Sort by:
Publication Type:
Open access:
Publication Date:
Periodicals:
Search results
Online since: November 2013
Authors: Jin Xi Zhang, Kai Mu, Wen Tao Wang
Introduction
The asphalt mixture has gradually become the most important and widely used pavement material since used in road engineering.
This new additive is a polymer material which is able to absorb water.
Materials and Mix Proportion Materials.
The performance of all original materials conforms to relative specification of China.
Zeng, “Determination of the mixing and compaction temperatures for warm mix asphalt with sasobit,” Journal of Hunan University(Natural Sciences), pp. 1-5, 2010
This new additive is a polymer material which is able to absorb water.
Materials and Mix Proportion Materials.
The performance of all original materials conforms to relative specification of China.
Zeng, “Determination of the mixing and compaction temperatures for warm mix asphalt with sasobit,” Journal of Hunan University(Natural Sciences), pp. 1-5, 2010
Online since: May 2012
Authors: Qing Xuan Shi, Wen Xing Yang, Hui Xiang Sun
Survey
By using high-strength concrete and high-strength steel columns could reduced in size, materials and cost.
To promoting the application of high-strength materials, more tests are needed to provide test date for shear theory.
By using this type of hoop could reduce materials, improve integration of member and structure, and reduce the probability of hoop detachment.
Most materials of column are already in elastic state until failure.
China Civil Engineering Journal, Apr. 2009, In Chinese
To promoting the application of high-strength materials, more tests are needed to provide test date for shear theory.
By using this type of hoop could reduce materials, improve integration of member and structure, and reduce the probability of hoop detachment.
Most materials of column are already in elastic state until failure.
China Civil Engineering Journal, Apr. 2009, In Chinese
Online since: June 2010
Authors: Abu Bakar Sulong, Mohd Ruzi Harun, Hafizawati Zakaria, Norhamidi Muhamad, Khairur Rijal Jamaludin, Sufizar Ahmad, Mohd Halim Irwan Ibrahim, Nor Hafiez Mohamad Nor
Parameter Optimization towards Highest Micro MIM Density by Using
Taguchi Method
Mohd Halim Irwan Ibrahim
1,a, Norhamidi Muhamad2,b, Abu Bakar Sulong2,c,
Khairur Rijal Jamaludin3,d, Nor Hafiez Mohamad Nor4,e, Sufizar Ahmad
1,f,
Mohd Ruzi Harun5,g and Hafizawati Zakaria2,h
1
Faculty of Mechanical & Manufacturing Engineering, University Tun Hussein Onn Malaysia,
86400 Batu Pahat, Johor, Malaysia
2
Faculty of Engineering & Architecture, National University of Malaysia,
43600 Bangi, Selangor, Malaysia
3
College of Science & Technology, University Technology Malaysia,
International Campus, 54100, Kuala Lumpur, Malaysia
4
Faculty of Mechanical Engineering, University Technology MARA,
40450 Shah Alam, Selangor, Malaysia
5
Faculty of Mechanical Enginering, University Technical Malaysia Melaka,
75450, Melaka, Malaysia
a
mdhalim@uthm.edu.my, bhamidi@eng.ukm.my, cabubakar@eng.ukm.my, dkhairur@ic.utm.my,
e
norhafiez@yahoo.com, fsufizar@uthm.edu.my, gmohdruzi
References [1] Lee BH, Kim BH: Polym-Plastic Tech Eng 34(5) (1995), p.793 [2] Huang MC, Tai CC: J Mater Process Tech 110 (2001), p.1 [3] Jacques MS: Polym Eng Sci 22 (1982), p.241 [4] Beiter K, Ishii K,Hornherger L: ASME-DED 31 (1991), p.111 [5] Ji CH, Loh NH, Khor KA, Tor SB: Materials Science and Engineering A311(2001), p.74 [6] Jamaludin KR, Muhamad N, Ab Rahman MN, Amin SYM, Murtadhahadi: Proceeding of International Conference of Mechanical and Manufacturing Engineering 2008
[7] Ghani JA,Choudhury IA, Hassan HH: J. of Materials Processing Technology 145(2004), p.84 [8] Ahmad S, Muhamad N,Muchtar A, Sahari J,Jamaludin KR,Ibrahim MHI, Nor NHM: Proceeding of International Conference of Sustainable Energy 2009 [9] Chen RS, Lee HH,Yu CY: Composite Structures 39(1997), p.209 [10] Tuncay E, Babur O: Materials and Design 27(2006), p.853 [11] Oktem H, Tuncay E, Ibrahim U: Materials and Design 28(2007), p.1271 [12] Montgomery DC, Design and analysis of experiments, 3rd edition, Wiley, New York 1991
[13] Ibrahim MHI, Muhamad N, Sulong AB: International Journal of Mechanical and Manufacturing Engineering, Vol 4. (2009)No. 1, p.1 [14] Taguchi G, Introduction to quality engineering.
