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Online since: November 2019
Authors: Artem I. Opalnitskiy, Boris P. Saushkin, Yuriy A. Morgunov
Semenovskaya Street, 38, Moscow, Russia, 107023
bmorgunov56@mail.ru, ati@mami.ru, csbp47@mail.ru
*corresponding author
Keywords: Ultrasonic Machining with a Diamond-Impregnated Tool, Diamond-Impregnated Tools for Ultrasonic Machining, Composite Material, Ceramics
Abstract: In conventional machining, the process of shaping of products from such new materials as alloys with special properties, composite materials and ceramic materials is rather challenged because of low ductility, intense hardness, diversity of physical and mechanical properties of definite components, etc.
In conventional machining, the processes of shaping of items from new constructional materials such as alloys with special properties, composite materials (CM) and ceramic materials is rather challenged because of low ductility, intense hardness, and a wide diversity of physical and mechanical properties of definite components [1,2] To solve the problem, physical-and-chemical methods and techniques based on different processes and mechanisms of material rupture are utilized on a wide scale [3].
Figure 2c illustrates the process of hole drilling with a solid tool in ultra-hard materials.
Norton, Ceramic materials, Science and Engineering,: Springer Science, New York, 2013
[3] Science filled technologies of machine building production, in: B.
In conventional machining, the processes of shaping of items from new constructional materials such as alloys with special properties, composite materials (CM) and ceramic materials is rather challenged because of low ductility, intense hardness, and a wide diversity of physical and mechanical properties of definite components [1,2] To solve the problem, physical-and-chemical methods and techniques based on different processes and mechanisms of material rupture are utilized on a wide scale [3].
Figure 2c illustrates the process of hole drilling with a solid tool in ultra-hard materials.
Norton, Ceramic materials, Science and Engineering,: Springer Science, New York, 2013
[3] Science filled technologies of machine building production, in: B.
Online since: October 2013
Authors: Bin Bin Liu, Yu Xian Zhang, Hong Wang
Because of effect of ultrahigh pressure, both yield strength and tensile strength increment of materials will approximately increase linearly.
This method can also be applied to a variety of other materials to do the strength impact study in the ultrahigh hydrostatic environment.
Journal of materials engineering, 2005, (11): 43-45
Journal of weapon material science and engineering, 2006, 29 (6): 36 -38
Journal of aviation materials, 2012, 32 (2): 93-95.
This method can also be applied to a variety of other materials to do the strength impact study in the ultrahigh hydrostatic environment.
Journal of materials engineering, 2005, (11): 43-45
Journal of weapon material science and engineering, 2006, 29 (6): 36 -38
Journal of aviation materials, 2012, 32 (2): 93-95.
Online since: July 2012
Authors: Xiao Qin Zhu, Jin Hu, Hai Ming Gu, Hui Yuan Zhao, Zi Yue Zhu, Wei Huan Li
The used phase change materials mainly includes CaCl2·6H2O, Na2SO4·10H2O and paraffin wax etc.
The first important application in buildings is taking phase change materials as indoor heat insulation materials by means of thermal energy storage device installed in the room, or “adding” phase change materials in the walls, doors, windows, ceilings or under floors.
The second important application in buildings is combining phase change materials with construction materials, thus forming multi-functional materials.
Acknowledgements This work was financially supported by China National Natural Science Foundation (51066001), Yunnan Province Natural Science Foundation (2008CD093) and the Talent Cultivation Foundation of Kunming University of Science and Technology (2010-010).
Energy Conversion and Management, Vol.46 (2005), p.1523 [9] H.L.Wang, Z.R.Zou, H.W.Chen, et al: Journal of Agricultural Engineering (in Chinese), Vol. 24 (2008), p.304 [10] B.Zalba, J.M.Marín, L.F.Cabeza, et al: Applied Thermal Engineering, Vol. 23 (2003), p251 [11] H.Ye, J.Wang, S.Y.Zhuang, et al: Acta Energiae Solaris Sinica , Vol. 25(2004), p.651 [12] A.Laouadi and M.Lacroix: International Journal of Heat Mass Transfer, Vol.42 (1999), p.275 [13] K.P.Liu, Y.P.Zhang, X.Xu, et al: Energy and Buildings (in Chinese), Vol.37 (2005), p.215 [14] D.Zhang, M.M.Zhou, K.R.Wu, et al: Journal of Building Materials (in Chinese), Vol.6 (2003), p.374 [15] Y.S.Yang, F.Q.Dong and S.Y.Gan.
