Sort by:
Publication Type:
Open access:
Publication Date:
Periodicals:
Search results
Online since: October 2013
Authors: Wen Wu Yang, Jian Bo Wang, Peng Chen, Juan Ge
A green construction evaluation index system is established in this paper, which includes five-level aspects such as construction management, materials and material resource utilization, water conservation and utilization, energy efficiency and utilization, and land utilization and protection.
Table 1 Evaluation index system of green construction Indicators Factors Construction management B1 Compiling green construction management system, goal and plan B11 The attendance of green construction management staff B12 Dynamic management of the green construction B13 Self assessment and comprehensive assessment B14 Materials and material resource utilization B2 The use of commodities concrete and mortar B21 The use of high strength steel and high performance concrete B22 Scheme optimization of steel materials B23 Optimization of steel structure production and installation methods B24 Water conservation and utilization B3 Water saving measures in mixing and conserving water B31 Set up the water circulation device B32 Water quota, metrology management B33 The use of unconventional water and recycling water B34 Efficiency and energy utilization B4 Improvement of the equipment files and maintenance B41 Power and load match usage B42 The rationality of the process arrangement
Journal of Construction Technology, Vols. 36 No.11 (2007) 1
Huang, Green construction fuzzy comprehensive evaluation, Journal of Southwest Jiaotong University, Vols. 43 No. 2 (2008) 292
Duan, Construction projects green construction establishment of evaluation system, Journal of Architectural Science, Vols. 25 No. 10 (2009) 35-39
Table 1 Evaluation index system of green construction Indicators Factors Construction management B1 Compiling green construction management system, goal and plan B11 The attendance of green construction management staff B12 Dynamic management of the green construction B13 Self assessment and comprehensive assessment B14 Materials and material resource utilization B2 The use of commodities concrete and mortar B21 The use of high strength steel and high performance concrete B22 Scheme optimization of steel materials B23 Optimization of steel structure production and installation methods B24 Water conservation and utilization B3 Water saving measures in mixing and conserving water B31 Set up the water circulation device B32 Water quota, metrology management B33 The use of unconventional water and recycling water B34 Efficiency and energy utilization B4 Improvement of the equipment files and maintenance B41 Power and load match usage B42 The rationality of the process arrangement
Journal of Construction Technology, Vols. 36 No.11 (2007) 1
Huang, Green construction fuzzy comprehensive evaluation, Journal of Southwest Jiaotong University, Vols. 43 No. 2 (2008) 292
Duan, Construction projects green construction establishment of evaluation system, Journal of Architectural Science, Vols. 25 No. 10 (2009) 35-39
Online since: December 2013
Authors: Jiang Wu, Cheng Zhen Hu, Jia Ming Zha, Si Yuan Yang, Yu Wu, Li Li Zhao, Qian Yan Liu, Chong Zhang
There were two different mechanisms during the process of activating biomass raw materials.
Journal of South China University of Technology (natural science) 2006, 34(3): 63-66.
Journal of Anhui Agricultural Sciences, 2008, 36 (26): 11186-11187.
Journal of Shihezi University (natural science), 2009, 27 (6): 760-763.
Materials Letters, 2005, 59(7): 846-853 [7] Qingqing Miao, Yonghe Han, Qingrong Qian.
Journal of South China University of Technology (natural science) 2006, 34(3): 63-66.
Journal of Anhui Agricultural Sciences, 2008, 36 (26): 11186-11187.
Journal of Shihezi University (natural science), 2009, 27 (6): 760-763.
Materials Letters, 2005, 59(7): 846-853 [7] Qingqing Miao, Yonghe Han, Qingrong Qian.
Online since: December 2012
Authors: Jian Hua Hu, Lian Cui Li, Shu Xun Li
[2] Yuanyuan Han, Hong Guo, Ximin Zhang, Fazhang Yin, Ke Chu and Yeming Fan: Journal of Wuhan University of Technology-Mater.
[3] Jie Li, Min Wang, Zhiyong Wang and Guangming Zhou: Journal of Beijing Institute of Technology, Vol. 20 (1) ( 2011), P. 71
[4] Pyung Hwang, Xuan Wu: Journal of Mechanical Science and Technology, Vol.24 (2010), P. 81
[5] Jianzheng Hu, Lianqiao Yang, Woong Joon Hwang and Moo Whan Shin: Journal of Crystal Growth, Vol.288 (2006), P. 157
[6] Wenxia Zhou, Jige Zhang and Dezhong Wang: Atomic Energy Science and Technology, Vol. 45 (1) (2011), P. 54.