References [1] Lee BH, Kim BH: Polym-Plastic Tech Eng 34(5) (1995), p.793 [2] Huang MC, Tai CC: J Mater Process Tech 110 (2001), p.1 [3] Jacques MS: Polym Eng Sci 22 (1982), p.241 [4] Beiter K, Ishii K,Hornherger L: ASME-DED 31 (1991), p.111 [5] Ji CH, Loh NH, Khor KA, Tor SB: Materials Science and Engineering A311(2001), p.74 [6] Jamaludin KR, Muhamad N, Ab Rahman MN, Amin SYM, Murtadhahadi: Proceeding of International Conference of Mechanical and Manufacturing Engineering 2008
[7] Ghani JA,Choudhury IA, Hassan HH: J. of Materials Processing Technology 145(2004), p.84 [8] Ahmad S, Muhamad N,Muchtar A, Sahari J,Jamaludin KR,Ibrahim MHI, Nor NHM: Proceeding of International Conference of Sustainable Energy 2009 [9] Chen RS, Lee HH,Yu CY: Composite Structures 39(1997), p.209 [10] Tuncay E, Babur O: Materials and Design 27(2006), p.853 [11] Oktem H, Tuncay E, Ibrahim U: Materials and Design 28(2007), p.1271 [12] Montgomery DC, Design and analysis of experiments, 3rd edition, Wiley, New York 1991
[13] Ibrahim MHI, Muhamad N, Sulong AB: International Journal of Mechanical and Manufacturing Engineering, Vol 4. (2009)No. 1, p.1 [14] Taguchi G, Introduction to quality engineering.
Online since: August 2019
Authors: Darminto Darminto, Mas Irfan P. Hidayat, Ahmad Sholih, Dadan Hamdani, Yoyok Cahyono, Sigit Tri Wicaksono
Numerical Simulation on Effects of TCO Work Function on Performance of a-Si:H Solar Cells
Ahmad Sholih1,2,a, Dadan Hamdani1,3,b, Sigit Tri Wicaksono2,c,
Mas Irfan Purbawanto Hidayat2,d, Yoyok Cahyono1,e, Darminto1,f,*
1Advanced Materials Research Group, Department of Physics, Institut Teknologi Sepuluh Nopember, Kampus ITS Sukolilo, Surabaya 60111, Indonesia
2Department of Materials and Metallurgical Engineering, Institut Teknologi Sepuluh Nopember, Kampus ITS Sukolilo, Surabaya 60111, Indonesia
3Physics Study Program, Faculty of Mathematics and Natural Science, Universitas Mulawarman, Samarinda, Indonesia
asholih@physics.its.ac.id, bd.hamdani1973@gmail.com, csigit@mat-eng.its.ac.id, dirfan@mat-eng.its.ac.id, eyoyok@physics.its.ac.id, f,*darminto@physics.its.ac.id*
Keywords: a-Si:H, AFORS-HET, numerical simulation, p-i-n solar cell, work function
Abstract In this paper, we have investigated the effect of the work function of transparent conducting oxides (TCO) on the performance
Hydrogenated amorphous silicon (a-Si:H) has several advantages compared to crystalline silicon material.
