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Online since: January 2022
Authors: Zi Ting Tian
Although 4D printing technologies still remain intractable, some aspects of improvement through electrospinning are possible in terms of responsive materials and self-growth materials.
Prospects of 4D Nanomaterials 4D materials contain the traditional 3 spatial dimensions and time which is the fourth dimension that affects the materials in some ways.
With respect to biomedical applications, 4D printed materials typically are divided into two types, one of which is responsive materials, and the other of which is self-growth.
Prospects of 4D nanomaterial are foreseeable in terms of its types of responsive materials and self-growth materials.
[17] Yao, Tianyu, et al., Self-assembly of electrospun nanofibers into gradient honeycomb structures, Materials & Design, vol. 168, 2019, OhioLINK Electronic Journal Center, doi:10.1016/J.MATDES.2019.107614
Prospects of 4D Nanomaterials 4D materials contain the traditional 3 spatial dimensions and time which is the fourth dimension that affects the materials in some ways.
With respect to biomedical applications, 4D printed materials typically are divided into two types, one of which is responsive materials, and the other of which is self-growth.
Prospects of 4D nanomaterial are foreseeable in terms of its types of responsive materials and self-growth materials.
[17] Yao, Tianyu, et al., Self-assembly of electrospun nanofibers into gradient honeycomb structures, Materials & Design, vol. 168, 2019, OhioLINK Electronic Journal Center, doi:10.1016/J.MATDES.2019.107614
Online since: February 2022
Authors: A.I. Evstigneev, E.A. Dmitriev, V.I. Odinokov, G.I. Usanov, Ye.P. Ivankova
Conclusion
The use of materials with a low coefficient of linear expansion is justified from the standpoint of reducing shell mold stress-strain state, and to increase the shell mold crack resistance and provide for possibility of filling the mold with liquid metal without a backing filler, it is recommended to form the layer adjacent to the outer shell layer using materials with physical properties other than that of the materials of the rest shell mold layers.
Shtern, Stress-Strain State of Shell Molds Cast Using Wax Models, Institute of Machine Science and Metallurgy, Far Eastern Branch of Russian Academy of Sciences, Komsomolsk-on-Amur, 2005
Pankratova, Stress State and Deformability of Composite Shells in the Three-Dimensional Statement, Mechanics of Сomposite Materials 20 (1985) 468–474
Rogacheva, The Effect of Surface Stresses on the Stress-Strain State of Shells, Journal of Applied Mathematics and Mechanics 80 (2016) 173–181
Sapchenko, Crack Forming in Ceramic Molds during Metal Pouring, Strain and Destruction of Materials 10 (2010) 25–28
Shtern, Stress-Strain State of Shell Molds Cast Using Wax Models, Institute of Machine Science and Metallurgy, Far Eastern Branch of Russian Academy of Sciences, Komsomolsk-on-Amur, 2005
Pankratova, Stress State and Deformability of Composite Shells in the Three-Dimensional Statement, Mechanics of Сomposite Materials 20 (1985) 468–474
Rogacheva, The Effect of Surface Stresses on the Stress-Strain State of Shells, Journal of Applied Mathematics and Mechanics 80 (2016) 173–181
Sapchenko, Crack Forming in Ceramic Molds during Metal Pouring, Strain and Destruction of Materials 10 (2010) 25–28
Online since: July 2007
Authors: N.A. Rawashdeh, Fadi K. Abu-Farha, Marwan K. Khraisheh
Mukherjee: Materials Science and Engineering, A157 (1992), p. 9
Khraisheh: Journal of Engineering Materials and Technology, Vol. 127 (2005), p. 159
Khraisheh; Journal of Materials Engineering & Performance, in press
Comsa: Journal of Materials Processing Technology, Vol. 115 (2001), p. 83
Holt: International Journal of Mechanical Sciences, Vol. 12 (1970), p. 491
Khraisheh: Journal of Engineering Materials and Technology, Vol. 127 (2005), p. 159
Khraisheh; Journal of Materials Engineering & Performance, in press
Comsa: Journal of Materials Processing Technology, Vol. 115 (2001), p. 83
Holt: International Journal of Mechanical Sciences, Vol. 12 (1970), p. 491
Online since: August 2023
Authors: Emilia-Florina Binchiciu, Mircea Nicolaescu, Viorel Aurel Serban, Carmen Lazau, Cornelia Bandas, Corina Orha, Melinda Vajda
Erlebacher, Annual Review of Materials Research 46 (1) (2016) 263-286
Li, Materials Letters 245 (2019) 49-52
Zhan, Materials Letters 265 (2020) 127300
Miclau, Journal of Materials Science: Materials in Electronics 33 (2022) [8] M.
