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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: December 2016
Authors: Ineta Rozenstrauha, Linda Krage, Edmunds Lodins, Inga Pudze
Use of Industrial Waste and Raw Materials in Iron Sorption
Edmunds Lodinsa*, Inga Pudze, Ineta Rozenstrauha, Linda Krage
Faculty of Material science and Applied Chemistry, Riga Technical University,
3/7 Paula Valdena Street, Riga, LV-1048, Latvia
a edmunds.lodins@rtu.lv
Keywords: Industrial waste, waste pellets, iron sorption
Abstract.
Materials were dried and milled.
Journal of Cleaner Production, 20 (2012) 170 – 179
Construction and Building Materials 35(2012) 785 – 791
Materials Science and Engineering 25 (2011) 012016-012016
Materials were dried and milled.
Journal of Cleaner Production, 20 (2012) 170 – 179
Construction and Building Materials 35(2012) 785 – 791
Materials Science and Engineering 25 (2011) 012016-012016
Online since: July 2023
Authors: Mashuri Mashuri, Muh.S. Sapri
Especially in materials, the materials needed are quality materials and have high mechanical properties.
Meeting the need for materials with certain characteristics is also a driving factor.
Various kinds of materials have been used and further research is also being carried out to obtain the right materials, one of which is composite materials. and do not dissolve each other between the materials where one material functions as a reinforcement and the other material functions as a binder to maintain the unity of its elements and improve the mechanical properties of a material with a number of multi-phase system properties with a combination of matrix or binder materials and reinforcement to produce composite materials which have different mechanical properties and characteristics from their constituent materials so that composite materials are easy to engineer according to the desired application [1-7].
References [1] Agustin, T., Prasetya, NBA and Widodo, DS (2013) 'Simultaneous Synthesis of TiO2-Activated Carbon Composites for Photocatalysis of Direct Blue 19 Dye Solutions and Metal Ions Pb2+ and Cd2+ Simultaneously', Journal of Chemistry Science and Applications, 16(3) , pp. 102–107.
[4] Barbero, EJ (2011) Introduction to Composite Materials Design.
Meeting the need for materials with certain characteristics is also a driving factor.
Various kinds of materials have been used and further research is also being carried out to obtain the right materials, one of which is composite materials. and do not dissolve each other between the materials where one material functions as a reinforcement and the other material functions as a binder to maintain the unity of its elements and improve the mechanical properties of a material with a number of multi-phase system properties with a combination of matrix or binder materials and reinforcement to produce composite materials which have different mechanical properties and characteristics from their constituent materials so that composite materials are easy to engineer according to the desired application [1-7].
References [1] Agustin, T., Prasetya, NBA and Widodo, DS (2013) 'Simultaneous Synthesis of TiO2-Activated Carbon Composites for Photocatalysis of Direct Blue 19 Dye Solutions and Metal Ions Pb2+ and Cd2+ Simultaneously', Journal of Chemistry Science and Applications, 16(3) , pp. 102–107.
[4] Barbero, EJ (2011) Introduction to Composite Materials Design.
Online since: July 2020
Authors: Muljadi Muljadi, Dedi Setiabudidaya, A.A.A. Bama, Ramlan Ramlan
Coey, Magnetism and Magnetic Materials Journal of Magnetism and Magnetic Materials, Cambridge University Press 248 (2002) 441–456
Dobrzański, Hard Magnetic Materials Nd-Fe-B/Fe with Epoxy Resin Matrix Journal of Achievements in Materials and Manufacturing Engineering 20 (1-2) (2007)
Chen, Developments in the processing and properties of NdFeB-type permanent magnets, Journal of Magnetism and Magnetic Materials 248 (2002) 432–440
Scattergood, Mechanical properties of Nylon bonded Nd–Fe–B permanent magnets, Journal of Magnetism and Magnetic Materials 257 (2008) 32–43
Wrona, Structure and properties of Barium ferrite powders prepared by milling and annealing Archives of Materials Science and Engineering 28 (12) (2007) 735-742
Dobrzański, Hard Magnetic Materials Nd-Fe-B/Fe with Epoxy Resin Matrix Journal of Achievements in Materials and Manufacturing Engineering 20 (1-2) (2007)
Chen, Developments in the processing and properties of NdFeB-type permanent magnets, Journal of Magnetism and Magnetic Materials 248 (2002) 432–440