[3] Jie Li, Min Wang, Zhiyong Wang and Guangming Zhou: Journal of Beijing Institute of Technology, Vol. 20 (1) ( 2011), P. 71
[4] Pyung Hwang, Xuan Wu: Journal of Mechanical Science and Technology, Vol.24 (2010), P. 81
[5] Jianzheng Hu, Lianqiao Yang, Woong Joon Hwang and Moo Whan Shin: Journal of Crystal Growth, Vol.288 (2006), P. 157
[6] Wenxia Zhou, Jige Zhang and Dezhong Wang: Atomic Energy Science and Technology, Vol. 45 (1) (2011), P. 54.
Online since: November 2025
Authors: Steven Lim, Seng How Kuan, Monisha Rajamohan, Sylvia Chieng, Kok Keong Chong
Morphological, Structural and Chemical Analysis of Bioleached Kaolin by Bacillus Species
Monisha Rajamohan1,a, Sylvia Chieng2,b*, Steven Lim3,5,c,
Kok Keong Chong4,5,d and Seng How Kuan1,5,e*
1Department of Mechanical and Material Engineering, Lee Kong Chian Faculty of Engineering and Science, Universiti Tunku Abdul Rahman, Bandar Sungai Long, 43000 Kajang, Selangor, Malaysia
2Department of Biological Sciences and Biotechnology, Faculty of Science and Technology, Universiti Kebangsaan Malaysia, Bangi, 43600 Bangi, Selangor, Malaysia
3Department of Chemical Engineering, Lee Kong Chian Faculty of Engineering and Science, Universiti Tunku Abdul Rahman, Bandar Sungai Long, 43000 Kajang, Selangor, Malaysia
4Department of Electrical and Electronic Engineering, Lee Kong Chian Faculty of Engineering and Science, Universiti Tunku Abdul Rahman, Bandar Sungai Long, 43000 Kajang, Selangor, Malaysia
5Centre for Advanced and Sustainable Materials Research (CASMR), Universiti Tunku Abdul Rahman
Materials and Methods The kaolin sample used in this work was collected from a kaolin mine in Bidor, Perak, Malaysia.
Alfian, Tamrin, Characterization of technical kaolin using XRF, SEM, XRD, FTIR and its potentials as industrial raw materials.
In: Journal of Physics: Conference Series.
Hajihoseini, Optimal removal of iron impurities from kaolin by combination of Aspergillus niger & Bacillus subtilis, International Journal of Materials Research. 112(6) (2021) 498-504
Materials and Methods The kaolin sample used in this work was collected from a kaolin mine in Bidor, Perak, Malaysia.
Alfian, Tamrin, Characterization of technical kaolin using XRF, SEM, XRD, FTIR and its potentials as industrial raw materials.
In: Journal of Physics: Conference Series.
Hajihoseini, Optimal removal of iron impurities from kaolin by combination of Aspergillus niger & Bacillus subtilis, International Journal of Materials Research. 112(6) (2021) 498-504
Online since: May 2015
Authors: Mohamed Haneef, Syed Zameer
[10] C.X.Dong et al: Journal of Material Science Technology, 2011, 27(7), 659-667
Avanzini: Jour of mech behavior of bio medical materials 4 (2011) 1242-1256
[16] Michael R et al: Journal of materials (2009), 2, 1895-1907
[18] Hand Book of American Society for Testing and Materials Vol. 15.03 (2003)
Kokubo: Journal of Biomedical Material.
Avanzini: Jour of mech behavior of bio medical materials 4 (2011) 1242-1256
[16] Michael R et al: Journal of materials (2009), 2, 1895-1907
[18] Hand Book of American Society for Testing and Materials Vol. 15.03 (2003)
Kokubo: Journal of Biomedical Material.
Online since: November 2019
Authors: Solomon I. Adedokun, Johnson R. Oluremi, Damilare S. Obebe
Materials and Methods
The materials used in this study are the lateritic soil samples, waste glass fines and cement.
Journal of Engineering Science and Technology, 9 (5), 541-558
Alkali – Aggregate Reaction in Concrete with Waste Glass as Aggregate, Proceedings of the 4th Materials Engineering Conference: Materials for the new millennium, ASCE, Reston, V.A, 1388-1397
Glasscrete – Concrete with glass aggregates”, ACI Materials Journal, 97, 208-213
Advanced Materials Research. 824: 21-28. doi:10.4028/www.scientific.net/AMR.824.2
Journal of Engineering Science and Technology, 9 (5), 541-558
Alkali – Aggregate Reaction in Concrete with Waste Glass as Aggregate, Proceedings of the 4th Materials Engineering Conference: Materials for the new millennium, ASCE, Reston, V.A, 1388-1397
Glasscrete – Concrete with glass aggregates”, ACI Materials Journal, 97, 208-213
Advanced Materials Research. 824: 21-28. doi:10.4028/www.scientific.net/AMR.824.2
Online since: February 2015
Authors: Zs. Karácsony, A. Erős, E. Andersen, Gy. Bánhegyi
BÁNHEGYI1
1Bay Zoltán Nonprofit Ltd. for Applied Research, Institute for Materials Science and Technology, Budapest, 1116 Budapest, Fehérvári street 130.
