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Online since: January 2013
Authors: Jiang Hua Deng, Chao Tang, Yan Ran Zhan, Xing Ying Jiang
Cardew-Hall: Aerospace Science and Technology Vol. 10 (2006), p. 327
[2] J.
Li: Materials Science and Engineering: A Vol. 499 (2009), p. 242 [3] H.
Sun: Journal of Harbin Engineering University Vol. 32 (2011), p. 378 (In Chinese) [4] P.
Journal of Vibration, Acoustics, Stress, and Reliability in design Vol. 110 (1988), p. 65 [5] V.
Ghassaei: Journal of Materials Science Vol. 24 (1989), p. 599
Li: Materials Science and Engineering: A Vol. 499 (2009), p. 242 [3] H.
Sun: Journal of Harbin Engineering University Vol. 32 (2011), p. 378 (In Chinese) [4] P.
Journal of Vibration, Acoustics, Stress, and Reliability in design Vol. 110 (1988), p. 65 [5] V.
Ghassaei: Journal of Materials Science Vol. 24 (1989), p. 599
Online since: March 2013
Authors: Kunio Funami, Hiroaki Kusuhara, Masafumi Noda, Hisashi Mori, Munetoshi Noguchi
To strengthen metal materials, grain refinement by severe plastic deformation is often used [4].
Si and Mg2Si precipitated in the grain boundary of these two materials.
Fig. 3 shows the area fraction of the precipitation and room-temperature tensile properties of the three materials.
Fig. 4 shows the stress–strain curves of the artificially aged, forged, and forged–rolled materials.
SEM images of the forged and forged–rolled materials are shown in Fig. 5.
Si and Mg2Si precipitated in the grain boundary of these two materials.
Fig. 3 shows the area fraction of the precipitation and room-temperature tensile properties of the three materials.
Fig. 4 shows the stress–strain curves of the artificially aged, forged, and forged–rolled materials.
SEM images of the forged and forged–rolled materials are shown in Fig. 5.
Online since: July 2014
Authors: Jun Qu, Jing Xiao, Da Jiang He, Peng Fei Shao, Hen Ling Yang
Journal of Yangtze River Scientific Research Institute, 2005:22(1):60-62
Journal of Hunan University, 2009:36(9):51-54
Advanced Materials Research, 2012:382:137-140
Experimental research on properties of materials of grounding resistor.
Research Journal of Applied Sciences, Engineering and Technology, 2013:5(9):2858-2862
Journal of Hunan University, 2009:36(9):51-54
Advanced Materials Research, 2012:382:137-140
Experimental research on properties of materials of grounding resistor.
Research Journal of Applied Sciences, Engineering and Technology, 2013:5(9):2858-2862
Online since: February 2011
Authors: Jiao Yan Dai, Si Guo Mu, Yong Ru Wang
Journal of Materials Processing Technology,1998 78(1-3):84-89
Materials Science and Technology,1997,13(3):210 -216
Materials Science and Technology, 2000,16(5):539-546
Materials Science and Engineer A,2002, A324(1-2):157-161 [12] M A Morris, D G Morris, U D Kulkarni.
Materials Science and Engineering. 2003,A343:89-96 [14] A Vinogradov,V Patlan,Y Suzuki, et al.
Materials Science and Technology,1997,13(3):210 -216
Materials Science and Technology, 2000,16(5):539-546
Materials Science and Engineer A,2002, A324(1-2):157-161 [12] M A Morris, D G Morris, U D Kulkarni.
Materials Science and Engineering. 2003,A343:89-96 [14] A Vinogradov,V Patlan,Y Suzuki, et al.
TiO2 Nanotubes Modified with Polyelectrolyte Multilayers as a Drug Delivery and its Release Behavior
Online since: September 2013
Authors: Zhang Wang, Ping Li, Yi Rong Chen, Xiu Feng Xiao, Xiao Juan Yang
TiO2 nanotubes Modified with Polyelectrolyte Multilayers as a drug delivery and its release behavior
Xiao-juan Yang1,a, Zhang Wang 1,b, Ping Li 1,c, Yi-rong Chen1,d, Xiu-feng Xiao1,*
1College of Chemistry and Materials Science, Fujian Key Laboratory of Polymer Materials, Fujian Normal University, Fuzhou 350007, P.
Materials. 16(2004) ,1271-1293
Decher:submitted to Journal of Science , 277,( 1997) 1232-1237
Mohwald: submitted to Journal of Science, 282, (1998) 1111-1114
F: submitted to Journal of Materials Science and Engineering (2012),670-673 [10] J.
Materials. 16(2004) ,1271-1293
Decher:submitted to Journal of Science , 277,( 1997) 1232-1237
Mohwald: submitted to Journal of Science, 282, (1998) 1111-1114
F: submitted to Journal of Materials Science and Engineering (2012),670-673 [10] J.
Online since: November 2025
Authors: Somalu Mahendra Rao, Muchtar Andanastuti, Mahmud Lily Siong, Ali Shaikh Abdul Muhammed
This phenomenon is important because it could increase the density and conductivity of ionic materials in electrolyte materials.