Scattergood, Mechanical properties of Nylon bonded Nd–Fe–B permanent magnets, Journal of Magnetism and Magnetic Materials 257 (2008) 32–43
Wrona, Structure and properties of Barium ferrite powders prepared by milling and annealing Archives of Materials Science and Engineering 28 (12) (2007) 735-742
Online since: June 2012
Authors: Yan Wu, Hai Xia Xin, Yu Chun Zhai
Journal of Refractory Metals & Hard Materials 26(2008): 389-395
Journal of Materials Science 37 (2002) 3397-3403
Journal of Refractory Metals & Hard Materials 27 (2009) 288–299
Journal of Refractory Metals and Hard Materials 29 (2011):424-428
Materials Science and Engineering A 527 (2010) 7163–7167
Journal of Materials Science 37 (2002) 3397-3403
Journal of Refractory Metals & Hard Materials 27 (2009) 288–299
Journal of Refractory Metals and Hard Materials 29 (2011):424-428
Materials Science and Engineering A 527 (2010) 7163–7167
Online since: November 2025
Authors: Madhavrao Keshavrao Deore, Ganesh E. Patil, Gotan Hiralal Jain, Sarika Digambar Shinde, Aparna Amit Kulkarni, Rajendra Popatrao Patil
Rout, A review on mechanisms and recent developments in p n heterojunctions of 2D materials for gas sensing applications, Journal of Materials Science 56 (2021) 9575-9604
He, Nanostructured of SnO2/NiO composite as a highly selective formaldehyde gas sensor, Journal of Materials Research 35(22) (2020) 3079-3090
Patil, Influence of Annealing Temperature on Structural and Electrical Properties of Screen Printed Lanthanum Oxide Thick Films, Iranian Journal of Materials Science & Engineering 19(4) (2022)
Xu, Nanostructured metal oxide heterojunctions for chemiresistive gas sensors, Journal of Materials Chemistry A 11(44) (2023) 23742-23771
Cao, Rapid detection of low concentration CO using Pt-loaded ZnO nanosheets, Journal of hazardous materials 381 (2020) 120944
He, Nanostructured of SnO2/NiO composite as a highly selective formaldehyde gas sensor, Journal of Materials Research 35(22) (2020) 3079-3090
Patil, Influence of Annealing Temperature on Structural and Electrical Properties of Screen Printed Lanthanum Oxide Thick Films, Iranian Journal of Materials Science & Engineering 19(4) (2022)
Xu, Nanostructured metal oxide heterojunctions for chemiresistive gas sensors, Journal of Materials Chemistry A 11(44) (2023) 23742-23771
Cao, Rapid detection of low concentration CO using Pt-loaded ZnO nanosheets, Journal of hazardous materials 381 (2020) 120944
Online since: December 2010
Authors: Ming Shu Tang, Zhi Bin Zhang, Ling Ling Xu
Synergistic Effect of MgO-based Expansive Agent and Shrinkage Reducing Admixture on Compensating the Shrinkage of Cementitious Materials
Zhibin Zhang 1, a, Lingling Xu 2,b and Mingshu Tang 2
1College of Biology, Chemistry and Material Science, East China Institute of Technology, NO.56 Xuefu Road, Fuzhou, P.
China 2College of Materials Science and Engineering, Nanjing University of Technology, NO.5 Xinmofan Road, Nanjing, P.
Experiments Materials.
Sarigaphuti: submitted to ACI Materials Journal (1992) [2] K.
Shah: submitted to ACI Materials Journal (1990) [4] R.B.
China 2College of Materials Science and Engineering, Nanjing University of Technology, NO.5 Xinmofan Road, Nanjing, P.
Experiments Materials.
Sarigaphuti: submitted to ACI Materials Journal (1992) [2] K.
Shah: submitted to ACI Materials Journal (1990) [4] R.B.
Online since: September 2013
Authors: Yu Hai Xu, Yu Ping Zhao
INTRODUCTION
Research situation 45Mn materials in mechanical properties, heat treatment of literature about that: 45Mn belongs to the alloy steel and carbon steel in conditioning, commonly known as manganese steel.
In order to improve the mechanical properties and wear resistance of the steel, a lot of axial, such as gear are all made in a state under the conditions of the use, and domestic to 45Mn materials forging performance of literature study, there is no data is available.
Chromium to the influence of the mechanical properties of When add chromium 45Mn steel for the strong impact of abrasive wear working conditions, the wear resistance of the material do not obviously change; When used for strong impact abrasive wear working condition, the wear resistance of the materials have increased significantly.
The results show that: forging state 45Mn sample tensile strength and elongation increased at the same time, that is, the plastic and strength and at the same time, improve, different from the general structure of the material characteristics, and the mechanical properties of raw materials without forging compared, mechanical properties were well. 5.
