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Online since: March 2019
Authors: Sutichai Chaisitsak, Buaworn Chaitongrat
Experimental Methods
Materials and Synthesis.
As the dry method, CNTs connected Fe2O3 NPs and a lot of space in materials.
The reducing in resistance of composite materials can be explained based on the reaction of material sensing (n-type) and LPG (reducing gas).
Laasonen: Journal of Materials Chemistry A Vol. 4 (2016), p. 5216-5222
Leite: Solar energy materials and solar cells Vol. 93 (2009), p. 362-368
As the dry method, CNTs connected Fe2O3 NPs and a lot of space in materials.
The reducing in resistance of composite materials can be explained based on the reaction of material sensing (n-type) and LPG (reducing gas).
Laasonen: Journal of Materials Chemistry A Vol. 4 (2016), p. 5216-5222
Leite: Solar energy materials and solar cells Vol. 93 (2009), p. 362-368
Online since: March 2007
Authors: Zlatko Kampuš, Boštjan Berginc, Borivoj Šuštaršič
For this purpose the versatile Taguchi method, which is often used also in
injection molding of powder materials, was used [6, 7].
B 0.0232 1 0.0232109 690.842954 46.69 Material temp.
Statistical analysis of process parameters influencing dimensional control in ceramic injection molding, Journal of Materials Processing Technology 1998, 79, p. 242 250
Polymer Engineering and Science, Volume 31, Issue 15, p. 1137-1148
Sintering study of 316L stainless steel metal injection molding parts using Taguchi method: final density, Material science and Engineering 2001, A311, p. 74-82
B 0.0232 1 0.0232109 690.842954 46.69 Material temp.
Statistical analysis of process parameters influencing dimensional control in ceramic injection molding, Journal of Materials Processing Technology 1998, 79, p. 242 250
Polymer Engineering and Science, Volume 31, Issue 15, p. 1137-1148
Sintering study of 316L stainless steel metal injection molding parts using Taguchi method: final density, Material science and Engineering 2001, A311, p. 74-82
Online since: October 2014
Authors: Radim Čajka, Jana Labudková
International Journal of Mechanics, 2014 (in print)
Key Engineering Materials, Vols. 577-578, (2014), pp 33-36, doi:10.4028/www.scientific.net/KEM.577-578.33
Advanced Materials Research.
Recent Researches in Environmental & Geological Sciences.
Applied Mechanics and Materials.
Key Engineering Materials, Vols. 577-578, (2014), pp 33-36, doi:10.4028/www.scientific.net/KEM.577-578.33
Advanced Materials Research.
Recent Researches in Environmental & Geological Sciences.
Applied Mechanics and Materials.
Online since: March 2026
Authors: Nikolaos Alexios Stefanis, Styliani Papatzani, Georgios Pepas, Aristea Anna Rosa, Petroula Stefania Stefani
Experimental Procedure
Materials.
Materials used in kg per cubic meter of concrete.
[Mass (kg) of materials expressed per m3 of concrete (except other denoted)].
Aslanis, “The Effect of Nanosilica on the Fresh Properties of Sustainable Self-Compacting Concrete,” Materials Science Forum, 2024
Under review,” in The 9th International Conference on Building Materials and Materials Engineering (ICBMM 2025), 2025
Materials used in kg per cubic meter of concrete.
[Mass (kg) of materials expressed per m3 of concrete (except other denoted)].
Aslanis, “The Effect of Nanosilica on the Fresh Properties of Sustainable Self-Compacting Concrete,” Materials Science Forum, 2024
Under review,” in The 9th International Conference on Building Materials and Materials Engineering (ICBMM 2025), 2025
Online since: October 2010
Authors: Dong Ping Zhang, Ping Fan, Zhuang Hao Zheng, Xing Min Cai, Liang Mao, Tian Bao Chen, Jing Rong Chi
The fundamental absorption edge in transmittance spectra often associates with the band gap of materials.
