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Online since: January 2025
Authors: Manuela Almeida, Lucas Lopes, Florindo Gaspar, Paulo Mendonca, Harish Daruari
Emphasis is placed on the application of these materials in the construction sector.
Kosior, Philosophical Transactions of the Royal Society B: Biological Sciences 364 (2009) 2115–2126
Tagbor, Case Studies in Construction Materials 6 (2017) 1–7
Ramakrishna, Materials Circular Economy 2 (2020) 11
Knaack, Journal of Facade Design and Engineering 3 (2016) 225–235
Kosior, Philosophical Transactions of the Royal Society B: Biological Sciences 364 (2009) 2115–2126
Tagbor, Case Studies in Construction Materials 6 (2017) 1–7
Ramakrishna, Materials Circular Economy 2 (2020) 11
Knaack, Journal of Facade Design and Engineering 3 (2016) 225–235
Online since: January 2019
Authors: Quan Yang, Xiao Chen Wang, Hai Nan He
Acknowledgements
The authors would like to thank the National Natural Science Foundation of China (Grant No.51604024), Beijing Natural Science Foundation (3182026), the Tribology Science Fund of State Key Laboratory of Tribology (Grant No.SKLTKF16B11) and Fundamental Research Funds for the Central Universities (Grant No.
Zhang, Material and manufacturing process selection of hydro-generator yoke and magnetic pole chips, Dongfang Electric (in Chinese). 5(2013) 17-22
Development and application of the asymmetry work roll for hot strip mills, Journal of University of Science & Technology Beijing. 30(2008) 805-809
Comprehensive shape control technology for CSP hot strip mills, International Journal of Automation and Computing. 12(2015) 611-619
Optimization of roll contour for a temper mill in a continuous annealing line, Journal of University of Science & Technology Beijing. 34(2012) 342-347.
Zhang, Material and manufacturing process selection of hydro-generator yoke and magnetic pole chips, Dongfang Electric (in Chinese). 5(2013) 17-22
Development and application of the asymmetry work roll for hot strip mills, Journal of University of Science & Technology Beijing. 30(2008) 805-809
Comprehensive shape control technology for CSP hot strip mills, International Journal of Automation and Computing. 12(2015) 611-619
Optimization of roll contour for a temper mill in a continuous annealing line, Journal of University of Science & Technology Beijing. 34(2012) 342-347.
Online since: May 2025
Authors: Gabriel Constantin Benga, Sorin Vasile Savu, Angelo Andrei Midan, Iulian Ştefan
Even if pure microwave sintering cannot be applied to metallic materials, indirect microwave heating can be successfully applied for various types of materials.
magnesium alloy concrete duralumin Fig. 6 Thermal properties of the materials used in FEM Thermal properties of the materials used in FEM are presented in figure 6.
Mirdamadi, Synthesis, microstructure and mechanical properties of porous Mg-Zn scaffolds, Journal of the Mechanical Behavior of Biomedical Materials, 21(0) (2013)1-8
Witte, Biodegradable metals, Materials Science and Engineering: R: Reports, 77 (2014) 1-34
Dahms, Sintering of Magnesium, Advanced Engineering Materials 12 (2010) 829-836
magnesium alloy concrete duralumin Fig. 6 Thermal properties of the materials used in FEM Thermal properties of the materials used in FEM are presented in figure 6.
Mirdamadi, Synthesis, microstructure and mechanical properties of porous Mg-Zn scaffolds, Journal of the Mechanical Behavior of Biomedical Materials, 21(0) (2013)1-8
Witte, Biodegradable metals, Materials Science and Engineering: R: Reports, 77 (2014) 1-34
Dahms, Sintering of Magnesium, Advanced Engineering Materials 12 (2010) 829-836
Online since: December 2022
Authors: Khalid Alzamili, Hamzah A. Lafta
Collins, Photovoltaics: advanced inorganic materials, Encyclopedia of Materials: Science and Technology, (2008) 1-11
Surek, Crystal growth and materials research in photovoltaics: Progress and challenges, Journal of Crystal Growth, 275 (2005) 292-304
Eser, Polycrystalline thin film solar cells: Present status and future potential, Annual Review of Materials Science, 27 (1997) 625-653
Czanderna, Stability of interfaces in solar energy materials, Solar Energy Materials, 5 (1981) 349-377
Kammen, Materials availability expands the opportunity for large-scale photovoltaics deployment, Environmental Science and Technology, 43 (2009) 2072-2077
Surek, Crystal growth and materials research in photovoltaics: Progress and challenges, Journal of Crystal Growth, 275 (2005) 292-304
Eser, Polycrystalline thin film solar cells: Present status and future potential, Annual Review of Materials Science, 27 (1997) 625-653
Czanderna, Stability of interfaces in solar energy materials, Solar Energy Materials, 5 (1981) 349-377
Kammen, Materials availability expands the opportunity for large-scale photovoltaics deployment, Environmental Science and Technology, 43 (2009) 2072-2077
Online since: September 2014
Authors: Zhong De Shi, Helmi Attia, Amr Elfizy
Such materials are very difficult to grind as evidenced by large grinding forces, high wheel wear, and poor ground surface integrity [1,2].