Aurel Serban, Materials Today: Proceedings (2022) [10] Z.
Li, Materials Letters 245 (2019) 49-52
Zhan, Materials Letters 265 (2020) 127300
Miclau, Journal of Materials Science: Materials in Electronics 33 (2022) [8] M.
Aurel Serban, Materials Today: Proceedings (2022) [10] Z.
Online since: December 2024
Authors: Anh Son Nguyen, Duc Long Bui, Thi Bang Le, Duc Huan Nguyen
Experimental Procedure
Materials and Method.
Surface roughness plays an important role for materials used in implantation.
Biomedical applications of titanium and its alloys, The journal of the Minerals, Metals & Materials Society, 60 (2008) 46–49
Compositional and histological comparison of carbonate apatite fabricated by dissolution–precipitation reaction and Bio-Oss®, Journal of Materials Science: Materials in Medicine, 29 (2018) 121
Convenient conversion of calcium carbonate to hydroxyapatite at ambient pressure, Materials Science and Engineering: C, 29 (2009), 771-773
Surface roughness plays an important role for materials used in implantation.
Biomedical applications of titanium and its alloys, The journal of the Minerals, Metals & Materials Society, 60 (2008) 46–49
Compositional and histological comparison of carbonate apatite fabricated by dissolution–precipitation reaction and Bio-Oss®, Journal of Materials Science: Materials in Medicine, 29 (2018) 121
Convenient conversion of calcium carbonate to hydroxyapatite at ambient pressure, Materials Science and Engineering: C, 29 (2009), 771-773
Online since: December 2014
Authors: Ying Sun, Guang Lin Gao
This paper presents a dynamic urban landscape design, a variety of traits city weather conditions, urban context, materials technology, biological populations, ecological flows were studied.
Due to different cities in different geographical and climatic conditions, cultural folk customs and habits, designers and creative thinking through basic mastery of relevant expertise on the basis of respect for the city humanities, science and technology and flexible use of modern technology and new materials, skilled master and urban regional culture appropriate to the landscape design, which is already under cultural heritage landscape design consensus.
Jones, J.Gwilliam: An evaluation of outdoor and building environment cooling achieved through combination modification of trees with ground materials, Building and Environment, Vol.58 (2012), p.245-257 [6] M.
Deng: Design and Key Technology of Urban Landscape 3D Visualization System, Procedia Environmental Sciences, Vol.10 (2011), p.1238-1243 [10] K.
Blackledge: Small wind turbines in turbulent (urban) environments: A consideration of normal and Weibull distributions for power prediction, Journal of Wind Engineering and Industrial Aerodynamics, Vol.121 (2013), p.70-81
Due to different cities in different geographical and climatic conditions, cultural folk customs and habits, designers and creative thinking through basic mastery of relevant expertise on the basis of respect for the city humanities, science and technology and flexible use of modern technology and new materials, skilled master and urban regional culture appropriate to the landscape design, which is already under cultural heritage landscape design consensus.
Jones, J.Gwilliam: An evaluation of outdoor and building environment cooling achieved through combination modification of trees with ground materials, Building and Environment, Vol.58 (2012), p.245-257 [6] M.
Deng: Design and Key Technology of Urban Landscape 3D Visualization System, Procedia Environmental Sciences, Vol.10 (2011), p.1238-1243 [10] K.