The first important application in buildings is taking phase change materials as indoor heat insulation materials by means of thermal energy storage device installed in the room, or “adding” phase change materials in the walls, doors, windows, ceilings or under floors.
The second important application in buildings is combining phase change materials with construction materials, thus forming multi-functional materials.
Acknowledgements This work was financially supported by China National Natural Science Foundation (51066001), Yunnan Province Natural Science Foundation (2008CD093) and the Talent Cultivation Foundation of Kunming University of Science and Technology (2010-010).
Energy Conversion and Management, Vol.46 (2005), p.1523 [9] H.L.Wang, Z.R.Zou, H.W.Chen, et al: Journal of Agricultural Engineering (in Chinese), Vol. 24 (2008), p.304 [10] B.Zalba, J.M.Marín, L.F.Cabeza, et al: Applied Thermal Engineering, Vol. 23 (2003), p251 [11] H.Ye, J.Wang, S.Y.Zhuang, et al: Acta Energiae Solaris Sinica , Vol. 25(2004), p.651 [12] A.Laouadi and M.Lacroix: International Journal of Heat Mass Transfer, Vol.42 (1999), p.275 [13] K.P.Liu, Y.P.Zhang, X.Xu, et al: Energy and Buildings (in Chinese), Vol.37 (2005), p.215 [14] D.Zhang, M.M.Zhou, K.R.Wu, et al: Journal of Building Materials (in Chinese), Vol.6 (2003), p.374 [15] Y.S.Yang, F.Q.Dong and S.Y.Gan.
Online since: May 2021
Authors: Victor Klushin, Ekaterina A. Shabliy, Nina V. Smirnova
The source of raw materials for these polymers is oil and natural gas.
The absence of toxicity inherent in PF, and the use of renewable plant materials for their production, makes them promising materials of the future.
Yin, Curing reaction of furfural acetone resin used for new carbon materials, Chinese Journal of Nonferrous Metals. 18 (2008) 953-958
Shah, Glass reinforced composites based on (epoxy-furfural-acetone) resin blends, International Journal of Polymeric Materials and Polymeric Biomaterials. 46 (2000) 293-300
Solovev, Modelling of Ultrasonic Concentrators for Processing of Volume Nanostructured Materials, Materials Science Forum, Vol. 992 (2020) 940-946.
The absence of toxicity inherent in PF, and the use of renewable plant materials for their production, makes them promising materials of the future.
Yin, Curing reaction of furfural acetone resin used for new carbon materials, Chinese Journal of Nonferrous Metals. 18 (2008) 953-958
Shah, Glass reinforced composites based on (epoxy-furfural-acetone) resin blends, International Journal of Polymeric Materials and Polymeric Biomaterials. 46 (2000) 293-300
Solovev, Modelling of Ultrasonic Concentrators for Processing of Volume Nanostructured Materials, Materials Science Forum, Vol. 992 (2020) 940-946.
Online since: September 2013
Authors: Hu Wang, Ji Ping Liu
Experimental
Materials.
Yabuki: Journal of Applied Polymer Science, Vol.65 (1997), No.5, p.1031
Snyder: Journal of Materials Science, Vol.41 (2006) No.13, p.4105
Kumar: Journal of Applied Polymer Science, Vol.100 (2006) No. 1, p.791
Wu: Journal of Applied Polymer Science, Vol. 124 (2012) No.6, p.4740
Yabuki: Journal of Applied Polymer Science, Vol.65 (1997), No.5, p.1031
Snyder: Journal of Materials Science, Vol.41 (2006) No.13, p.4105
Kumar: Journal of Applied Polymer Science, Vol.100 (2006) No. 1, p.791
Wu: Journal of Applied Polymer Science, Vol. 124 (2012) No.6, p.4740
Online since: June 2012
Authors: Bin Li, Hong Wang
Hence, sintering is categorized in the synthesis/processing element among the four basic elements of materials science and engineering.
