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Online since: June 2023
Authors: Vinayak Adimule, Tribikram Gupta, S. Vaijayanthimala, N. Rajeswari Yogamalar, Kalpana Sharma
We have advanced the materials synthesis of pseudocapacitive anode materials.
Materials, 15 (2022) 7591
Shashanka, Halil Esgin, Volkan Murat Yilmaz, Yasemin Caglar, Fabrication and characterization of green synthesized ZnO nanoparticle based dye-sensitized solar cell, Journal of Science: Advanced Materials and Devices, 5 (2020) 185-191
Journal of Materials Research 37 (2022) 2396–2405. https://doi.org/10.1557/s43578-022-00641-y [34] V.
Journal of Materials Science & Technology 62 (2021) 60–69.
Materials, 15 (2022) 7591
Shashanka, Halil Esgin, Volkan Murat Yilmaz, Yasemin Caglar, Fabrication and characterization of green synthesized ZnO nanoparticle based dye-sensitized solar cell, Journal of Science: Advanced Materials and Devices, 5 (2020) 185-191
Journal of Materials Research 37 (2022) 2396–2405. https://doi.org/10.1557/s43578-022-00641-y [34] V.
Journal of Materials Science & Technology 62 (2021) 60–69.
Online since: November 2010
Authors: Seiichiro Sakata, Fumihiro Ashida
The stochastic characteristics of the homogenized elastic property will take an influence of the
microscopic uncertainty in a material property or geometry of component materials, therefore the
stochastic homogenization analysis will be important for reliability evaluation of a composite
structure.
Since a microscopic stress distribution in a composite material will be complex and also take an influence of a random variation in material properties or geometry of component materials, a stochastic microscopic stress analysis will be also important.
In the Monte-Carlo simulation process, the observed characteristic displacement and the observed macroscopic strain tensor are computed for each observed value of elastic properties of component materials.
Elastic properties of the component materials are listed in table 1.
Zako: Journal of Solid Mechanics and Materials Engineering, Vol.2 (2008), pp.70-81
Since a microscopic stress distribution in a composite material will be complex and also take an influence of a random variation in material properties or geometry of component materials, a stochastic microscopic stress analysis will be also important.
In the Monte-Carlo simulation process, the observed characteristic displacement and the observed macroscopic strain tensor are computed for each observed value of elastic properties of component materials.
Elastic properties of the component materials are listed in table 1.
Zako: Journal of Solid Mechanics and Materials Engineering, Vol.2 (2008), pp.70-81
Online since: October 2013
Authors: Ran Guo, Wen Hai Gai, Jun Guo
What is materials physics,anyway?
Journal of Materials Engineering. 2002, 6: 3-6
Physical metallurgy and materials, 1993, 24A: 2531
Materials Science & Engineering A: Structural Materials: Properties, Microstructure and Processing, 1993, A172(1-2): 63-69
Materials Science and Engineering A: Structural Materials: Properties, Microstructure and Processing, 1995, A196(1-2): 135-144
Journal of Materials Engineering. 2002, 6: 3-6
Physical metallurgy and materials, 1993, 24A: 2531
Materials Science & Engineering A: Structural Materials: Properties, Microstructure and Processing, 1993, A172(1-2): 63-69
Materials Science and Engineering A: Structural Materials: Properties, Microstructure and Processing, 1995, A196(1-2): 135-144
Online since: October 2013
Authors: Rong Wu Li, Gin Chen, Da Wei Yang, Jiong Xin Zheng, Li Fang Chen, Huan Sheng Cheng
Ancient kilns typically use materials nearby, hence the raw material sources for kilns in different time and place are different.
Acknowledgements This work is supported by the National Natural Science Foundation of China (51172212, 50772101), the Nuclear Analysis Technology Laboratory of Chinese Academy of Science (B0901) and the Project of Fundamental and Advanced technology Research of Henan Province(102300410168).
[6] Rongwu Li, Weijuan Zhao, Wenjun Zhao, etc., Journal of Beijing Normal University (Natural Science), 42 (2)( 2006), p144-149(In Chinese)
[7] Guoxia Li, Hongwei Sun, Rongwu Li, etc., Journal of the Chinese Ceramic Society, 36 (6)(2008), p816-820(In Chinese)
Shanghai: Shanghai science and Technology Publishing House( 2009), p392-398.
Acknowledgements This work is supported by the National Natural Science Foundation of China (51172212, 50772101), the Nuclear Analysis Technology Laboratory of Chinese Academy of Science (B0901) and the Project of Fundamental and Advanced technology Research of Henan Province(102300410168).