Blackledge: Small wind turbines in turbulent (urban) environments: A consideration of normal and Weibull distributions for power prediction, Journal of Wind Engineering and Industrial Aerodynamics, Vol.121 (2013), p.70-81
Online since: December 2014
Authors: Mohammed A. Almomani, Ahmad M. Shatnawi, Mohammed K. Alrashdan
Hussain: International Journal of Materials, Mechanics, and Manufacturing, Vol. 1, No. 3 (2013), p. 283-286
Chung: Journal of Materials Science, Vol. 29 (1994), p. 2998-3016
Baharvandi: Journal of Materials Processing Technology, Vol. 209, No. 14 (2009), p. 5387-5393
Gotor: International Journal of Refractory Metals and Hard Materials, Vol. 38 (2013), p. 73-80
Journal of Refractory Metals and Hard Materials, Vol. 35 (2012), p. 207-212.
Chung: Journal of Materials Science, Vol. 29 (1994), p. 2998-3016
Baharvandi: Journal of Materials Processing Technology, Vol. 209, No. 14 (2009), p. 5387-5393
Gotor: International Journal of Refractory Metals and Hard Materials, Vol. 38 (2013), p. 73-80
Journal of Refractory Metals and Hard Materials, Vol. 35 (2012), p. 207-212.
Online since: July 2013
Authors: J. Paulo Davim, V.N. Gaitonde, S.R. Karnik, S. Basavarajappa
Shembekar, Tensile and fracture properties of epoxy resin filled with fly ash particles, Journal of Materials Science. 25 (1990) 3513–3516
Wahne, Wear and friction behaviour of soft particles filled random direction short GFRP composites, Materials Science and Engineering A. 458 (2007) 25–33
Materials and Design. 25 (2004). 251-255
Study of Drilling metal-matrix composites based on the Taguchi techniques, Journal of Materials Processing Technology. 132 (2003) 250-254
Kao, Drilling of (Al2O3)p/6061 metal matrix composites, Journal of Materials Processing Technology. 124 (2002) 244–254
Wahne, Wear and friction behaviour of soft particles filled random direction short GFRP composites, Materials Science and Engineering A. 458 (2007) 25–33
Materials and Design. 25 (2004). 251-255
Study of Drilling metal-matrix composites based on the Taguchi techniques, Journal of Materials Processing Technology. 132 (2003) 250-254
Kao, Drilling of (Al2O3)p/6061 metal matrix composites, Journal of Materials Processing Technology. 124 (2002) 244–254
Online since: October 2021
Authors: Maryam Said Alsaidi, Ghassan Al Kindi, Mohsin Usman Qureshi
This experimental study explored the possibility of sustainable invigoration of fine waste materials in dune sand to improve the geotechnical properties.
The sands are usually fine-grained and poorly graded materials with a small amount of silt [1].
The utilization of waste materials as additives in sand improvement is more attractive to cut the carbon footprint associated with the natural material’s processing resources [6].
(a) Marble waste (b) Dune sand (c) Reservoir sediment 100mm 10mm 10mm Fig. 1 Photomicrographs of materials (note the scale difference).
The maximum and minimum void ratios of sand increased by adding fine waste materials (Fig. 4).
The sands are usually fine-grained and poorly graded materials with a small amount of silt [1].
The utilization of waste materials as additives in sand improvement is more attractive to cut the carbon footprint associated with the natural material’s processing resources [6].
(a) Marble waste (b) Dune sand (c) Reservoir sediment 100mm 10mm 10mm Fig. 1 Photomicrographs of materials (note the scale difference).
The maximum and minimum void ratios of sand increased by adding fine waste materials (Fig. 4).
Online since: March 2016
Authors: Peng Fei Wu, Wan Xia Shen, Bo Zhang, Xue Chao Wang, Qiang Lu, Cheng Wang
In order to simplify calculation, this article has expressed composition of power battery by materials such as iron, steel and copper, the materials composition of the power batteries are listed in Table 2 and Table 3.
Journal of Anhui Agricultural Sciences, 5 (2010) 2553-2555
Material and energy flows in the materials production, assembly, and end-of-life stages of the automotive lithium-ion battery life cycle.
Journal of information science and technology, (1995) 1-7
Journal of Cleaner Production, 18 (2010) 1519-1529
Journal of Anhui Agricultural Sciences, 5 (2010) 2553-2555
Material and energy flows in the materials production, assembly, and end-of-life stages of the automotive lithium-ion battery life cycle.
Journal of information science and technology, (1995) 1-7
Journal of Cleaner Production, 18 (2010) 1519-1529