Mechanical Industry Press(2004),Vol. 7 ,pp. 934 [4] PAN Chun-xu, SUN Guo-zheng,Heter Ogeneous Steel Welding of The Present Status And Progress of Research,Hydraulic Power Machinery,(1998),Vol.1988, pp.42-46 [5] LIU Hai-yun, WU-yu, LU Wen-xiong,Heterogeneous Steel Welding Joint Bond Area Martensite With The Chemical Composition And Organization Structure, Taiyuan University of Technology( 1999),Vol. 30,pp. 598-601 [6] XIONG Yu-zhu,Tempering Temperature of High Manganese Steel Wear-resisting Influence On The Performance,Journal of Guizhou University of Natural Science Edition(2001) [7] XIE Jing-pei,Metamorphic of Plastic Deformation Wear of Manganese Steel,Journal of Friction Learn(2003) ,Vol.6
In order to improve the mechanical properties and wear resistance of the steel, a lot of axial, such as gear are all made in a state under the conditions of the use, and domestic to 45Mn materials forging performance of literature study, there is no data is available.
Chromium to the influence of the mechanical properties of When add chromium 45Mn steel for the strong impact of abrasive wear working conditions, the wear resistance of the material do not obviously change; When used for strong impact abrasive wear working condition, the wear resistance of the materials have increased significantly.
The results show that: forging state 45Mn sample tensile strength and elongation increased at the same time, that is, the plastic and strength and at the same time, improve, different from the general structure of the material characteristics, and the mechanical properties of raw materials without forging compared, mechanical properties were well. 5.
Mechanical Industry Press(2004),Vol. 7 ,pp. 934 [4] PAN Chun-xu, SUN Guo-zheng,Heter Ogeneous Steel Welding of The Present Status And Progress of Research,Hydraulic Power Machinery,(1998),Vol.1988, pp.42-46 [5] LIU Hai-yun, WU-yu, LU Wen-xiong,Heterogeneous Steel Welding Joint Bond Area Martensite With The Chemical Composition And Organization Structure, Taiyuan University of Technology( 1999),Vol. 30,pp. 598-601 [6] XIONG Yu-zhu,Tempering Temperature of High Manganese Steel Wear-resisting Influence On The Performance,Journal of Guizhou University of Natural Science Edition(2001) [7] XIE Jing-pei,Metamorphic of Plastic Deformation Wear of Manganese Steel,Journal of Friction Learn(2003) ,Vol.6
Online since: December 2010
Authors: Zainal Arifin Ahmad, Hidayani Jaafar, Mohd Fadzil Ain
Nowadays, high dielectric materials are important materials in microwave electronic applications due to its properties that can provide high frequency range of an antenna.
Samples calcined at below 1100°C still containing their raw materials such as BaCO3, ZnO and Ta2O5.
Vittayakorn., NU Science Journal, 4(2007)13-21
Kim, Journal of Material Science Letter, 12(1993)182-184
Sebastian (2008) Dielectric Materials for Wireless Communication.
Samples calcined at below 1100°C still containing their raw materials such as BaCO3, ZnO and Ta2O5.
Vittayakorn., NU Science Journal, 4(2007)13-21
Kim, Journal of Material Science Letter, 12(1993)182-184
Sebastian (2008) Dielectric Materials for Wireless Communication.
Online since: October 2010
Authors: Jia Fan, Qing Hua Yuan, Zhong Guo Huang, Hong Lei Dong
Test Analysis on Crack Propagation Rate of Axle Pipe Steel
Zhong Guo HUANG 1, 3, a, Hong Lei DONG 1, b, Qing Hua YUAN 2, c, Jia Fan 3
1 School of Mechanical Engineering, University of Science and Technology Beijing, Beijing 100083, China
2School of Material Science and Engineering, University of Science and Technology
Beijing Beijing 100083, China
3 SHINENERGY TECHNOLOGIES, Inc.
YANG: Journal of mechanical strength, 2004, 26(s):298-300
YAO: Journal of mechanical strength, 2000, 22(3): 243-244
ZHANG: Journal of mechanical strength, 1997, 19(1): 74-76
YANG: Materials for mechanical engineering, 2005, 6(29): 16-19
YANG: Journal of mechanical strength, 2004, 26(s):298-300
YAO: Journal of mechanical strength, 2000, 22(3): 243-244
ZHANG: Journal of mechanical strength, 1997, 19(1): 74-76
YANG: Materials for mechanical engineering, 2005, 6(29): 16-19