As material synthesis and processing have become crucial in recent years for materials development, the importance of sintering is increasing as a material processing technology [1].
Based on the researches about mechanical properties of ceramic materials, a number of approaches to improve the strength and toughness of ceramic materials have developed.
Tjong: Materials Science and Engineering A Vol. 256 (1998), p. 120-128
Kok: Journal of Materials Processing Technology Vol. 161 (2005), p. 381-387
As material synthesis and processing have become crucial in recent years for materials development, the importance of sintering is increasing as a material processing technology [1].
Based on the researches about mechanical properties of ceramic materials, a number of approaches to improve the strength and toughness of ceramic materials have developed.
Tjong: Materials Science and Engineering A Vol. 256 (1998), p. 120-128
Kok: Journal of Materials Processing Technology Vol. 161 (2005), p. 381-387
Online since: January 2013
Authors: Hong Hao, Wen Su Chen
Blast-resistant structures are traditionally designed and fabricated with solid materials of heavy weight to resist blast loadings.
To overcome these problems, new designs with either new structural forms or new materials are demanded against blast loads.
Material model.
Part II: localised blast loading, International Journal of Impact Engineering, 31 (2005) 85-111
[5] Hsieh M.W., Hung J.P., Chen D.J., Investigation on the Blast Resistance of a Stiffened Door Structure, Journal of Marine Science and Technology, 16 (2008) 149-157
To overcome these problems, new designs with either new structural forms or new materials are demanded against blast loads.
Material model.
Part II: localised blast loading, International Journal of Impact Engineering, 31 (2005) 85-111
[5] Hsieh M.W., Hung J.P., Chen D.J., Investigation on the Blast Resistance of a Stiffened Door Structure, Journal of Marine Science and Technology, 16 (2008) 149-157
Online since: July 2015
Authors: Oliver Lott, Alwin Nagel, Maren Klement
Journal of Refractory Metals and Hard Materials 41 (2013) 60-65
Bolt, Interface reactions between silicon carbide and interlayers in silicon carbide-copper metal-matrix composites, Journal of Nuclear Materials 363 (2007) 197-201
Marín, Wettting of silicon carbide by copper alloys, Journal of Materials Science 38 (2003) 4047-4054
Louis, Reactivity and thermal behaviour of Cu-Si/SiC composites: effects of SiC oxidation, Materials Science and Technology 68 (2006) 1464-1468
Vasilos, Fabrication of CuSiC metal matrix composites, Journal of Material Science 41 (2006) 485-504
Bolt, Interface reactions between silicon carbide and interlayers in silicon carbide-copper metal-matrix composites, Journal of Nuclear Materials 363 (2007) 197-201
Marín, Wettting of silicon carbide by copper alloys, Journal of Materials Science 38 (2003) 4047-4054
Louis, Reactivity and thermal behaviour of Cu-Si/SiC composites: effects of SiC oxidation, Materials Science and Technology 68 (2006) 1464-1468
Vasilos, Fabrication of CuSiC metal matrix composites, Journal of Material Science 41 (2006) 485-504
Online since: May 2020
Authors: Yulia Bakhracheva
Bakhracheva, Prediction of residual life of reactor steels to ensure safe operation of nuclear power plant reactor vessels, IOP Conference Series: Materials Science and Engineering. 451(1), (2018) 012202
Trokhimchuk et al., Accident Prevention and Diagnostics of Underground Pipeline Systems, IOP Conference Series: Materials Science and Engineering. 262, (2017). 012171
Science Journal of Volgograd State University.
Materials science forum. 870 (2016) 545-549
Seriya 10, Innovatsionnaya deyatelnost [Science Journal of Volgograd State University.
Trokhimchuk et al., Accident Prevention and Diagnostics of Underground Pipeline Systems, IOP Conference Series: Materials Science and Engineering. 262, (2017). 012171
Science Journal of Volgograd State University.
Materials science forum. 870 (2016) 545-549
Seriya 10, Innovatsionnaya deyatelnost [Science Journal of Volgograd State University.