Taiwan is situated in the seismic belt and belongs to the subtropical climate. The abilities of heat insulation and seismic resistant of buildings in Taiwan were become more and more important. Fundamentally, it should develop a new materials suitable for use in hot and humid environment. This research aims to study the engineering properties of the wood-wool cement and compare with those of traditional building materials. The test results show that the unit weight of wood-wool cement boards is about 615 kg/m3. The wood-wool cement boards collocate with the light-weight rigid frame and paste those construct the wood-wool cement light wall, its unit weight will increase to about 1580 kg/m3; Compare with the unit weight 2300 kg/m3 concrete, the unit weight of wood-wool cement boards and light wall will decrease 73% and 31%, respectively. The wood-wool cement light wall is not only beneficial to convenience of construction but also increase the load-bearing capacity of buildings, future more, it is contribute to reduce the seismic force. The thermal conductivity of wood-wool cement boards and the wood-wool cement light wall are about 0.09 kcal/m-hr-°C and 0.58 kcal/m-hr-°C, which compare with the test result, 1.25 kcal/m-hr-°C of concrete with compressive strength 210 kg/cm2 are obviously decrease. As bending strength and wind pressure test that we know, the wood-wool cement light wall is worse than reinforced concrete. But the mechanics of the wood-wool cement light wall corresponds to the wallboard strength requirement of Taiwan Building Code. From the economic analysis, the wood-wool cement boards possess higher economic benefits due to better energy efficiency. As we know from the above, it can be expected soon to use the wood-wool cement light wall in buildings.
| Published in | Science Discovery (Volume 4, Issue 5) |
| DOI | 10.11648/j.sd.20160405.23 |
| Page(s) | 330-335 |
| Creative Commons |
This is an Open Access article, distributed under the terms of the Creative Commons Attribution 4.0 International License (http://creativecommons.org/licenses/by/4.0/), which permits unrestricted use, distribution and reproduction in any medium or format, provided the original work is properly cited. |
| Copyright |
Copyright © The Author(s), 2024. Published by Science Publishing Group |
Wood-Wool Cement Boards, Thermal Conductivity, Wind Pressure Test
| [1] | 台湾内政部建筑研究所「建筑物耗能总量调查之研究」2001年版P.11-16 |
| [2] | 台湾内政部建筑研究所「绿建筑解说与评估手册」2001年版P.3-31 |
| [3] | Lam, J. C. and Hui, S. C. M., “A review of building energy standards and implications for Hong Kong”, Building Research and Information, 24 (3): 131-140, 1996. |
| [4] | The BOCA National Energy Conservation Code/ 1993, Seventh Edition, Building Officials & Code Administrators International, Inc., 1993. |
| [5] | 张世典、陈锦赐、蔡必超、余凌昌、林伟志,「建筑节约能源综合指标之探讨」,中华民国建筑学会第十三届建筑研究成果发表会论文集,第663-668页(2001)。 |
| [6] | 颜聪,「房屋建材之隔热性工学」,兴大土木第十期,第6-11页(1983)。 |
| [7] | 台湾内政部营建署「营建知讯」月刊2001年11月号「建筑物用电量状况调查」,第23-27页 |
| [8] | 台湾电力公司工程月刊648期「台湾电力需求与供给」,第73页。 |
| [9] | 台湾电力公司工程月刊653期「电力尖峰负载及平均负载成长比较」,第87页。 |
| [10] | Lee, E., Park, S., Kim, Y., Drying shrinkage cracking of concrete using dune sand and crushed sand, Construction and Building Materials, Vol. 126, pp. 517-526. (2016) |
| [11] | Parsekian, G.A., Barbosa, K. C., Camacho, J.S., Felipe, A.S, Experimental shrinkage testing on concrete masonry units and walls with different curing conditions, Masonry International 28 (3), pp. 71-80.(2016) |
| [12] | Zhang, T., Liang, X.a, Li, C., Lorin, M., Li, Y., Vandeperre, L.J., Cheeseman, C.R., Control of drying shrinkage in magnesium silicate hydrate (m-s-h) gel mortars Cement and Concrete Research, Vol. 88, pp.36-42. (2016) |
| [13] | Li, S., Jones, B., Thorpe, R., Davis, M., An investigation into the thermal conductivity of hydrating sprayed concrete, Construction and Building Materials, 124, pp. 363-372. (2016) |
| [14] | Real, S., Bogas, J. A., Da Glória Gomes, M., Ferrer, B., Thermal conductivity of structural lightweight aggregate concrete, Magazine of Concrete Research, 68 (15), pp. 798-808. (2016) |
APA Style
Huang Chung-Ho. (2016). The Engineering Properties of Wood-Wool Cement Walls. Science Discovery, 4(5), 330-335. https://doi.org/10.11648/j.sd.20160405.23
ACS Style
Huang Chung-Ho. The Engineering Properties of Wood-Wool Cement Walls. Sci. Discov. 2016, 4(5), 330-335. doi: 10.11648/j.sd.20160405.23
AMA Style
Huang Chung-Ho. The Engineering Properties of Wood-Wool Cement Walls. Sci Discov. 2016;4(5):330-335. doi: 10.11648/j.sd.20160405.23
