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Online since: July 2015
Authors: Yuliarahmadila Erfen, Noorfathiah Che Ali, Nurul Farehah Amat, Zawani Mohd Zahudi, Mohd Shalahuddin Adnan
Materials and Methods
Teluk Intan is located in the state of Perak in Malaysia with 4° 2′ 0″ N latitude and 101° 1′ 0″ E longitude.
Indian Journal of Soil Conservation, 16(1) : 35-42
[7] Ferro V 1993 Rainfall intensity–duration–frequency formula for India – discussion; Journal of Hydraulic Engineering–ASCE 119 960–962
Climate Change 2007: The Physical Science Basis, pp 93-127
[12] Nguyen V T V, Nguyen T D and Wang H 1998 Regional estimation of short duration rainfall extremes; Water Science and Technology 37 15–19
Indian Journal of Soil Conservation, 16(1) : 35-42
[7] Ferro V 1993 Rainfall intensity–duration–frequency formula for India – discussion; Journal of Hydraulic Engineering–ASCE 119 960–962
Climate Change 2007: The Physical Science Basis, pp 93-127
[12] Nguyen V T V, Nguyen T D and Wang H 1998 Regional estimation of short duration rainfall extremes; Water Science and Technology 37 15–19
Online since: July 2014
Authors: Xi Yue Yang, Tong Zhu, Xiang Lou Liu
With the progress of science and technology, environmental noise automatic monitoring technology will become a trend.
Journal of Xiamen University of Technology.2013(12):57-61
Advanced Materials Research Vols. 2013(9)774-776
Object-Oriented Based CSG Modeling[J] Journal of Harbin Engineering University.
Beijing: China Environmental Science Press, 2010.
Journal of Xiamen University of Technology.2013(12):57-61
Advanced Materials Research Vols. 2013(9)774-776
Object-Oriented Based CSG Modeling[J] Journal of Harbin Engineering University.
Beijing: China Environmental Science Press, 2010.
Online since: November 2015
Authors: Jin Yang, Fa Zhou Wang, Yun Peng Liu
Raw materials and experiments
2.1 Raw materials
(1) Cement: Portland cement (PC) was used with the physical and mechanical properties listed in Table 1.
Construction and Building Materials, 2011, 25(1), pp.1-13
Construction and Building Materials, 2012, 31, pp.226-230
ACI Materials Journal, 2015, 112, pp.463-470
ACI Materials Journal, 2009, 106, pp.123-127
Construction and Building Materials, 2011, 25(1), pp.1-13
Construction and Building Materials, 2012, 31, pp.226-230
ACI Materials Journal, 2015, 112, pp.463-470
ACI Materials Journal, 2009, 106, pp.123-127
Online since: December 2004
Authors: Dun Wen Zuo, Xiang Feng Li, Wen Zhuang Lu, X.Q. Chu, Min Wang
Materials Science Forum Vols. *** (2004) pp.644-648
online at http://scientific.net
2004 Trans Tech Publications, Switzerland
Study on Hole Making in EACVD Thick Diamond Film
D.W.
In this paper, pulsed YAG laser was used to make through-holes in the EACVD thick diamond film, where the Materials Science Forum Vols. *** 645 frequency was kept constant and the pulse power was changed from 2.1J to 4.5J.
Boron concentration in source gas (ppm) Resistivity (×10-2 Ω·cm) Relative Boron cont. 30 20 10 0 Materials Science Forum Vols. *** 647 doped film, which is almost similar with un-doped one as shown in Fig.2.
No.1 No.2 0 5 10 15 20 25 30 70 250 500 I=10A I=15A Holing rate (µm/min) Pulse width (µs) 200µm Advances in Materials Manufacturing Science and Technology 648 (a) (b) Fig.9 Affected surface and its Raman spectra Conclusions Hole making experiments were carried out by means of YAG laser and EDM, where the work material used was EACVD diamond.
Materials Vols. 259-260 (2004), p. 517 [2] D.W.
In this paper, pulsed YAG laser was used to make through-holes in the EACVD thick diamond film, where the Materials Science Forum Vols. *** 645 frequency was kept constant and the pulse power was changed from 2.1J to 4.5J.
Boron concentration in source gas (ppm) Resistivity (×10-2 Ω·cm) Relative Boron cont. 30 20 10 0 Materials Science Forum Vols. *** 647 doped film, which is almost similar with un-doped one as shown in Fig.2.
No.1 No.2 0 5 10 15 20 25 30 70 250 500 I=10A I=15A Holing rate (µm/min) Pulse width (µs) 200µm Advances in Materials Manufacturing Science and Technology 648 (a) (b) Fig.9 Affected surface and its Raman spectra Conclusions Hole making experiments were carried out by means of YAG laser and EDM, where the work material used was EACVD diamond.
Materials Vols. 259-260 (2004), p. 517 [2] D.W.
Online since: April 2020
Authors: Bauyrzhan Rakhadilov, Aidar Kenesbekov, Olga Stepanova, Rauan Kozhanova
Karipbaeva, Structure and properties of sic coated R6M5 high speed steel Key engineering materials, 594-595 (2014) 730-734
Muthirulandi, Studies of calcium-precipitating oral bacterial adhesion on TiN,TiO2 single layer, and TiN/TiO2 multilayercoated 316L SS Journal of Materials Science 49 (2014) 7172-7180
Physics of radiation damage and radiation materials science. 2006, pp. 185-190
Physics of radiation damage and radiation materials science, 2007, pp. 203-214
Obtaining composite coatings from plasma flows of a vacuum arc using RF voltage, Materials scientific. conf.
Muthirulandi, Studies of calcium-precipitating oral bacterial adhesion on TiN,TiO2 single layer, and TiN/TiO2 multilayercoated 316L SS Journal of Materials Science 49 (2014) 7172-7180
Physics of radiation damage and radiation materials science. 2006, pp. 185-190
Physics of radiation damage and radiation materials science, 2007, pp. 203-214
Obtaining composite coatings from plasma flows of a vacuum arc using RF voltage, Materials scientific. conf.
Online since: December 2011
Authors: Waldemar Serbiński, Beata Majkowska
There are different methods for improve propeller’s properties and prolong their exploitation time:
- improve their design,
- applying new materials,
- improving methods and technologies for strengthening the materials used for propellers.
Serbiński: Cavitation behaviour of the SUPERSTON alloy after laser treatment, Journal of Achievements in Materials and Manufacturing Engineering, vol. 26, iss. 2 (2008), 199-202 [2] B.
Serbiński: Microstructural aspects of corrosion of the SUPERSTON alloy after laser treatment, Advances in Materials Science, vol. 7, iss. 2 (2007), 141-146 [3] J.
Kusiński: Laser technology in surface treatment processes and synthesis of materials, present condition and prospects of development, Materials Engineering (in Polish), XXIII 5 (2002), 577 – 582 [4] W.
Druet: Microstructure and wear of cast aluminium alloy with laser modified surface layer, Advances and Materials Science 4 (2003), 71 – 80 [5] H.
Serbiński: Cavitation behaviour of the SUPERSTON alloy after laser treatment, Journal of Achievements in Materials and Manufacturing Engineering, vol. 26, iss. 2 (2008), 199-202 [2] B.
Serbiński: Microstructural aspects of corrosion of the SUPERSTON alloy after laser treatment, Advances in Materials Science, vol. 7, iss. 2 (2007), 141-146 [3] J.
Kusiński: Laser technology in surface treatment processes and synthesis of materials, present condition and prospects of development, Materials Engineering (in Polish), XXIII 5 (2002), 577 – 582 [4] W.
Druet: Microstructure and wear of cast aluminium alloy with laser modified surface layer, Advances and Materials Science 4 (2003), 71 – 80 [5] H.
Online since: January 2012
Authors: Jing Jing Li, Guang Ying Gao, Yu Fei Wang, Lin Guo
There is an enormous range of materials available for sealing purposes in construction, representing the widely different requirements of individual situations.
All materials were used as received.
Influence of feeding mode There are many feeding ways for emulsion polymerization such as joining all raw materials in one time (batch); raw all of adding all raw materials continuously (all dropping) and joining a part of raw materials and dropping the rest (semi-dropping) etc.
Iglauer: International Journal of Adhesion & Adhesives Vol. 26 (2006), p. 555 [2] M.
Chew: Polymer Testing Vol. 19 (2000), p. 643 [3] Creton, C. in: Materials Science and Pressure-Sensitive Adhesives; Meijer, H.
All materials were used as received.
Influence of feeding mode There are many feeding ways for emulsion polymerization such as joining all raw materials in one time (batch); raw all of adding all raw materials continuously (all dropping) and joining a part of raw materials and dropping the rest (semi-dropping) etc.
Iglauer: International Journal of Adhesion & Adhesives Vol. 26 (2006), p. 555 [2] M.
Chew: Polymer Testing Vol. 19 (2000), p. 643 [3] Creton, C. in: Materials Science and Pressure-Sensitive Adhesives; Meijer, H.
Online since: September 2011
Authors: Khairul Anuar Kassim, Felix N.L. Ling, Ahmad Tarmizi Abdul Karim
Traditionally, size distribution was determined through mechanical sieving for coarse grained material and sedimentation for fine grained material.
However, Fraunhofer approximation model will lead to an incorrect assessment of fine fraction if the material contains particle less than 2 micron. [2] Mie theory, which combine diffraction and scattering in the model, is a better choice when the particle size is smaller than the wavelength of laser light. [4] Materials and Experimental Programme Nine types/batches of commercial grade processed kaolin marketed by Kaolin (M) Sdn.
The particle size distribution of the materials were determined using wet dispersion mode in which distilled water was used as dispersing liquid and sodium hexametaphosphate (SHMP) was used as dispersing agent to ensure separation or dispersion of kaolin particles.
Sasaki: The Rigaku Journal Vol. 22, No. 1 (2005), p. 31-38 [4] Information on http://www.cilas.com [5] M.
Murray: Applied Clay Science Vol.6 (1991), p. 87-119
However, Fraunhofer approximation model will lead to an incorrect assessment of fine fraction if the material contains particle less than 2 micron. [2] Mie theory, which combine diffraction and scattering in the model, is a better choice when the particle size is smaller than the wavelength of laser light. [4] Materials and Experimental Programme Nine types/batches of commercial grade processed kaolin marketed by Kaolin (M) Sdn.
The particle size distribution of the materials were determined using wet dispersion mode in which distilled water was used as dispersing liquid and sodium hexametaphosphate (SHMP) was used as dispersing agent to ensure separation or dispersion of kaolin particles.
Sasaki: The Rigaku Journal Vol. 22, No. 1 (2005), p. 31-38 [4] Information on http://www.cilas.com [5] M.
Murray: Applied Clay Science Vol.6 (1991), p. 87-119
Online since: April 2014
Authors: U. Hashim, Kai Long Foo, R. Haarindra Prasad
Methods and materials
P-type silicon wafer with orientation <001> is cleaned by immersing in RCA 1, RCA 2 and BOE solution to remove foreign substances.
The European Physical Journal B.85(8) (2012) 1-5
Materials Science and Engineering: B 118(1) (2005) 44-49
ZnO Nanoneedles Grown Vertically on Si Substrates by Non‐Catalytic Vapor‐Phase Epitaxy.Advanced Materials. 14(24) (2002) 1841-1843
Synthesis of nanocrystalline ZnO powder via sol–gel route for dye-sensitized solar cells.Solar Energy Materials and Solar Cells, 92(12) (2008) 1639-1645.
The European Physical Journal B.85(8) (2012) 1-5
Materials Science and Engineering: B 118(1) (2005) 44-49
ZnO Nanoneedles Grown Vertically on Si Substrates by Non‐Catalytic Vapor‐Phase Epitaxy.Advanced Materials. 14(24) (2002) 1841-1843
Synthesis of nanocrystalline ZnO powder via sol–gel route for dye-sensitized solar cells.Solar Energy Materials and Solar Cells, 92(12) (2008) 1639-1645.
Online since: October 2011
Authors: Rita T. Abdulmunam, Luay Yassin Taha, Paul Ivey
The best material that can be used for the electrodes is silver as it has a higher conductivity, reliability, stability and it can handle high voltage up to 100 V when compared to the other common capacitor materials.
Capacitor electrodes are made of conducting materials.
The common materials reported in the literature are aluminum, tantalum, silver, brass, carbon nanotube and copper [18, 19, 20, 21, 22].
The assessment of using these materials is based on material conductivity, thermal conductivity, cost of material and the equivalent series resistor [18].
The best material that used for the electrodes is silver as it has a higher conductivity, reliability, stability and it can handle high voltage up to 100 V as compared to the other common capacitor materials.
Capacitor electrodes are made of conducting materials.
The common materials reported in the literature are aluminum, tantalum, silver, brass, carbon nanotube and copper [18, 19, 20, 21, 22].
The assessment of using these materials is based on material conductivity, thermal conductivity, cost of material and the equivalent series resistor [18].
The best material that used for the electrodes is silver as it has a higher conductivity, reliability, stability and it can handle high voltage up to 100 V as compared to the other common capacitor materials.