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Online since: January 2010
Authors: Shih Jeh Wu, Chao Wei Du, Chen Ming Kuo
One of the most popular Fe-Co-Ni based superalloy is the Hastelloy X [8-10]
material.
Donachie, Superalloys A Technical Guide, second ed., ASM International, Materials Park, OH, USA, 2002
Williams, "Joining of Hastelloy X to Inconel 718 using an infrared process," Journal of Materials Processing Technology, vol. 58, pp. 32-38, 1994
Ravikumar, "Phase precipitation and time-temperature-transformation diagram of Hastelloy X," Materials Science and Engineering, vol.
[12] ASTM E8M-04, "Standard Test Method for Tension Testing of Metallic Materials," ASTM International
Donachie, Superalloys A Technical Guide, second ed., ASM International, Materials Park, OH, USA, 2002
Williams, "Joining of Hastelloy X to Inconel 718 using an infrared process," Journal of Materials Processing Technology, vol. 58, pp. 32-38, 1994
Ravikumar, "Phase precipitation and time-temperature-transformation diagram of Hastelloy X," Materials Science and Engineering, vol.
[12] ASTM E8M-04, "Standard Test Method for Tension Testing of Metallic Materials," ASTM International
Online since: August 2013
Authors: M.E. Haque, K.V. Sudhakar
Pure titanium and Ti-6Al-4V alloy have been mainly used as implant materials.
As a result, they are now recognized as advanced materials for orthopedic applications.
Yashiro, Design and mechanical properties of new β type titanium alloys for implant materials, Mater.
Sudhakar, Kallen Konen, Keeley Floreen, Beta-titanium biomedical alloy: Effect of thermal processing on mechanical properties, Journal of Archives of Metallurgy and Materials, 57(3), (2012), 753-757 [14] M.
Sudhakar, ANN-based Prediction Model for Fatigue Crack Growth in DP Steel, International Journal of Fatigue & Fracture of Engineering Materials and Structures, 24 (1), (2001), p 63-68 [16] S.E.
As a result, they are now recognized as advanced materials for orthopedic applications.
Yashiro, Design and mechanical properties of new β type titanium alloys for implant materials, Mater.
Sudhakar, Kallen Konen, Keeley Floreen, Beta-titanium biomedical alloy: Effect of thermal processing on mechanical properties, Journal of Archives of Metallurgy and Materials, 57(3), (2012), 753-757 [14] M.
Sudhakar, ANN-based Prediction Model for Fatigue Crack Growth in DP Steel, International Journal of Fatigue & Fracture of Engineering Materials and Structures, 24 (1), (2001), p 63-68 [16] S.E.
Online since: June 2014
Authors: Odd Sture Hopperstad, Stéphane Dumoulin, Mikhail Khadyko
Birkelands vei 1a, NO-7491 Trondheim, Norway
2 SINTEF Materials & Chemistry, P.O.
Le Journal de Physique IV (1998) 8 Pr8-151-Pr158-158
Science (2003) 301 1879-1882
An experimental-numerical method to determine the work-hardening of anisotropic ductile materials at large strains.
Submitted for possible journal publication (2014)
Le Journal de Physique IV (1998) 8 Pr8-151-Pr158-158
Science (2003) 301 1879-1882
An experimental-numerical method to determine the work-hardening of anisotropic ductile materials at large strains.
Submitted for possible journal publication (2014)
Online since: July 2015
Authors: Shruti Sinha, Shyam Aravamudhan, Karshak Kosaraju
Many studies have shown that properties of materials at nano scale differ from those in bulk form [1].
Materials and Methods Fig.1 Shows SEM image of single strand of MWCNTs.
"Dispersion of Carbon Nanotubes in Liquids", Journal of Dispersion Science andTechnology, 2003 [5] Ordoñez-Casanova, Elsa, Manuel Román- Aguirre, Alfredo Aguilar-Elguezabal, and Francisco Espinosa-Magaña.
"Synthesis of Carbon Nanotubes of Few Walls Using Aliphatic Alcohols as a Carbon Source", Materials, 2013
"Advanced Electronics: Looking beyond Silicon", AdvancedEnergy Materials, 2014
Materials and Methods Fig.1 Shows SEM image of single strand of MWCNTs.
"Dispersion of Carbon Nanotubes in Liquids", Journal of Dispersion Science andTechnology, 2003 [5] Ordoñez-Casanova, Elsa, Manuel Román- Aguirre, Alfredo Aguilar-Elguezabal, and Francisco Espinosa-Magaña.
"Synthesis of Carbon Nanotubes of Few Walls Using Aliphatic Alcohols as a Carbon Source", Materials, 2013
"Advanced Electronics: Looking beyond Silicon", AdvancedEnergy Materials, 2014
Online since: July 2022
Authors: Luigi Tricarico, Maria Emanuela Palmieri
Journal of Materials Processing Technology 210.15 (2010): 2103-2118
Journal of the Chinese Institute of Engineers 42.6 (2019): 479-487
IOP Conference Series: Materials Science and Engineering.