Share This Article
Twitter
Linked In
Facebook
Copy
Download@article{10.11648/j.sd.20160405.23,
author = {Huang Chung-Ho},
title = {The Engineering Properties of Wood-Wool Cement Walls},
journal = {Science Discovery},
volume = {4},
number = {5},
pages = {330-335},
doi = {10.11648/j.sd.20160405.23},
url = {https://doi.org/10.11648/j.sd.20160405.23},
eprint = {https://article.sciencepublishinggroup.com/pdf/10.11648.j.sd.20160405.23},
abstract = {Taiwan is situated in the seismic belt and belongs to the subtropical climate. The abilities of heat insulation and seismic resistant of buildings in Taiwan were become more and more important. Fundamentally, it should develop a new materials suitable for use in hot and humid environment. This research aims to study the engineering properties of the wood-wool cement and compare with those of traditional building materials. The test results show that the unit weight of wood-wool cement boards is about 615 kg/m3. The wood-wool cement boards collocate with the light-weight rigid frame and paste those construct the wood-wool cement light wall, its unit weight will increase to about 1580 kg/m3; Compare with the unit weight 2300 kg/m3 concrete, the unit weight of wood-wool cement boards and light wall will decrease 73% and 31%, respectively. The wood-wool cement light wall is not only beneficial to convenience of construction but also increase the load-bearing capacity of buildings, future more, it is contribute to reduce the seismic force. The thermal conductivity of wood-wool cement boards and the wood-wool cement light wall are about 0.09 kcal/m-hr-°C and 0.58 kcal/m-hr-°C, which compare with the test result, 1.25 kcal/m-hr-°C of concrete with compressive strength 210 kg/cm2 are obviously decrease. As bending strength and wind pressure test that we know, the wood-wool cement light wall is worse than reinforced concrete. But the mechanics of the wood-wool cement light wall corresponds to the wallboard strength requirement of Taiwan Building Code. From the economic analysis, the wood-wool cement boards possess higher economic benefits due to better energy efficiency. As we know from the above, it can be expected soon to use the wood-wool cement light wall in buildings.},
year = {2016}
}
TY - JOUR T1 - The Engineering Properties of Wood-Wool Cement Walls AU - Huang Chung-Ho Y1 - 2016/11/05 PY - 2016 N1 - https://doi.org/10.11648/j.sd.20160405.23 DO - 10.11648/j.sd.20160405.23 T2 - Science Discovery JF - Science Discovery JO - Science Discovery SP - 330 EP - 335 PB - Science Publishing Group SN - 2331-0650 UR - https://doi.org/10.11648/j.sd.20160405.23 AB - Taiwan is situated in the seismic belt and belongs to the subtropical climate. The abilities of heat insulation and seismic resistant of buildings in Taiwan were become more and more important. Fundamentally, it should develop a new materials suitable for use in hot and humid environment. This research aims to study the engineering properties of the wood-wool cement and compare with those of traditional building materials. The test results show that the unit weight of wood-wool cement boards is about 615 kg/m3. The wood-wool cement boards collocate with the light-weight rigid frame and paste those construct the wood-wool cement light wall, its unit weight will increase to about 1580 kg/m3; Compare with the unit weight 2300 kg/m3 concrete, the unit weight of wood-wool cement boards and light wall will decrease 73% and 31%, respectively. The wood-wool cement light wall is not only beneficial to convenience of construction but also increase the load-bearing capacity of buildings, future more, it is contribute to reduce the seismic force. The thermal conductivity of wood-wool cement boards and the wood-wool cement light wall are about 0.09 kcal/m-hr-°C and 0.58 kcal/m-hr-°C, which compare with the test result, 1.25 kcal/m-hr-°C of concrete with compressive strength 210 kg/cm2 are obviously decrease. As bending strength and wind pressure test that we know, the wood-wool cement light wall is worse than reinforced concrete. But the mechanics of the wood-wool cement light wall corresponds to the wallboard strength requirement of Taiwan Building Code. From the economic analysis, the wood-wool cement boards possess higher economic benefits due to better energy efficiency. As we know from the above, it can be expected soon to use the wood-wool cement light wall in buildings. VL - 4 IS - 5 ER -
Information
Email: