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Online since: October 2011
Authors: Jian Tang
Cantilever Structures’ Environment Symbiosis Technologies in Mountainous Housings
Jian Tang
Key Lab of Disaster Forecast and Control in Engineering, Ministry of Education of the People’s Republic of China, Jinan University, Guangzhou, P.R.China 510632
tangjian1117@yahoo.com.cn
Keywords: Housing, Cantilever Beam, Symbiosis Principle between Human and Environment, Mountainous Architecture, Regional Materials, Native Characteristics
Abstract.
The curve pattern beams under eaves are characteristic ornamental moulds, a combination of regional materials and constructions, a design corresponding to mountain regions which is different from Han nationality housings.
Acknowledgements This work was financially supported by the JSPS (Japan Society for the Promotion of Science) Grants-in-Aid for Scientific Research (No. 08044162 and 10045049).
References [1] Jian Tang: Journal of Architecture and Planning (Transaction of AIJ) Vol.545(2001), p.281-286 [2] Jian Tang: Journal of Architecture and Planning (Transaction of AIJ) Vol.554(2002), p.317-322 [3] Chikako Tabata, "Development of Components, Materials and Building Systems based on Wooden Houses : Foundations", Annual Meeting Architectural Institute of Japan, Japan, pp.1117-1118, 2009 [4] Kazuhiro Fukai, "Trial Design-build of Small-scale Wooden House.2", Annual Meeting Architectural Institute of Japan, Japan, pp.1131-1132, 2010 [5] Jian Tang: Journal of Architecture and Planning (Transaction of AIJ) Vol.568(2003), p.161-165 [6] Yoshikai Masato: Hokkaido University Collection of Scholarly and Academic Papers Vol.124 (2008), p. 25-55 [7] Hidehiko Tsubogou , "The possibility of the craft resource use of Miao and Dong minority in Guizhou province, China", Annual Meeting Design Institute of Japan, Japan, pp.56-57, 2006 [8] Hiroshi Isoda: Journal
Institute of Japan, Japan, pp.101-102, 2009 [16] Naoki Hirano:Journal of Tohoku-Polutechnic-Colledge (2010)p.43-51
The curve pattern beams under eaves are characteristic ornamental moulds, a combination of regional materials and constructions, a design corresponding to mountain regions which is different from Han nationality housings.
Acknowledgements This work was financially supported by the JSPS (Japan Society for the Promotion of Science) Grants-in-Aid for Scientific Research (No. 08044162 and 10045049).
References [1] Jian Tang: Journal of Architecture and Planning (Transaction of AIJ) Vol.545(2001), p.281-286 [2] Jian Tang: Journal of Architecture and Planning (Transaction of AIJ) Vol.554(2002), p.317-322 [3] Chikako Tabata, "Development of Components, Materials and Building Systems based on Wooden Houses : Foundations", Annual Meeting Architectural Institute of Japan, Japan, pp.1117-1118, 2009 [4] Kazuhiro Fukai, "Trial Design-build of Small-scale Wooden House.2", Annual Meeting Architectural Institute of Japan, Japan, pp.1131-1132, 2010 [5] Jian Tang: Journal of Architecture and Planning (Transaction of AIJ) Vol.568(2003), p.161-165 [6] Yoshikai Masato: Hokkaido University Collection of Scholarly and Academic Papers Vol.124 (2008), p. 25-55 [7] Hidehiko Tsubogou , "The possibility of the craft resource use of Miao and Dong minority in Guizhou province, China", Annual Meeting Design Institute of Japan, Japan, pp.56-57, 2006 [8] Hiroshi Isoda: Journal
Institute of Japan, Japan, pp.101-102, 2009 [16] Naoki Hirano:Journal of Tohoku-Polutechnic-Colledge (2010)p.43-51
Online since: October 2025
Authors: Michael Ebie Onyia, Thompson Edozie Okeke, Fidelis Onyebuchi Okafor
R., Mechanical properties of coconut shell concrete, Journal of Building Material Science, 2(1): 24-30, 2020
O., et al., Compatibility of coconut shells in cement-based materials, Journal of Building Materials, 5(2): 220-230, 2019
African Journal of Environmental Science and Technology, 17(2), 120–135, 2023. https://doi.org/10.5897/AJEST2023.XXXXX
Journal of Sustainable Construction Materials and Technologies, 9(1), 45–55, 2021
European Journal of Engineering Research and Science (EJERS), 5(5), 554-558, 2020. https://dx.doi.org/10.24018/ejers.2020.5.5.1903
O., et al., Compatibility of coconut shells in cement-based materials, Journal of Building Materials, 5(2): 220-230, 2019
African Journal of Environmental Science and Technology, 17(2), 120–135, 2023. https://doi.org/10.5897/AJEST2023.XXXXX
Journal of Sustainable Construction Materials and Technologies, 9(1), 45–55, 2021
European Journal of Engineering Research and Science (EJERS), 5(5), 554-558, 2020. https://dx.doi.org/10.24018/ejers.2020.5.5.1903
Online since: December 2013
Authors: Abdul Azeez Aliyu, Musa Hamidon, Jafri M. Rohani