Photoluminescence spectroscopy is a nondestructive method of probing the electronic structure of materials.
Ernst, M.Grade, D.Hofmann, S.Krebs, R.Littbarski, G.Neumann, M.Grunze, D.Kolb, H.J.Schulz, Current Topics in Materials Science, Vol.7(North-Holland, Amsterdam, 1981) [2] D.Look, D.Reynolds, J.Sizelove, R.Jones, C.Litton, G.Cantwe, W.
Steiner, Materials today (June 2004) 34-40
Phillips, Journal of electronic materials, Vol. 34, No.6, 2005
Photoluminescence spectroscopy is a nondestructive method of probing the electronic structure of materials.
Ernst, M.Grade, D.Hofmann, S.Krebs, R.Littbarski, G.Neumann, M.Grunze, D.Kolb, H.J.Schulz, Current Topics in Materials Science, Vol.7(North-Holland, Amsterdam, 1981) [2] D.Look, D.Reynolds, J.Sizelove, R.Jones, C.Litton, G.Cantwe, W.
Steiner, Materials today (June 2004) 34-40
Phillips, Journal of electronic materials, Vol. 34, No.6, 2005
Online since: May 2019
Authors: Jae Hyeong Seo, Moo Yeon Lee, Namwon Kim
In general, conventional insulation materials such as polyurethane foam, mineral wool, etc. are used for insulation of the thermal storage tank.
However, it is hard to expert high performance of the thermal storage tank due to the high thermal conductivity of their conventional insulation materials and relatively thick insulation part in the thermal storage system.
Therefore, new insulation materials are being developed to improve the insulation performance of thermal storage tank [1-2].
Konicek: International Journal of Heat and Mass Transfer Vol. 98 (1976), pp. 189-193 [5] T.
Tanahashi: International journal of Applied Electromagnetics in Materials Vol. 4 (1994), pp. 329-335 [6] H.
However, it is hard to expert high performance of the thermal storage tank due to the high thermal conductivity of their conventional insulation materials and relatively thick insulation part in the thermal storage system.
Therefore, new insulation materials are being developed to improve the insulation performance of thermal storage tank [1-2].
Konicek: International Journal of Heat and Mass Transfer Vol. 98 (1976), pp. 189-193 [5] T.
Tanahashi: International journal of Applied Electromagnetics in Materials Vol. 4 (1994), pp. 329-335 [6] H.
Online since: March 2014
Authors: Hisatake Itoga, Hisao Matsunaga, Saburo Matsuoka
Experimental
Material.
Acknowledgement This research has been conducted as a part of "Fundamental Research Project on Advanced Hydrogen Science (2006-2012)" funded by New Energy and Industrial Technology Development Organization (NEDO).
Murakami, Influence of Hydrogen and Frequency on Fatigue Crack Growth Behavior of Cr-Mo Steel, International Journal of Fracture, Vol. 168 (2011) pp. 101-112
Endo, Determination of the Cyclic Stress-Strain Curve, Journal of Materials, Vol. 4, No. 1 (1969) 176-188
Matsuoka, Hydrogen Embrittlement Mechanism in Fatigue of Austenitic Stainless Steels, Metallurgical and Materials Transactions A, Vol. 39A (2008) 1327-1339
Acknowledgement This research has been conducted as a part of "Fundamental Research Project on Advanced Hydrogen Science (2006-2012)" funded by New Energy and Industrial Technology Development Organization (NEDO).
