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Online since: February 2011
Authors: Ziad K. Awad, Talal F. Yusaf
Fibre composite materials have become an important target for the solution of degradation problems in conventional structural materials such as steel, wood and concrete [1].
GFRP materials will loss the strength when the temperature exceeds 600 C0 as shown in Fig. 5 and Fig. 6.
The materials mechanical properties are shown in Table 1.
Hamelin, Composites Science and Technology, 61 (2001) 425-431
Kodur, Progress in Structural Engineering and Materials, 7 (2005) 136-149.
GFRP materials will loss the strength when the temperature exceeds 600 C0 as shown in Fig. 5 and Fig. 6.
The materials mechanical properties are shown in Table 1.
Hamelin, Composites Science and Technology, 61 (2001) 425-431
Kodur, Progress in Structural Engineering and Materials, 7 (2005) 136-149.
Online since: June 2020
Authors: Liang Chen, Jian Guang Zhao, Ping Zhu, Yan Zhang Liu, Jian Lu Shang
References
[1] X-J Zhang, S-Y Tang, H-Y Zhao, et al, Research status and key technologies of 3D printing[J], Journal of Materials Engineering, (44)2016:122~128;
[2] Sun J-F, Yang Z, Yang Y-Q, et al, Microstructures and properties of porous filter parts of selective laser melted 316L stainless steel [J], Journal of South China Agricultural University, 2016, 37( 4) : 124-127;
[3] R.Casati, J.Lemke, M.Vedani, et al, Microstructure and Fracture Behavior of 316L Austenitic Stainless Steel Produced by Selective Laser Melting[J], Journal of Materials Science & Technology: 32 (2016) 738–744;
[4] Sun Z, Tan X, Tor S B, et al.
Materials Science and Technology, 2019, 27(02):7-21; [7] SHEN Q, YU S, NIU J-L, etal.
Selective Laser Melting of Magnesium-based Materials: a Review[J], Materials Reports, 2019(S1); [8] LIU J,GU D-D,CHEN H-Y, et al.
Journal of Nuclear Materials[J], 470 (2016) 170~178; [10] YANG J-M, TANG Y, GU H, et al.
Journal of Materials Processing Technology, 2009, 209(17):5793-5801; [13] Xie J.
Materials Science and Technology, 2019, 27(02):7-21; [7] SHEN Q, YU S, NIU J-L, etal.
Selective Laser Melting of Magnesium-based Materials: a Review[J], Materials Reports, 2019(S1); [8] LIU J,GU D-D,CHEN H-Y, et al.
Journal of Nuclear Materials[J], 470 (2016) 170~178; [10] YANG J-M, TANG Y, GU H, et al.
Journal of Materials Processing Technology, 2009, 209(17):5793-5801; [13] Xie J.
Online since: March 2017
Authors: Faridah Yusof, Nadzril Sulaiman, Mohammad Omer Faruck, Silvia Chowdhury
Materials and method
For silver nanoparticle (AgNPs), typically the experiment mention in [16, 17], begins with 20 mL of 0.001M AgNO3 kept stirring at 90°C for 5 mins on a hot plate.
Lu, "Size Effects of Pt Nanoparticle/Graphene Composite Materials on the Electrochemical Sensing of Hydrogen Peroxide," Journal of Nanomaterials, vol. 2015, 2015
Holt-Hindle, "Platinum-based nanostructured materials: synthesis, properties, and applications," Chem.
Sidhu, "Effect of application time of colloidal platinum nanoparticles on the microtensile bond strength to dentin," Dental materials journal, vol. 29, pp. 682-689, 2010
Yang, "Bimetallic Ag–hollow Pt heterodimers via inside-out migration of Ag in core–shell Ag–Pt nanoparticles at elevated temperature," Journal of Materials Chemistry A, vol. 2, pp. 7075-7081, 2014
Lu, "Size Effects of Pt Nanoparticle/Graphene Composite Materials on the Electrochemical Sensing of Hydrogen Peroxide," Journal of Nanomaterials, vol. 2015, 2015
Holt-Hindle, "Platinum-based nanostructured materials: synthesis, properties, and applications," Chem.
Sidhu, "Effect of application time of colloidal platinum nanoparticles on the microtensile bond strength to dentin," Dental materials journal, vol. 29, pp. 682-689, 2010
Yang, "Bimetallic Ag–hollow Pt heterodimers via inside-out migration of Ag in core–shell Ag–Pt nanoparticles at elevated temperature," Journal of Materials Chemistry A, vol. 2, pp. 7075-7081, 2014
Online since: January 2007
Authors: Jan Kazior, Tadeusz Pieczonka
Dimensional behaviour of all those materials during the sintering cycle was
monitored by dilatometry.