Balani, "Progress in material selection for solid oxide fuel cell technology: A review," Progress in Materials Science, vol. 72, (2015) 141-337
Zhu, et al., "A brief description of high temperature solid oxide fuel cell’s operation, materials, design, fabrication technologies and performance," Applied Sciences, vol. 6, (2016) 1-23
Wu, et al., "Iron-based electrode materials for solid oxide fuel cells and electrolysers," Energy & Environmental Science, vol. 14, (2021) 6287-6319
Zhang, Solid oxide fuel cells: Materials properties and performance.
Balani, "Progress in material selection for solid oxide fuel cell technology: A review," Progress in Materials Science, vol. 72, (2015) 141-337
Zhu, et al., "A brief description of high temperature solid oxide fuel cell’s operation, materials, design, fabrication technologies and performance," Applied Sciences, vol. 6, (2016) 1-23
Wu, et al., "Iron-based electrode materials for solid oxide fuel cells and electrolysers," Energy & Environmental Science, vol. 14, (2021) 6287-6319
Zhang, Solid oxide fuel cells: Materials properties and performance.
Online since: August 2021
Authors: Elisabete Silva, José Ferreira, Idalina Domingos, Isabel Brás, Luiza Silva
In this study only the phases of materials and production were considered in the system’s boundary (cradle-to-gate) that is the most used in LCA studies of concrete [4].
In this phase of the material characterization, one can state that the concrete with fly ash incorporated may be classified as an eco-material (eco-concrete) considering that the environmental issues that are minimized are waste reduction, reduce of landfill problems and resource saving by the utilization of recycled materials.
These benefits are reflected in two of the life cycle steps, namely the extraction of materials (resources) and in the eco-concrete manufacturing.
Coelho: Life cycle assessment (LCA) applied to the manufacturing of common and ecological concrete: A review, Construction and Building Materials 124 (2016) 656-666
Wang, various authors: A review of life cycle assessment of recycled aggregate concrete, Construction and Building Materials 209 (2019) 115-125
In this phase of the material characterization, one can state that the concrete with fly ash incorporated may be classified as an eco-material (eco-concrete) considering that the environmental issues that are minimized are waste reduction, reduce of landfill problems and resource saving by the utilization of recycled materials.
These benefits are reflected in two of the life cycle steps, namely the extraction of materials (resources) and in the eco-concrete manufacturing.
Coelho: Life cycle assessment (LCA) applied to the manufacturing of common and ecological concrete: A review, Construction and Building Materials 124 (2016) 656-666
Wang, various authors: A review of life cycle assessment of recycled aggregate concrete, Construction and Building Materials 209 (2019) 115-125
Online since: June 2014
Authors: M.R. Hassan, Mershad Mehrpouya, S. Dawood
Liaw, JOM Journal of the Minerals, Metals and Materials Society , 2000. 52(10): p. 45-51
[4] Nakanishi, N., Progress in materials science, 1980. 24: p. 143-265
[11] Mackerle, J., Journal of materials processing technology, 1998. 86(1): p. 17-44
Petzoldt, Materials Science and Engineering: A, 2004. 378(1): p. 180-184
Journal of materials processing technology, 2000. 105(3): p. 327-332
[4] Nakanishi, N., Progress in materials science, 1980. 24: p. 143-265
[11] Mackerle, J., Journal of materials processing technology, 1998. 86(1): p. 17-44
Petzoldt, Materials Science and Engineering: A, 2004. 378(1): p. 180-184
Journal of materials processing technology, 2000. 105(3): p. 327-332
Online since: December 2024
Authors: Valeriy M. Vyrovoy, Volodymyr Martynov, Svitlana Makarova, Dmytro Taichan
International Journal of Engineering Technology Science and Research, 5(4) (2018) 988–933
International Journal of Materials Science and Engineering, 2(2) (2014) 152–157
Materials & Design, 92 (2016) 949 – 959
ACI Materials Journal, 103(1) (2006) 45
International Journal of Concrete Structures and Materials, 14 (2020) 1–16
International Journal of Materials Science and Engineering, 2(2) (2014) 152–157
Materials & Design, 92 (2016) 949 – 959
ACI Materials Journal, 103(1) (2006) 45
International Journal of Concrete Structures and Materials, 14 (2020) 1–16
Online since: November 2019
Authors: Damilare S. Obebe, Solomon I. Adedokun, Johnson R. Oluremi
Materials and Methods
The materials used in this study are the lateritic soil samples, waste glass fines and cement.
Journal of Engineering Science and Technology, 9 (5), 541-558
Alkali – Aggregate Reaction in Concrete with Waste Glass as Aggregate, Proceedings of the 4th Materials Engineering Conference: Materials for the new millennium, ASCE, Reston, V.A, 1388-1397
Glasscrete – Concrete with glass aggregates”, ACI Materials Journal, 97, 208-213
Advanced Materials Research. 824: 21-28. doi:10.4028/www.scientific.net/AMR.824.2
Journal of Engineering Science and Technology, 9 (5), 541-558
Alkali – Aggregate Reaction in Concrete with Waste Glass as Aggregate, Proceedings of the 4th Materials Engineering Conference: Materials for the new millennium, ASCE, Reston, V.A, 1388-1397
Glasscrete – Concrete with glass aggregates”, ACI Materials Journal, 97, 208-213
Advanced Materials Research. 824: 21-28. doi:10.4028/www.scientific.net/AMR.824.2