Murakami, Influence of Hydrogen and Frequency on Fatigue Crack Growth Behavior of Cr-Mo Steel, International Journal of Fracture, Vol. 168 (2011) pp. 101-112
Endo, Determination of the Cyclic Stress-Strain Curve, Journal of Materials, Vol. 4, No. 1 (1969) 176-188
Matsuoka, Hydrogen Embrittlement Mechanism in Fatigue of Austenitic Stainless Steels, Metallurgical and Materials Transactions A, Vol. 39A (2008) 1327-1339
Online since: August 2010
Authors: Shi Hong Zhang, Zhong Tang Wang, Guang Xia Qi
( )( ) 5.0
,
exp1 ≤
−
= ασ
σε RTQ
A n� (1)
( ) ( )[ ] 6.1,
exp
exp2 ≥
−
= ασ
σα
ε RTQnA� (2)
( )( ) valueallRTQ
A
n
,
exp)][sinh( −
= ασ
ε� (3)
Where,
n
AA α=1 , nAA
−
= 22 ;ε� , strain-rate (S-1);Q, energy of thermal activation (J/mol), being
relationship with materials ; σ, flow stress(MPa) ; n, stress exponent ; T, temperature(K);
R =8.314J/mol·K, constant; A, constant being relationship with materials.
Materials at High Temperatures Vol.19 №4 (2002),p.165-185 [2] Q.Liu, Z.Fu, S.Wu.
Journal of Materials Engineering and Performance Vol.6 №4 (1997), p.545-548 [3] Y.Zhou, Y.G.Zhou, H.Q.Yu.
Acta Metallurgica Sinica (English Edition), Series A: Physical Metallurgy & Materials Science Vol.5A №5 (1992), p.341-344 [4] Sun Xinjun, Bai Bingzhe, Gu Jialin.
Materials Science and Engineering A Vol.77 (1986),p.103-113
Materials at High Temperatures Vol.19 №4 (2002),p.165-185 [2] Q.Liu, Z.Fu, S.Wu.
Journal of Materials Engineering and Performance Vol.6 №4 (1997), p.545-548 [3] Y.Zhou, Y.G.Zhou, H.Q.Yu.
Acta Metallurgica Sinica (English Edition), Series A: Physical Metallurgy & Materials Science Vol.5A №5 (1992), p.341-344 [4] Sun Xinjun, Bai Bingzhe, Gu Jialin.
Materials Science and Engineering A Vol.77 (1986),p.103-113
Online since: April 2009
Authors: Ning Sun, Diran Apelian
Materials Science and Engineering A323, 160-166
Materials Science and Engineering A, 341(1-2), pp. 307-310
Journal of Materials Science Letters 21, 1473-1476
[7] Mishra, R.S., Ma, Z.Y., Sharma, S.R. and Mahoney, M.W. (2006) Microstructural modification of cast aluminum alloys via FSP. (2003) Materials Science Forum, 2003 Vol. 426-432, p 2891-2896
Materials Science and Engineering A433 269-278
Materials Science and Engineering A, 341(1-2), pp. 307-310
Journal of Materials Science Letters 21, 1473-1476
[7] Mishra, R.S., Ma, Z.Y., Sharma, S.R. and Mahoney, M.W. (2006) Microstructural modification of cast aluminum alloys via FSP. (2003) Materials Science Forum, 2003 Vol. 426-432, p 2891-2896
Materials Science and Engineering A433 269-278
Online since: May 2012
Authors: Xi Bing Hu, Peng Zhou
Steel Beam-to-Column Building Connections (Elsevier Science Publishing Co., INC.
Journal of Structural Engineering, January 2000: p.50 [3] W.F.
Journal of Constructional Steel Research, Vol.47, (1998), p.119 [6] Xibing Hu, Pusheng Shen, Xingping Shu.
Journal of Engineering Mechanics, Vol.24, (2007), p.24 [7] Xingping Shu, Pusheng Shen, Shouping Shang.
Journal of Steel Structure, Vol.14, (1999), p.19
Journal of Structural Engineering, January 2000: p.50 [3] W.F.
Journal of Constructional Steel Research, Vol.47, (1998), p.119 [6] Xibing Hu, Pusheng Shen, Xingping Shu.
Journal of Engineering Mechanics, Vol.24, (2007), p.24 [7] Xingping Shu, Pusheng Shen, Shouping Shang.
Journal of Steel Structure, Vol.14, (1999), p.19