This material has a wide optical band gap (1.7 eV to 2 eV), low growth temperature (~ 200oC) and can be grown on glass substrates that are cheap and abundant [1].
Zeman, Comparison of a-SiC:H and a-SiN:H as candidate materials for a p-i interface layer in a-Si:H p-i-n solar cells, Energy Procedia 2 (2010) 227–234
Darminto, Effect of Intrinsic layer Energy Gap and Thickness Optimization on the Efficiency of p-i-n Amorphous Silicon Solar Cell, IPTEK Journal of Science 2 (2017) 37 - 42
Hydrogenated amorphous silicon (a-Si:H) has several advantages compared to crystalline silicon material.
This material has a wide optical band gap (1.7 eV to 2 eV), low growth temperature (~ 200oC) and can be grown on glass substrates that are cheap and abundant [1].
Zeman, Comparison of a-SiC:H and a-SiN:H as candidate materials for a p-i interface layer in a-Si:H p-i-n solar cells, Energy Procedia 2 (2010) 227–234
Darminto, Effect of Intrinsic layer Energy Gap and Thickness Optimization on the Efficiency of p-i-n Amorphous Silicon Solar Cell, IPTEK Journal of Science 2 (2017) 37 - 42
Online since: November 2011
Authors: M.R. Monazzam, Samaneh M.B. Fard
Fard2, b
1 Occupational Hygiene Department, School of Public Health, Tehran University of Medica Sciences, Tehran, Iran
2 Department of Environmental Science, Graduate School of the Environment and Energy, Science and Research Branch, Islamic Azad University, Tehran, Iran
a mmonazzam@gmail.com, b fardsmb@gmail.com
Keywords: median barrier, noise pollution, boundary element method, parallel noise barriers
Abstract.
Material and Method Prediction Method.In this investigation, to calculate the sound pressure adjacent to median acoustic barriers A 2D Boundary Element Method (BEM) as an effective tool is used.
Performance of passive and reactive profiled median barriers in traffic noise reduction, Journal of Zhejiang University SCIENCE –A.
Material and Method Prediction Method.In this investigation, to calculate the sound pressure adjacent to median acoustic barriers A 2D Boundary Element Method (BEM) as an effective tool is used.
Performance of passive and reactive profiled median barriers in traffic noise reduction, Journal of Zhejiang University SCIENCE –A.
Online since: April 2011
Authors: An Nan Jiang, Shu Lin Tang, Hui Zhao
It is an isotropic hardening model, while the shear stress reaches a certain value, material will come to plasticity, the certain value is not only related to the property of itself, but also related to the normal stress of the plane.
References [1] S.H.Li, New Theory of Tunneling Supporting Design,Beijing: Science Press.(1999)
[2] X.T.Feng, Intelligent Rock Mechanics Introduction, Beijing Science Press. (2000)
[3]H.J.Cai, D.L.Huang, R.Q.Huang,etc, New Progress in the Study of Rock Structure 3-D Visualization Model, Advances in Earth Science, Vol.11(4)( 2001),p.55–59
[4]H.H.Zhu, Y.Jiang,C.C Xia,etc, Study on Informational Construction Technology of Tunnel in Complicated Geological Condition, Chinese Journal of Rock Mechanics and Engineering, Vol.21 (Z1)(2002) p.2548- 2553
References [1] S.H.Li, New Theory of Tunneling Supporting Design,Beijing: Science Press.(1999)
[2] X.T.Feng, Intelligent Rock Mechanics Introduction, Beijing Science Press. (2000)
[3]H.J.Cai, D.L.Huang, R.Q.Huang,etc, New Progress in the Study of Rock Structure 3-D Visualization Model, Advances in Earth Science, Vol.11(4)( 2001),p.55–59
[4]H.H.Zhu, Y.Jiang,C.C Xia,etc, Study on Informational Construction Technology of Tunnel in Complicated Geological Condition, Chinese Journal of Rock Mechanics and Engineering, Vol.21 (Z1)(2002) p.2548- 2553
Online since: June 2010
Authors: Ming Chang Li, Guang Yu Zhang, Shu Xiu Liang, Zhao Chen Sun
Introduction
Ocean is the source of material and energy for production and consumption.