The first step is the preparation of the feedstock by mixing the raw materials: the ceramic and the binder materials.
The curves show the main characteristics of these materials.
The injection molding process of these materials is under development.
German, Interaction between binder and powder in injection moulding of alumina, Journal of Material Science. 29 (1994) 5207-5212
The first step is the preparation of the feedstock by mixing the raw materials: the ceramic and the binder materials.
The curves show the main characteristics of these materials.
The injection molding process of these materials is under development.
German, Interaction between binder and powder in injection moulding of alumina, Journal of Material Science. 29 (1994) 5207-5212
Online since: June 2011
Authors: M. Aliouat, B. Itaalit, N. Amaouz, Ahcene Chaouchi
CHAOUCHI 2,d
1 Département de chimie Faculté des sciences, Université M.B.
Many work on dielectric materials focused on glass phases additions on dielectric compositions of type II.
She shows the linear nature of the dielectric constant, dielectric materials characteristic of type I, is still preserved.
References [1] Cheng-Liang, H., Chun-Hsu, S., Chung-Long, P., 2007, Characterization and dielectric behavior of V2O5-doped MgTiO3–CaTiO3 ceramic system at microwave frequency, Materials Science and Engineering , 145, 91-96
Materials Letters, 60, 1188–1191
Many work on dielectric materials focused on glass phases additions on dielectric compositions of type II.
She shows the linear nature of the dielectric constant, dielectric materials characteristic of type I, is still preserved.
References [1] Cheng-Liang, H., Chun-Hsu, S., Chung-Long, P., 2007, Characterization and dielectric behavior of V2O5-doped MgTiO3–CaTiO3 ceramic system at microwave frequency, Materials Science and Engineering , 145, 91-96
Materials Letters, 60, 1188–1191
Online since: December 2014
Authors: Li Jun Yang, Hong Zhi Zhang, Chun Yang Zhao, Yang Wang
In laser induced thermal-crack propagation (LITP) cutting brittle materials, according to the laser absorption ability, materials are divided into the body absorption and surface absorption.
In recent years, the science of cutting brittle materials using LITP has attracted a significant amount of attention with many studies done to improve the machined surface characteristics and cleaving efficiency [1-6].
Tsai, Fracture Mechanism of Laser Cutting With Controlled Fracture, Journal of Manufacturing Science and Engineering, 125 (2003) 519-528
Materials Processing Technology, 155-156 (2004) 1797-1804
Materials Processing Technology, 136 (2003) 166-173
In recent years, the science of cutting brittle materials using LITP has attracted a significant amount of attention with many studies done to improve the machined surface characteristics and cleaving efficiency [1-6].
Tsai, Fracture Mechanism of Laser Cutting With Controlled Fracture, Journal of Manufacturing Science and Engineering, 125 (2003) 519-528
Materials Processing Technology, 155-156 (2004) 1797-1804
Materials Processing Technology, 136 (2003) 166-173
Online since: June 2025
Authors: Juthanee Phromjan, Natnaree Worajinda, Ravivat Rugsaj, Siwakorn Phakdee, Chakrit Suvanjumrat
Furthermore, the material model in FEM can provide insights for developing novel composite materials to enhance SACH feet in the future.
Salman: American Journal of Engineering and Applied Sciences Vol. 13 (2020), p. 516 [5] T.M.
Suvanjumrat: IOP Conference Series: Materials Science and Engineering Vol. 886 (2020), p. 012056 https://doi.org/10.1088/1757-899X/886/1/012056 [10] J.
Suvanjumrat: IOP Conference Series: Materials Science and Engineering Vol. 773 (2020), p. 012047 [11] J.
Suvanjumrat: Songklanakarin Journal of Science and Technology Vol. 43 (2021), p. 229-236 [12] J.
Salman: American Journal of Engineering and Applied Sciences Vol. 13 (2020), p. 516 [5] T.M.
Suvanjumrat: IOP Conference Series: Materials Science and Engineering Vol. 886 (2020), p. 012056 https://doi.org/10.1088/1757-899X/886/1/012056 [10] J.
Suvanjumrat: IOP Conference Series: Materials Science and Engineering Vol. 773 (2020), p. 012047 [11] J.
Suvanjumrat: Songklanakarin Journal of Science and Technology Vol. 43 (2021), p. 229-236 [12] J.