Tsai, "Micro-hole machining of carbide by electric discharge machining," Journal of Materials Processing Technology 87 (1999) 139–145
Lauwers, "EDM technology and strategy development for the manufacturing of complex parts in SiSiC," Journal of Materials Processing Technology 210 (2010) 631–641
Puertas, "Methodology for developing technological tables used in EDM processes of conductive ceramics," Journal of Materials Processing Technology,189 (2007) 301–309
Villa, "Spacing roughness parameters study on the EDM of silicon carbide," Journal of Materials Processing Technology, 164–165 (2005) 1590–1596
Singh, "MRR Improvement in Sinking Electrical Discharge Machining: " Journal of Minerals & Materials Characterization & Engineering, 9 (2010) 709-739
Lauwers, "EDM technology and strategy development for the manufacturing of complex parts in SiSiC," Journal of Materials Processing Technology 210 (2010) 631–641
Puertas, "Methodology for developing technological tables used in EDM processes of conductive ceramics," Journal of Materials Processing Technology,189 (2007) 301–309
Villa, "Spacing roughness parameters study on the EDM of silicon carbide," Journal of Materials Processing Technology, 164–165 (2005) 1590–1596
Singh, "MRR Improvement in Sinking Electrical Discharge Machining: " Journal of Minerals & Materials Characterization & Engineering, 9 (2010) 709-739
Online since: December 2012
Authors: Suwat Jiratheranat, Bhadpiroon Sresomroeng, Ramil Kesvarakul
Journal of Materials Processing Technology 98 (2000)
Materials Science and Engineering A279 (2000) 95–110
Journal of Materials Processing Technology (2009)
Journal of materials processing technology 196 (2008) 1–9
Journal of Materials Processing Technology (2009)
Materials Science and Engineering A279 (2000) 95–110
Journal of Materials Processing Technology (2009)
Journal of materials processing technology 196 (2008) 1–9
Journal of Materials Processing Technology (2009)
High Velocity Impact Modelling of Sandwich Panels with Aluminium Foam Core and Aluminium Sheet Skins
Online since: May 2014
Authors: Qing Hua Qin, Rikard Heslehurst, Cheng Jun Liu, Yi Xia Zhang
The aluminum foam core is governed by the material model of crushable foam materials, while both aluminium alloy face sheets are modeled with the simplified Johnson-Cook material model.
Betts, Benefits of metal foams and developments in modelling techniques to assess their materials behaviour: A review, Materials Science and Technology 28(2012) 129-143
Seeliger, Aluminium foam sandwich panels: metallurgy, manufacture and applications, Advanced Engineering Materials 10(2008) 792-802
Rajendran, Numerical modeling of low velocity impact response on metal foam cored sandwich panels: effect of various facesheet materials.18th ICCM International Conferences on Composite Materials, South Korea, 2011
Fiedler, Analysis of anisotropy and strain rate sensitivity of open-cell metal foam, Materials Science and Engineering: A, 541(2012) 105-109
Betts, Benefits of metal foams and developments in modelling techniques to assess their materials behaviour: A review, Materials Science and Technology 28(2012) 129-143
Seeliger, Aluminium foam sandwich panels: metallurgy, manufacture and applications, Advanced Engineering Materials 10(2008) 792-802
Rajendran, Numerical modeling of low velocity impact response on metal foam cored sandwich panels: effect of various facesheet materials.18th ICCM International Conferences on Composite Materials, South Korea, 2011
Fiedler, Analysis of anisotropy and strain rate sensitivity of open-cell metal foam, Materials Science and Engineering: A, 541(2012) 105-109
Online since: February 2014
Authors: Ji Wei Fan, Xiao Li Zhang, Hui Jun Zhao
Thermally stimulated current (TSC) is a simple and effective test technique to study the thermal activated charge, electron trap and activation energy of dielectric and semiconducting materials.
Thermally stimulated current (TSC) is a simple and effective test technique to study the thermal activated charge, electron trap and activation energy of dielectric and semiconducting materials [4].
Acknowledgements This work was financially supported by the National Natural Science Foundation of China (51072238) References [1] Eda K., IEEE Electrical Insulation Magazine, 1989, 5 (6): 28-47 [2] Gupta T K., Journal of the American Ceramic Society, 1990, 73 (7): 1817-1840 [3] Clarke D R., Journal of the American Ceramic Society, 1999, 82(3): 485-502
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Thermally stimulated current (TSC) is a simple and effective test technique to study the thermal activated charge, electron trap and activation energy of dielectric and semiconducting materials [4].