Environmental Protection Science, 2000, 26(4): 37-39.
Advances in Water Science, 2008, 19(1) :99-105.
Hangzhou: Zhejiang Science and Technology Press, 2000.
Journal of Dalian university of technology, 2007, 47(1): 101-105.
Environmental Protection Science, 2000, 26(4): 37-39.
Advances in Water Science, 2008, 19(1) :99-105.
Hangzhou: Zhejiang Science and Technology Press, 2000.
Journal of Dalian university of technology, 2007, 47(1): 101-105.
Online since: July 2014
Authors: Ji Qiang Song
Introduction
For the pile foundation frost heave in seasonal frozen soil region, the Institute of Water Conservancy and Science in Heilongjiang province has done a lot of research on pile foundation antifreezing measures.
In the practical engineering application, in order to avoid some powder material invading the aeolian sand scope due to water flow in a horizontal, vertical seepage, then reduce the aeolian sand antifreezing effect, it should be around in sand and surface with plastic film, to ensure that the frost heaving effect of pile foundation filled aeolian sand long-term stability.
Science press, 1990
Beijing: Science press, 1991.21 ~ 29, 36-94
Journal of taiyuan university of technology, 1998, 1.
In the practical engineering application, in order to avoid some powder material invading the aeolian sand scope due to water flow in a horizontal, vertical seepage, then reduce the aeolian sand antifreezing effect, it should be around in sand and surface with plastic film, to ensure that the frost heaving effect of pile foundation filled aeolian sand long-term stability.
Science press, 1990
Beijing: Science press, 1991.21 ~ 29, 36-94
Journal of taiyuan university of technology, 1998, 1.
Online since: July 2012
Authors: Xi Zhong Shen, Wei Dong Ma, Xiao Ping Yang
Influence factors of deformation of dike are hydrogeological conditions of site, type of dike, structure and material of dike, water level, temperature and time and so on, there are many factors, correlation of factors is extra complex.
Wang, et al: Hydro-science and Engineering Vol. 3 (2006), p. 39-44, In Chinese
Jie, et al: Journal of Yangtze River Scientific Research Institute Vol. 21 (2004), p. 36-40, In Chinese
Zhou: Hydro-science and Engineering Vol. 1 (2011), p. 60-65, In Chinese
Zhao: Catastrophe theory and its application (Publishing House of Dalian University of Science and Technology, Dalian 1989), p. 20-35, In Chinese
Wang, et al: Hydro-science and Engineering Vol. 3 (2006), p. 39-44, In Chinese
Jie, et al: Journal of Yangtze River Scientific Research Institute Vol. 21 (2004), p. 36-40, In Chinese
Zhou: Hydro-science and Engineering Vol. 1 (2011), p. 60-65, In Chinese
Zhao: Catastrophe theory and its application (Publishing House of Dalian University of Science and Technology, Dalian 1989), p. 20-35, In Chinese
Online since: October 2014
Authors: Zhong Hai He, Zhen He Ma, Xin Pan Wang
Material and method
Microorganisms and medium.
The concentration of glucose and glutamic acid were determined using an SBA-40E biosensor (Biology institute of Shandong academy of sciences, Shandong, China).
Acknowledgements The research is financially supported by Natural Science Foundation of Hebei Province (F2012501023, F2013501041),National Natural Science Foundation of China (31170956), the Fundamental Research Funds for the Central Universities (N120223001), Hebei province science and technology plan projects (10276722).
Katherine Kemsley, et al: Journal of food engineering, Vol. 90 (2009), p. 300–307.
The concentration of glucose and glutamic acid were determined using an SBA-40E biosensor (Biology institute of Shandong academy of sciences, Shandong, China).
Acknowledgements The research is financially supported by Natural Science Foundation of Hebei Province (F2012501023, F2013501041),National Natural Science Foundation of China (31170956), the Fundamental Research Funds for the Central Universities (N120223001), Hebei province science and technology plan projects (10276722).
Katherine Kemsley, et al: Journal of food engineering, Vol. 90 (2009), p. 300–307.