The preset ground part quality and wheel re-dressing life were achieved with a competitive material removal rate.
Tso, Study on the grinding of Inconel 718, Journal of Materials Processing Technology, 55 (1995) 421-426
Mannan, Machinability of nickel-based high temperature alloys, Machining Science and Technology, 4/1 (2000) 127-168
Attia, Grinding characteristics of a nickel-based alloy using vitrified CBN wheels, International Journal of Abrasive Technology, 5/1 (2012) 1-16
The preset ground part quality and wheel re-dressing life were achieved with a competitive material removal rate.
Tso, Study on the grinding of Inconel 718, Journal of Materials Processing Technology, 55 (1995) 421-426
Mannan, Machinability of nickel-based high temperature alloys, Machining Science and Technology, 4/1 (2000) 127-168
Attia, Grinding characteristics of a nickel-based alloy using vitrified CBN wheels, International Journal of Abrasive Technology, 5/1 (2012) 1-16
Online since: March 2026
Authors: Paul Carrión-Mero, Josue Briones-Bitar, Lucrecia Moreno-Alcívar, Galo González-Robles
Materials and Methods
This research compared the tensile strengths of steel and glass fiber-reinforced polymer (GFRP) bar samples using standards from the American Society for Testing and Materials (ASTM), validated these results with findings from the existing literature, and providing up-to-date comparative experimental data on the mechanical resistance of traditional (steel) and emerging (GFRP) materials.
The authors provide updated experimental comparative data on the mechanical strength of emerging materials (GFRP) under standardised (ASTM) regulations and promote innovative materials that are more efficient or cost-effective in construction.
The tests were conducted within the Geotechnical and Construction Laboratory of the Faculty of Earth Sciences Engineering (FICT), under the supervision and assistance of Ing.
Malek, “Behavior of FRP rods under uniaxial tensile strength with multiple materials as an alternative to steel rebar,” Case Stud.
Available: https://media.promart.pe/ft_proveedor/83715.pdf [18] American Society for Testing and Materials (ASTM), “ASTM E8/E8M-22: Standard Test Methods for Tension Testing of Metallic Materials.”
The authors provide updated experimental comparative data on the mechanical strength of emerging materials (GFRP) under standardised (ASTM) regulations and promote innovative materials that are more efficient or cost-effective in construction.
The tests were conducted within the Geotechnical and Construction Laboratory of the Faculty of Earth Sciences Engineering (FICT), under the supervision and assistance of Ing.
Malek, “Behavior of FRP rods under uniaxial tensile strength with multiple materials as an alternative to steel rebar,” Case Stud.
Available: https://media.promart.pe/ft_proveedor/83715.pdf [18] American Society for Testing and Materials (ASTM), “ASTM E8/E8M-22: Standard Test Methods for Tension Testing of Metallic Materials.”
Online since: March 2019
Authors: Myagmar Otgonbaatar, Duger Ulam-Orgikh, Perenlei Tuvshintur, Goliminsee Shilagardi, Serguei A. Filatov, E.M. Shpilevsky
Introduction
The unique properties of fullerenes and fullerene-containing materials indicate a wide range of possibilities for using these materials in the space industry, biomedicine, optoelectronics, and other areas of economic activity.
Therefore, fullerenes are often considered as a tool and a basis for the creation of promising materials with new properties [1-3].
Metal-fullerene materials have a wide range of physical and physical-chemical properties.