Dilatometry for investigated materials.
Saritas, Advances in Powder Metallurgy and Particulate Materials, Ed.
Asaka, Advances in Powder Metallurgy and Particulate Materials, New York 2000, MPIF, vol.5, 9-19
Kamatsu, Advances in Powder Metallurgy and Particulate Materials, Proc.
Dilatometry for investigated materials.
Saritas, Advances in Powder Metallurgy and Particulate Materials, Ed.
Asaka, Advances in Powder Metallurgy and Particulate Materials, New York 2000, MPIF, vol.5, 9-19
Kamatsu, Advances in Powder Metallurgy and Particulate Materials, Proc.
Online since: October 2008
Authors: Christopher K.Y. Leung
However, the costs of these materials are
many times that of conventional concrete and the construction of complete structures with them is
hard to justify.
The strategic application of high performance materials, in selected parts of concrete structures, can bring along higher performance/cost and wider acceptance of the material in practice.
Essentially, the material is made of well-packed aggregates (with maximum size of 8-10mm) and cementitious materials, with the space between fine particles filled with microsilica.
PDCC, which are also called Engineered Cementitious Composites (ECC), are materials that exhibit strain hardening under direct tension.
Xia: accepted by RILEM Materials and Structures (2008) [11] B.
The strategic application of high performance materials, in selected parts of concrete structures, can bring along higher performance/cost and wider acceptance of the material in practice.
Essentially, the material is made of well-packed aggregates (with maximum size of 8-10mm) and cementitious materials, with the space between fine particles filled with microsilica.
PDCC, which are also called Engineered Cementitious Composites (ECC), are materials that exhibit strain hardening under direct tension.
Xia: accepted by RILEM Materials and Structures (2008) [11] B.
Online since: May 2020
Authors: Atiwat Wiriya-Amornchai, Prathumrat Nu-Yang, Jaehoon Yoon, Chainat Saechau, Poom Rattanamusik
Experimental
Materials.
The results of this study show that the thermal aging of TPVs is likely to cause the potential to develop more thermoplastic vulcanizates materials in the rubber industry.
Lopattananon, Journal of Applied Polymer Science 134(10), 2016
De, Appl, Journal of Applied Polymer Science, Volume 32, Issue 5, October 1986, 5123
Udomkichdecha, Journal of Applied Polymer Science, Volume 82, Issue 3, 605
The results of this study show that the thermal aging of TPVs is likely to cause the potential to develop more thermoplastic vulcanizates materials in the rubber industry.
Lopattananon, Journal of Applied Polymer Science 134(10), 2016
De, Appl, Journal of Applied Polymer Science, Volume 32, Issue 5, October 1986, 5123
Udomkichdecha, Journal of Applied Polymer Science, Volume 82, Issue 3, 605
Online since: March 2020
Authors: Kelimah Elong, Mohd Sufri Mastuli, Nurhanna Badar, Nor Syamilah Syamimi Mohd Abdillih, Norlida Kamarulzaman
Electrochemical Performance of Mn and Fe Substitution in LiCo0.9X0.1O2 Cathode Materials
Nor Syamilah Syamimi Mohd Abdillih1,2,a*, Norlida Kamarulzaman1,3, Kelimah Elong1,2,b*, Nurhanna Badar1 and Mohd Sufri Mastuli1,2
1Centre of Nanomaterials Research, Institute of Science, Universiti Teknoloogi MARA, 40450 Shah Alam Malaysıa
2School of Chemistry and Environment, Faculty of Applied Sciences, Universiti Teknologi MARA, 40450 Shah Alam Malaysıa
3School of Physics and Materials, Faculty of Applied Sciences, Universiti Teknologi MARA, 40450 Shah Alam Malaysıa
asyamilahsyamimi23@yahoo.com.my, bkelimah0907@salam.uitm.edu.my
Keywords: Cathode, LiCoO2, Self-propagating combustion, electrochemical performance
Abstract.
Based on the results from charge-discharge studies, Mn substituted cathode materials exhibit better specific discharge capacity compared with Fe substituted cathode materials.
Energy Disperssive X-Ray Spectroscopy of the substituted materials was carried out to verify the amount of transition metal content in the materials.