EDP Sciences, 2016
International Journal of Heat and Mass Transfer 171 (2021): 121082.
Journal of the Chinese Institute of Engineers 42.6 (2019): 479-487
IOP Conference Series: Materials Science and Engineering.
EDP Sciences, 2016
International Journal of Heat and Mass Transfer 171 (2021): 121082.
Online since: October 2022
Authors: Zhi Chao Xu, Wen Peng Yang, Liang Chen, Hong Bao Cui, Xue Feng Guo, Ying Wang
Effects of Texture on Tensile Properties of Hot Extruded
Mg-6Zn-1Y-1Ce Alloy
Liang Chen1,a, Wen-Peng Yang1,2,b *, Hong-Bao Cui1,2,c, Zhi-Chao Xu1,2,d,
Ying Wang1,2,e and Xue-Feng Guo1,2,f
1School of Materials Science and Engineering, Henan Polytechnic University, Jiaozuo, Henan 454000, China
2Henan International Joint Research Laboratory for High-Performance Light Metallic Materials and Numerical Simulations, Jiaozuo, Henan 454000, China
acl721@hpu.edu.cn, bwenpengy@hpu.edu.cn, ccuihongbao@hpu.edu.cn
dxzc@hpu.edu.cn, elxcwy@hpu.edu.cn, fguoxuefeng@hpu.edu.cn
Keywords: Magnesium alloy, extrusion, texture, recrystallization, mechanical properties
Abstract.
%Ce alloys were used as raw materials to prepare Mg-6Zn-1Y-1Ce (nominal composition in wt.%) alloy.
Corrosion Science 86 (2014) 1–16
Shechtman, Extruded high-strength solid materials based on magnesium with zinc, yttrium, and cerium additives.
Journal of Materials Science, 10(2012):585-597
%Ce alloys were used as raw materials to prepare Mg-6Zn-1Y-1Ce (nominal composition in wt.%) alloy.
Corrosion Science 86 (2014) 1–16
Shechtman, Extruded high-strength solid materials based on magnesium with zinc, yttrium, and cerium additives.
Journal of Materials Science, 10(2012):585-597
Online since: July 2012
Authors: Kanatip Kumproa, Suttipong Singhykaew, Apinon Nuntiya
Effects of Reaction Time and Hydrochloric Acid Concentration on Acid Hydrolysis of Rice Husk by Reflux Method
Kanatip Kumproa1, a, Suttipong Singhykaew 2, b and, Apinon Nuntiya 2,c
1Department of Physics and Materials Science, Faculty of Science,
Chiang Mai University, Chiang Mai, Thailand
2Department of Industrial Chemistry, Faculty of Science,
Chiang Mai University, Chiang Mai, Thailand
akenkanatip@gmail.com, bdigitalaui@hotmail.com, cnuntiyaapinon@gmail.com
Keywords: Rice husk, Cellulose, Hydrolysis, Reflux method, UV spectrophotometer
Abstract.
Lignin is an aromatic and well-known polymer for its ability to be used as a materials for many applications.
Materials Rice husk (Chiang Mai, Thailand) was dried at 60oC [9] for 1 h.
Acknowledgements The authors would like to acknowledge Department of Industrial Chemistry and Department of Physics and Materials Science, Faculty of Science and the Graduate School, Chiang Mai University, Thailand and Science Achievement Scholarship of Thailand (SAST) for chemical materials and financial support of this work.
Xu: Biochemical Engineering Journal Vol. 38 (2008), p. 105 - 109 [7] P.
Lignin is an aromatic and well-known polymer for its ability to be used as a materials for many applications.
Materials Rice husk (Chiang Mai, Thailand) was dried at 60oC [9] for 1 h.
Acknowledgements The authors would like to acknowledge Department of Industrial Chemistry and Department of Physics and Materials Science, Faculty of Science and the Graduate School, Chiang Mai University, Thailand and Science Achievement Scholarship of Thailand (SAST) for chemical materials and financial support of this work.
Xu: Biochemical Engineering Journal Vol. 38 (2008), p. 105 - 109 [7] P.
Online since: March 2020
Authors: Henry Ayu Kartikasari, Nova Alviati, Soni Sisbudi Harsono, Agus Geter Edy Sutjipto, Edy Supriyanto
Investigation Simulation Based on Bio-Energy Local Area Photosensitizer in Increasing Dye-Sensitized Solar Cells (DSSC) Performance
Edy Supriyanto1,a*, Henry Ayu Kartikasari1,b, Nova Alviati1,c, Soni Sisbudi Harsono2,d and Agus Geter Edy Sutjipto3,e
1Physics Departement, Faculty of Mathematics and Natural Sciences, University of Jember, Kalimantan street 37, Jember 68121, Indonesia
2Department of Agricultural Engineering, Faculty of Agricultural Technology, University of Jember, Kalimantan street 37, Jember 68121, Indonesia
3Faculty of Industrial Sciences & Technology, Universiti Malaysia Pahang, Lebuhraya Tun Razak 26300 Kuantan, Pahang Darul Makmur
a*edysupriyanto@unej.ac.id, bhenryayu1519@gmail.com, cnovaalviati11@gmail.com, ds_harsono@yahoo.com, eagusgeter@ump.edu.my
Keywords: bio-energy local area, photosensitizer, DSSC efficiency, absorption coefficient.