[6] Rongwu Li, Weijuan Zhao, Wenjun Zhao, etc., Journal of Beijing Normal University (Natural Science), 42 (2)( 2006), p144-149(In Chinese)
[7] Guoxia Li, Hongwei Sun, Rongwu Li, etc., Journal of the Chinese Ceramic Society, 36 (6)(2008), p816-820(In Chinese)
Shanghai: Shanghai science and Technology Publishing House( 2009), p392-398.
Online since: October 2013
Authors: Yan Peng, Bing Hai Lv, Hong Bo Ji, Lei Sun, Ju Long Yuan, Chen Chen Dong
Then, with the development of materials science and related techniques, the application field of non-Newtonian fluid begins to expand and some intelligent materials are also successfully applied to damping device manufacturing and machining.
Summary Based on the special rheological properties, non-Newtonian fluids are used as additives, mediums and protective materials successfully.
Savaresi, et al: Mechatronics Vol.19(2009), p.410 [12] Ioan Bica: Journal of Magnetism and Magnetism and Magnetic Materials Vol.270 (2004), p. 321 [13] Lee, Y.S., Wetzel, E.D., Wagner, N.J.
Journal of Materials Science Vol.38(13) (2003), p. 2825 [14] R.G.
Lee: Journal of Materials Processing Technology Vol. 155-1566 (2004), p.1293 [19] TANG Yong, ZHOU Deming, XIA Wei, et al: Journal of South China University of Technology (Nature Science Edition) Vol. 29 (1) (2001), p.34 [20] JI Shiming, LI Chen, TAN Dapeng, et al: Journal of Mechanical Engineering Vol. 47(17) (2011), p.156
Summary Based on the special rheological properties, non-Newtonian fluids are used as additives, mediums and protective materials successfully.
Savaresi, et al: Mechatronics Vol.19(2009), p.410 [12] Ioan Bica: Journal of Magnetism and Magnetism and Magnetic Materials Vol.270 (2004), p. 321 [13] Lee, Y.S., Wetzel, E.D., Wagner, N.J.
Journal of Materials Science Vol.38(13) (2003), p. 2825 [14] R.G.
Lee: Journal of Materials Processing Technology Vol. 155-1566 (2004), p.1293 [19] TANG Yong, ZHOU Deming, XIA Wei, et al: Journal of South China University of Technology (Nature Science Edition) Vol. 29 (1) (2001), p.34 [20] JI Shiming, LI Chen, TAN Dapeng, et al: Journal of Mechanical Engineering Vol. 47(17) (2011), p.156
Online since: January 2013
Authors: Ya Lan Li, Wei Peng Guo, Wen Tao Jiang, Yu Bo Fan, Qingyuan Wang
Lab., Sichuan University,Chengdu 610065,China;
2 Key Lab for Biomechanics & Mechanobiology of Ministry of Education,School of Biological Science & Medical Engineering, Beihang University,Beijing,100191,China)
alylzx18@163.com, bscubme@yahoo.com.cn
Keywords: shaping amplitude; titanium implant; material strength; plastic deformation
Abstract.
However, according to the relationship between the plastic deformation and elastic modulus of metallic materials, if the material properties of titanium and its alloys, aluminum, steel and other metal materials are same, as well as the elastic modulus decreases with plastic deformation, the stress in the shaping area is reduced.
Study on biomechanical properties of nanostructured titanium[J].Journal of Medical Biomechanics, 2007 22(3):P282-286.
Journal of Mater Processing Technology, 1996, 57 (1-2):48-54
International Journal of Plasticity, 2002, 18 (5-6) :63-65
However, according to the relationship between the plastic deformation and elastic modulus of metallic materials, if the material properties of titanium and its alloys, aluminum, steel and other metal materials are same, as well as the elastic modulus decreases with plastic deformation, the stress in the shaping area is reduced.
Study on biomechanical properties of nanostructured titanium[J].Journal of Medical Biomechanics, 2007 22(3):P282-286.
Journal of Mater Processing Technology, 1996, 57 (1-2):48-54
International Journal of Plasticity, 2002, 18 (5-6) :63-65
Online since: August 2023
Authors: Vladimir Andronov, Yuliya Danchenko, Halina Olijnyk, Anatoliy Kosse, Mariia Rastorhueva
Introduction
Disperse and powder materials of various origins are in great demand in a wide range of industries.
The complexity of studying the surface of dispersed inorganic materials of an amorphous structure or materials of organic origin is caused by the need to identify a surface with a complex chemical structure and unstable composition [18, 19].