Yushin, Li-ion battery materials:present and future, Mater.
Dawood, Review on Synthesis, Characterizations, and Electrochemical Properties of Cathode Materials for Lithium Ion Batteries, Journal of Material Science & Engineering. 5 (2016)
Based on the results from charge-discharge studies, Mn substituted cathode materials exhibit better specific discharge capacity compared with Fe substituted cathode materials.
Energy Disperssive X-Ray Spectroscopy of the substituted materials was carried out to verify the amount of transition metal content in the materials.
Yushin, Li-ion battery materials:present and future, Mater.
Dawood, Review on Synthesis, Characterizations, and Electrochemical Properties of Cathode Materials for Lithium Ion Batteries, Journal of Material Science & Engineering. 5 (2016)
Online since: October 2018
Authors: Chen Yuan Chung, Shia Chung Chen, Kuan Ju Lin
Set 1, 2 and 3 in Table 1 are for investigating the spacing blocks of different materials (iron and aluminum).
The relative permeabilities of all materials [6, 7] are as shown in Table 2, where the coercive force of NdFeB permanent magnet is A/m [8].
Electromagnetic properties used for the different materials.
Journal of Mechanical Science and Technology, Vol. 25 (2011), p. 117-124
Materials & Design, Vol. 110 (2016), p. 685-692
The relative permeabilities of all materials [6, 7] are as shown in Table 2, where the coercive force of NdFeB permanent magnet is A/m [8].
Electromagnetic properties used for the different materials.
Journal of Mechanical Science and Technology, Vol. 25 (2011), p. 117-124
Materials & Design, Vol. 110 (2016), p. 685-692
Online since: July 2024
Authors: Abu Seman Anasyida, Taiwo Ebenezer Abioye, Augusta Ijeoma Ekpemogu, Tunde Isaac Ogedengbe, Chloe Rose Cunningham, Rotimi Obolo
Journal of Materials Science & Technology. 35(2) (2018) 270-284
[11] N.T.
Progress in Materials Science. 92(2018) 112-224
Materials Science Forum. 519-521 (2006) 1297-1302
Journal of Materials Science & Technology. 37 (2019) 143-153 [55] C.R.
Progress in Materials Science. 107 (2020) 100590
Progress in Materials Science. 92(2018) 112-224
Materials Science Forum. 519-521 (2006) 1297-1302
Journal of Materials Science & Technology. 37 (2019) 143-153 [55] C.R.
Progress in Materials Science. 107 (2020) 100590
Online since: August 2015
Authors: Agus Purwanto, Arif Jumari, Rani Cahyani Fajaryatun, Therecia Wulan Sukardi
MCMB, AB, PVDF, NMP as anode raw materials were weighed by a certain ratio and well mixed to a pasty slurry .
With the same methode and procedure, cathode film was made from materials such as LiFePO4, AB, PVDF and NMP.
[6] Masaki Yoshio and Hideyuki Noguchi, A Review of Positive Electrode Materials for Lithium-Ion Batteries, in: Lithium-ion Batteries: Science and Technologies, Tokyo, 2009, 10
[9] Ying-Da Li, Shi-Xi Zhao, Ce-Wen Nan, Bao-Hua Li, Electrochemical performance of SiO2-coated LiFePO4 cathode materials for lithium ion battery, Journal of Alloys and Compounds. 509 (2011) 957–960
[16] Zhao Dan, Yun-long Feng, Yong-gang Wang, Yong-yao Xia, Electrochemical performance comparison of LiFePO4 supported by various carbon materials, Electrochimica Acta. 88 (2013) 632–638
With the same methode and procedure, cathode film was made from materials such as LiFePO4, AB, PVDF and NMP.
[6] Masaki Yoshio and Hideyuki Noguchi, A Review of Positive Electrode Materials for Lithium-Ion Batteries, in: Lithium-ion Batteries: Science and Technologies, Tokyo, 2009, 10
[9] Ying-Da Li, Shi-Xi Zhao, Ce-Wen Nan, Bao-Hua Li, Electrochemical performance of SiO2-coated LiFePO4 cathode materials for lithium ion battery, Journal of Alloys and Compounds. 509 (2011) 957–960
[16] Zhao Dan, Yun-long Feng, Yong-gang Wang, Yong-yao Xia, Electrochemical performance comparison of LiFePO4 supported by various carbon materials, Electrochimica Acta. 88 (2013) 632–638