One of the main considerations in selecting the optimal photosensitizer is how capable a material can absorb sunlight with a certain wavelength [6].
, Prem., Optical Absorbances and Fluorescence of Natural Dyes: Prospect of Application in Dyes Sensitized Solar Cell and OLEDs, Journal of Pharmaceutical, Biological, and Chemical Sciences, ISSN: 0975-8585, (2015) [11] Chirazo, B., Pogrebnoi, A., Impact of extraction Methods Upon Light Absorbances of Natural Organics Dyes for Dyes Sensitized Solar Cells Application.
Journal of Energy and Natural Resources, Doi: 10.11648/j.jenr.20140303.13, ISSN: 2330-7366 (2014) [12] Tayyan, Ahmed A El., Dye-Sensitized Solar Cell: Parameters Calculation and Model Integration, Journal of Electron Devices 11: 616–24 (2011) [13] Norasikin, A., Mahmoud, A., Abu Bakar M., et all., Utilization of Natural Dyes from Zingiber Officinale Leaf and Clitoria Ternatea Flowers to Prepare New Photosensitizers for Dye-Sensitized Solar Cells.
International Journal of Electrochemical Science, Doi: 10.20964/2018.08.04 (2018) [14] Supriyanto, E., H.
One of the main considerations in selecting the optimal photosensitizer is how capable a material can absorb sunlight with a certain wavelength [6].
, Prem., Optical Absorbances and Fluorescence of Natural Dyes: Prospect of Application in Dyes Sensitized Solar Cell and OLEDs, Journal of Pharmaceutical, Biological, and Chemical Sciences, ISSN: 0975-8585, (2015) [11] Chirazo, B., Pogrebnoi, A., Impact of extraction Methods Upon Light Absorbances of Natural Organics Dyes for Dyes Sensitized Solar Cells Application.
Journal of Energy and Natural Resources, Doi: 10.11648/j.jenr.20140303.13, ISSN: 2330-7366 (2014) [12] Tayyan, Ahmed A El., Dye-Sensitized Solar Cell: Parameters Calculation and Model Integration, Journal of Electron Devices 11: 616–24 (2011) [13] Norasikin, A., Mahmoud, A., Abu Bakar M., et all., Utilization of Natural Dyes from Zingiber Officinale Leaf and Clitoria Ternatea Flowers to Prepare New Photosensitizers for Dye-Sensitized Solar Cells.
International Journal of Electrochemical Science, Doi: 10.20964/2018.08.04 (2018) [14] Supriyanto, E., H.
Online since: June 2012
Authors: Long Mei Wang, Xiao Liu
Li: Materials Science and Engineering A, Vol. 452–453 (2007), p. 149
Wu: Materials Science and Engineering A, Vol. 354 (2003), p. 82
Pettersson: Materials Science and Engineering A, Vol. 397 (2005) p. 376
Kherrouba: Materials Science and Engineering A, Vol. 496 (2008) p. 447
Yang: Materials Science and Engineering A, Vol. 338 (2002), p. 259
Wu: Materials Science and Engineering A, Vol. 354 (2003), p. 82
Pettersson: Materials Science and Engineering A, Vol. 397 (2005) p. 376
Kherrouba: Materials Science and Engineering A, Vol. 496 (2008) p. 447
Yang: Materials Science and Engineering A, Vol. 338 (2002), p. 259
Online since: December 2007
Authors: Elena Zasimchuk, Yuri Gordienko, Jürgen Schreiber, Pavel V. Kuznetsov, Vladimir Karbovsky, Rimma Gontareva
Extensions of these experiments for
different materials and deformation conditions will be necessary to investigate more thoroughly the
mechanisms of self-organization and possible universality in the surface pattern formation.
Gontareva: Journal of Materials Science Letters, 22 (2003), pp. 241-245
Ryum: Materials Science and Engineering, 219 (1996), pp. 1-10
Zasimchuk: Advanced Engineering Materials, Volume 8, Issue 10 (2006), pp. 957-960
Fukuda: Science, 268 (1995), pp. 1466-1468.
Gontareva: Journal of Materials Science Letters, 22 (2003), pp. 241-245
Ryum: Materials Science and Engineering, 219 (1996), pp. 1-10
Zasimchuk: Advanced Engineering Materials, Volume 8, Issue 10 (2006), pp. 957-960
Fukuda: Science, 268 (1995), pp. 1466-1468.