Khmyrova, Acid-basic surface properties of dispersed fillers based of metal oxides TiO2, Al2O3, CaO and Fe2O3, IOP Conference Series: Materials Science and Engineering, 708 (2019) 012083 10
Khmyrova, Investigation of the surface properties of quartz-based dispersed materials, IOP Conference Series: Materials Science and Engineering, 1164 (2021) 012021 11
Yavorska, Investigation of surface properties of dispersive fillers based on plant raw materials, Eastern-European Journal of Enterprise Technologies, 5 12(89) (2017) 20−26
The complexity of studying the surface of dispersed inorganic materials of an amorphous structure or materials of organic origin is caused by the need to identify a surface with a complex chemical structure and unstable composition [18, 19].
Khmyrova, Acid-basic surface properties of dispersed fillers based of metal oxides TiO2, Al2O3, CaO and Fe2O3, IOP Conference Series: Materials Science and Engineering, 708 (2019) 012083 10
Khmyrova, Investigation of the surface properties of quartz-based dispersed materials, IOP Conference Series: Materials Science and Engineering, 1164 (2021) 012021 11
Yavorska, Investigation of surface properties of dispersive fillers based on plant raw materials, Eastern-European Journal of Enterprise Technologies, 5 12(89) (2017) 20−26
Online since: February 2011
Authors: Xing Ai, Jun Zhao, Jian Xin Deng, Hui Zhang, Ze Wu
The friction and wear behavior of cutting tool materials keeps an issue.
Fig. 3 shows the profile of wear scar of both tool materials at 600°C.
Rech and et al: Journal of Materials Processing Technology.
Abdulllah: Journal of Materials Processing Technology.
Ben Salem, et al: Journal of Materials Processing Technology.
Fig. 3 shows the profile of wear scar of both tool materials at 600°C.
Rech and et al: Journal of Materials Processing Technology.
Abdulllah: Journal of Materials Processing Technology.
Ben Salem, et al: Journal of Materials Processing Technology.
Online since: November 2015
Authors: Octavian Bologa, Gabriel Racz, Cristina Biris, Claudia Girjob
Introduction
Laminated composite materials are increasingly used in structural elements for automotive bodies because they are lightweight materials.
“Sandwich”-like composite material By Roos E. and Maile K. (2005) the composite materials can be of three types: fiber reinforced composite materials, composite materials reinforced with particles and laminated composite materials [1].
Maile, Materials science for engineers (in German), Berlin Heidelberg, Springer, 2005
International Journal of Solids and Structures 42, (2005) 1491–1512 [5] B.
Journal of Materials Processing Technology. 139, 1 (2003) 1-7
“Sandwich”-like composite material By Roos E. and Maile K. (2005) the composite materials can be of three types: fiber reinforced composite materials, composite materials reinforced with particles and laminated composite materials [1].
Maile, Materials science for engineers (in German), Berlin Heidelberg, Springer, 2005
International Journal of Solids and Structures 42, (2005) 1491–1512 [5] B.
Journal of Materials Processing Technology. 139, 1 (2003) 1-7
Online since: August 2014
Authors: Vladimír Ivančo, Gabriel Fedorko, Ladislav Novotný
In order to study the influence of material model on the results of simulations, three material models were considered:
- idealized elastoplastic material model without hardening,
- bilinear material model with hardening defined by tangential modulus,
- material model based on nonlinear relation between stress and strain.
Although the curves for elastoplastic and bilinear materials are practically identical, they differ markedly from those related to a multilinear material.
Acknowledgement The support of the Scientific Grant Agency of Ministry of Education, Science, Research and Sport of the Slovak Republic and Slovak Academy of Sciences under grant VEGA 1/0090/12 is greatly appreciated.
Ďuricová, Computational modeling of geometric imperfections and buckling strength of cold-formed steel, Journal of Constructional Steel Research 78 (2012) 1–7
Rasmussen, Full-range stress–strain curves for stainless steel alloys, Journal of Constructional Steel Research 59 (2003) 47–61.
Although the curves for elastoplastic and bilinear materials are practically identical, they differ markedly from those related to a multilinear material.
Acknowledgement The support of the Scientific Grant Agency of Ministry of Education, Science, Research and Sport of the Slovak Republic and Slovak Academy of Sciences under grant VEGA 1/0090/12 is greatly appreciated.
Ďuricová, Computational modeling of geometric imperfections and buckling strength of cold-formed steel, Journal of Constructional Steel Research 78 (2012) 1–7
Rasmussen, Full-range stress–strain curves for stainless steel alloys, Journal of Constructional Steel Research 59 (2003) 47–61.