To identify suitable composite materials using vacuum technology, 40 variants of composite materials were prepared with different fractional compositions of the components of the Ag-C60, Cu-C60, Fe-C60, Ti-C60, and Al-C60 systems and their mixtures.
(Eds.), Carbon Nanomaterials in Clean Energy Hydrogen Systems – II, Springer Science, Dordrecht, 2011, pp. 23-39
Therefore, fullerenes are often considered as a tool and a basis for the creation of promising materials with new properties [1-3].
Metal-fullerene materials have a wide range of physical and physical-chemical properties.
To identify suitable composite materials using vacuum technology, 40 variants of composite materials were prepared with different fractional compositions of the components of the Ag-C60, Cu-C60, Fe-C60, Ti-C60, and Al-C60 systems and their mixtures.
(Eds.), Carbon Nanomaterials in Clean Energy Hydrogen Systems – II, Springer Science, Dordrecht, 2011, pp. 23-39
Online since: October 2014
Authors: Eko Kurniawan, Junaidi Syarif, Zainuddin Sajuri, Mohammad Rasidi Rasani
The raw materials include commercial pure Ti (44 μm; -325%), Mo (44 μm; -325%) and Cr (88 μm; -170%) powders, which were supplied by Alfa Aesar Co (USA).
Froes, Titanium powder metallurgy: A Review-Part 1, Advance Materials & Processes. (2012) 16-22
Kakani, A.Kakani, Material Science, New Age International (P) Ltd., 2004
[12] Sepehr Hatami, Amir Malakizadi, Lars Nyborga, Daniel Wallin, Critical aspects of sinter-hardening of prealloyed Cr–Mo steel, Journal of Materials Processing Technology. 210 (2010) 1180-1189
Murch, Phase Transformations in Materials, WILEY-VCH Verlag Gmbh, 2001
Froes, Titanium powder metallurgy: A Review-Part 1, Advance Materials & Processes. (2012) 16-22
Kakani, A.Kakani, Material Science, New Age International (P) Ltd., 2004
[12] Sepehr Hatami, Amir Malakizadi, Lars Nyborga, Daniel Wallin, Critical aspects of sinter-hardening of prealloyed Cr–Mo steel, Journal of Materials Processing Technology. 210 (2010) 1180-1189
Murch, Phase Transformations in Materials, WILEY-VCH Verlag Gmbh, 2001
Online since: March 2004
Authors: Dun Wen Zuo, Min Wang, Sheng Li Song, Bing Kun Xiang
In case of 518 Advances in Grinding and Abrasive Processes
EACVD, its heating source is filament that must be those materials with high melting point.
As a result, the substrate material selection is very important.
On the other hand, ferrous materials are known to be unsuitable for diamond nucleation.
Supported by National Natural Science Foundation of China (50075039) References [1] M.
Asmussen: Diamond and Related Materials Vol. 9 (2000), p. 1154 a b c
As a result, the substrate material selection is very important.
On the other hand, ferrous materials are known to be unsuitable for diamond nucleation.
Supported by National Natural Science Foundation of China (50075039) References [1] M.
Asmussen: Diamond and Related Materials Vol. 9 (2000), p. 1154 a b c
Online since: January 2013
Authors: Gang Tang, Shi Lei Liu, Dong Mei Wang, Gao Feng Wei, Cheng Tao Wang
Materials and methods
Three-dimensional geometric modeling.
Material Properties.
The plate material is pure titanium TA3, elastic modulus: 102.7GPa, tensile strength RM of 605 ~ 610Mpa, yield strength 461MPa; bone screws materials is TC4 titanium alloy, elastic modulus: 110 ~ 114GPa, tensile strength RM of 895 ~ 930MPa, yield strength 850-900MPa.
Throughout the analysis, the stress of plate and screw did not exceed the stress required material itself.
American journal of surgery, 1958. 95(5): p. 761
Material Properties.
The plate material is pure titanium TA3, elastic modulus: 102.7GPa, tensile strength RM of 605 ~ 610Mpa, yield strength 461MPa; bone screws materials is TC4 titanium alloy, elastic modulus: 110 ~ 114GPa, tensile strength RM of 895 ~ 930MPa, yield strength 850-900MPa.
Throughout the analysis, the stress of plate and screw did not exceed the stress required material itself.
American journal of surgery, 1958. 95(5): p. 761