Acknowledgements This work was financially supported by the National Natural Science Foundation of China (51072238) References [1] Eda K., IEEE Electrical Insulation Magazine, 1989, 5 (6): 28-47 [2] Gupta T K., Journal of the American Ceramic Society, 1990, 73 (7): 1817-1840 [3] Clarke D R., Journal of the American Ceramic Society, 1999, 82(3): 485-502
H., Theory and application of thermally stimulation on dielectrics, Science Press, Beijing, 1988, 109-164 (In Chinese) [5] Eda K., Iga A. and Matsuoka M., Journal of Applied Physics, 1980, 51(5): 2679 [6] Fan J., Freer R., Journal of Applied Physics, 1995, 77 (9): 4795-4800 [7] Fan J., Freer R., Journal of the American Ceramic Society, 1994, 77 (10): 2663-2668 [8] Zhang M R., Study on degradation mechanism of ZnO varistor ceramics, Xi’an, Xi’an Jiaotong University, 1991 [9] Gupta T K., Miller A C., Journal of Materials Research, 1988, 3(4):745-754 [10] Gupta T K., Carlson W G., Journal of Materials Science, 1985, 20:3487 [11] Levinson L M., Philipp H R., American Ceramic Society Bulletin 1986, 65 (4): 639-646
Online since: December 2012
Authors: Ying Ming Mao, Gui Ru Xu, Xiao Yu Pan
Influenced by alkaline chemical fertilizer and some building materials, the soil pH presents a rising tendency.
Materials and Methods Study Area.
The soil pH in UGS was increased in opposition to the soil acidification and it was likely to be influenced by alkaline chemical fertilizer and some building materials, such as lime and Portland cement, according to the further investigation.
Sims: Soil Science Society of America Journal Vol. 50 (1986), p. 367-373
Chen: Journal of Anhui Agricultural Sciences Vol. 41(2012), p. 167-170 (In Chinese)
Materials and Methods Study Area.
The soil pH in UGS was increased in opposition to the soil acidification and it was likely to be influenced by alkaline chemical fertilizer and some building materials, such as lime and Portland cement, according to the further investigation.
Sims: Soil Science Society of America Journal Vol. 50 (1986), p. 367-373
Chen: Journal of Anhui Agricultural Sciences Vol. 41(2012), p. 167-170 (In Chinese)
Online since: August 2013
Authors: Hong Zhen Wang, Dong Geng Fu
As a building material should have a certain strength and good durability, at the same time to adapt to the requirements of large-scale industrial production.In the premise of ensuring good thermal resistance, the strength of concrete products of polystyrene foam particles can reach about 0.5Mpa, good compressive impact cracking resistance, low shrinkage, low water absorption, fire retardancy.But also through the composite product formation and other materials to achieve the higher request.
2 Test
2.1 The main raw materials
The raw materials used in the experiment:
(1) The cement: the Shandong jinlucheng cement plant for the production of R?
Research on the optimum proportion and properties of new type building material foam -EPS thermal insulation mortar of 2005.12 [2] Wang Zhengquan, Gong Yanfeng EPS thermal insulation mortar mix proportion test analysis of Journal of building materials eighth volume second 2005 April [3] Peng family benefits, Han Shun, Zhang Jianxin, et al.
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Journal of Henan University of Technology, 2006, 31 (3)
Research on the optimum proportion and properties of new type building material foam -EPS thermal insulation mortar of 2005.12 [2] Wang Zhengquan, Gong Yanfeng EPS thermal insulation mortar mix proportion test analysis of Journal of building materials eighth volume second 2005 April [3] Peng family benefits, Han Shun, Zhang Jianxin, et al.
Journal of Chongqing Jianzhu University, 2008, 30 (2): 135 - 137 [4] Yin Zhonghai of polystyrene particle and composite silicate insulation materials development and application of [D].
Wuhan: School of materials science and engineering, Wuhan University of Technology, 2001 [5] Zhou Guangsheng spent PS cement mortar performance and application of [J]. architecture technology, 1999, 30 (10):705706
Journal of Henan University of Technology, 2006, 31 (3)
Online since: March 2013
Authors: Mohamad Rusop, A.Z. Zainurul, Saifollah Abdullah
Motooka, Formation and catalytic characterization of various rare earth phosphates, Journal of Materials Chemistry, 12 (2002) 1754-1760
Stoever, Ceramic materials for thermal barrier coatings, Journal of the European Ceramic Society, 24 (2004) 1-10
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Stoever, Ceramic materials for thermal barrier coatings, Journal of the European Ceramic Society, 24 (2004) 1-10
Sciences, 309 (2005) 1700 - 1704
U, Green color luminescene in Tb3+ : (La,Ln)PO4 (Ln=Gd or Y) photonics materials, [J].Materials 72 (2000) 27 - 30
Han, Sol-gel synthesis and photoluminescent properties of LaPO4:A (A = Eu3+, Ce3+, Tb3+) nanocrystalline thin films, Journal of Materials Chemistry, 13 (2003) 1413-1419
Online since: August 2013
Authors: Xu Wei Zhang, Qi Yin Shi
But the errors of them are occurred due to the difference of material constitutive model.
Journal of Constructional Steel Research, 2001(57): 975-995
Journal of Constructional Steel Research, 2002(58):725-758
Journal of Jiangsu University: National Science Edition, 2004, 25 (1):89-92.
Journal of Jiangsu University: Natural Science Edition, 2008, 29(3):260-263.
Journal of Constructional Steel Research, 2001(57): 975-995
Journal of Constructional Steel Research, 2002(58):725-758
Journal of Jiangsu University: National Science Edition, 2004, 25 (1):89-92.
Journal of Jiangsu University: Natural Science Edition, 2008, 29(3):260-263.