turkish standard for gypsum solid partitions blocks, Ankara. www.tse.org.tr/
- TS 825, 1999. Turkish standard for thermal insulation in buildings, Ankara. www.tse.org.tr/
- TS EN 12859, 2009. Turkish standard for Gypsum blocks - Definitions, requirements and test methods, Ankara. www.tse.org.tr/
Yapı Malzemesi Olarak Üretilen Genleştirilmiş Polistiren- Pomza -Alçı Karışımlı Blokların Özelliklerinin Araştırılması
Abstract
Kırsal yörelerdeki yapıların çoğu taş, beton blok, kerpiç, tuğla ve ahşaptan yapılmıştır. Ancak bu malzemeler yeterli
basınç dayanımlarına ve ısı yalıtım özelliklerine sahip değildir. Bu çalışmanın amacı, atık genleştirilmiş polistiren
(WEPS) ve pomza agregaların üretilen alçı blokların dayanım ve ısı iletkenlikleri üzerine etkisini araştırmaktır. Bu
malzemelerin farklı hacimlerde karıştırılmasıyla birçok yeni duvar malzemeleri yapılabilir. Üretilen örneklerin basınç
dayanımı, yoğunluk, su emme ve ısı iletkenlikleri belirlenmiştir. WEPS ve pomza alçı blokların yapılarda kullanımı
durumunda yeterli basınç dayanımına sahip olduğu belirlenmiş olup, yapılan ısıl iletkenlik testleri sonucunda ısı
yalıtım özellikleri oldukça iyi sonuçlar vermiştir. Elde edilen kompozit malzemelerin bina uygulamalarında iç
kısımlarda bölme duvarı olarak kullanılması önerilebilir.
References
- Anonymous, 2003. ACI Committee 213 R-0.3. Guide for Structural Lightweight Aggregate Concrete. American Concrete Institute, Farmington Hills, MI.
- Arikan, M. and K. Sobolev, 2002. The optimization of a gypsum-based composite material, Cement and Concrete DOI:10.1016/S0008-8846(02)00858-X 32: 1725–1728.
- Cook,D.J., 1983. in:. Swamy, R.N (Ed.),. Expanded Polystyrene Concrete, Concrete Technology and Design: (1). New Concrete Materials, Surrey University Press, London, pp. 41– 69.
- Duggal, S.K., 1998. Building Materials, A.A. Balkema Publishers, Rotterdam, pp. 368– 373.
- Ganesh Babu, K. and D. Saradhi Babu, 2003. Behavior of lightweight containing silica fume. Cement Concr. Res., 33:755– 762. DOI:10.1016/S0008-8846(02)01055-4 polystyrene concrete
- Guozhong Li, Jianquan Li, Ruifang Guan, 2003. Investigation of the water resistance of gypsum materials, ZKG International 56 (8,9) 87–93. ISSN: 0722-4397
- Karadutlu, Y., 2003.A research on the use probability of prefabric building materials produced from grounded lightweight MasterThesis(Unpublished), Institute StructuresandIrrigationDepartment, Erzurum. Ataturk University, Agricultural of Science,
- Kayyali, O.A. and M.N. Haque, , 1997; “A new generation of structural lightweight concrete”, University of New South Wales, Australia. Concrete Technology SP, 171, 569–588.
- Kumar, S., 2002. A Perspective Study on Fly Ash–Lime– Gypsum Bricks and Hollow Blocks for Low Cost Housing Development. Construction and Building Materials. 0618(02)00034-X
- Kumar, S., 2003. Fly ash–lime–phosphogypsum hollow blocks for walls and partitions, Building and Environment 38:291-295. DOI:10.1016/S0360- 1323(02)00068-9
- Laukaitis, A., R. Zurauskas and J. Keriene, 2005. The effect of foam polystyrene granules on cement composite Composites. Doi:10.1016/j.cemconcomp.2003.09.004 Cement 27: 41–47.
- Li, G., Y. Yu, Z. Zhao, J. Li. and C. Li, 2003. Properties study of cotton stalk fiber/gypsum composite. Cement Concrete Res., 33 43-46. DOI:10.1016/S0008- 8846(02)00915-8
- Ragsdale, L.A. and E.A. Raynham, 1972. Building Materials Technology, Edward Arnold, London, pp. 243– 248.
- Saradhi Babu, D., K. Ganesh Babu and T.H. Wee, 2005. Properties of lightweight expanded polystyrene aggregate concretes containing fly ash. Cement Concrete DOI:10.1016/j.cemconres.2004.11.015 35:1218–23.
- Sayil, B.M. and E. Gurdal, 1999. The physical properties of polystyrene aggregated gypsum blocks. Durability of building materials and components, vol. 8. Institute for Research in Construction, Ottawa, Canada. p. 496–504.
- Short, A. and W. Kinniburgh,1978. Lightweight Concrete, 3rd edn., Applied Science Publishers, London
- TS 1471, 1974. Turkish standard for gypsum partitions wall components, Ankara. www.tse.org.tr/
- TS 3682, 1982. Turkish standard for perlite- gypsum components www.tse.org.tr/ partitions, Ankara.
- TS 451, 1983. Turkish standard for gypsum solid partitions blocks, Ankara. www.tse.org.tr/
- TS 825, 1999. Turkish standard for thermal insulation in buildings, Ankara. www.tse.org.tr/
- TS EN 12859, 2009. Turkish standard for Gypsum blocks - Definitions, requirements and test methods, Ankara. www.tse.org.tr/
There are 21 citations in total.
Details
| Primary Language | Turkish |
|---|---|
| Journal Section | Articles |
| Authors | |
| Publication Date | March 1, 2012 |
| Submission Date | November 2, 2014 |
| Published in Issue | Year 2012 Volume: 9 Issue: 1 |