Sort by:
Publication Type:
Open access:
Publication Date:
Periodicals:
Search results
Online since: June 2015
Authors: Yaroslav A. Erisov, Fedor V. Grechnikov
Kuwabara, Advances in anisotropy and formability, International Journal of Material Forming. 3 (2010) 165-189
Hirsch, Texture control by thermomechanical processing of AA6xxx Al-Mg-Si sheet alloys for automotive applications - a review, Materials Science and Engineering A. 336 (2002) 249-262
Van Houtte, On the role of texture development in the forming limits of sheet metals, International Journal of Mechanical Sciences. 38 (1996) 1117-1126
Karlsson, Control of microstructure and earing behaviour in aluminium alloy AA 3004 hot bands, Materials Science and Technology. 5 (1989) 1118-1127
Campbell Jr., Manufacturing Technology for Aerospace Structural Materials, Elsevier, Oxford, 2006
Hirsch, Texture control by thermomechanical processing of AA6xxx Al-Mg-Si sheet alloys for automotive applications - a review, Materials Science and Engineering A. 336 (2002) 249-262
Van Houtte, On the role of texture development in the forming limits of sheet metals, International Journal of Mechanical Sciences. 38 (1996) 1117-1126
Karlsson, Control of microstructure and earing behaviour in aluminium alloy AA 3004 hot bands, Materials Science and Technology. 5 (1989) 1118-1127
Campbell Jr., Manufacturing Technology for Aerospace Structural Materials, Elsevier, Oxford, 2006
Online since: March 2022
Authors: Balasaheb Kharat, V.B. Malode, Vikas Magar, Sagar Rathod, A.A. Chaudhari
Materials Science and Engineering: B, 2012. 177(2): p. 269-273
Critical reviews in solid state and materials sciences, 2014. 39(1): p. 46-80
Materials Science and Engineering: B, 2004. 106(3): p. 269-274
Journal of Magnetism and Magnetic Materials, 2010. 322(21): p. 3470-3475
Journal of magnetism and magnetic materials, 2014. 366: p. 44-49
Critical reviews in solid state and materials sciences, 2014. 39(1): p. 46-80
Materials Science and Engineering: B, 2004. 106(3): p. 269-274
Journal of Magnetism and Magnetic Materials, 2010. 322(21): p. 3470-3475
Journal of magnetism and magnetic materials, 2014. 366: p. 44-49
Online since: January 2013
Authors: Ren Feng Zhao, Sheng Dun Zhao, Bin Zhong
The experimental results show that the new cropping process can crop bars with different materials and diameters.
However, these cropping machines have many defects like low productivity, high energy-consumption, materials waste and noise pollution.
The cropping machine can manufacture bars with different materials and diameters.
The new manufacturing precision cropping process is green, which can crop bars with different materials and diameters and get high-quality cross-section.
[2] Chen Jin-De, Yu De-Hong, “Plastic Precision Cropping of Metal Materials,” International Journal of Machine Tools and Manufacture, 32 (3), pp. 425, 1992
However, these cropping machines have many defects like low productivity, high energy-consumption, materials waste and noise pollution.
The cropping machine can manufacture bars with different materials and diameters.
The new manufacturing precision cropping process is green, which can crop bars with different materials and diameters and get high-quality cross-section.
[2] Chen Jin-De, Yu De-Hong, “Plastic Precision Cropping of Metal Materials,” International Journal of Machine Tools and Manufacture, 32 (3), pp. 425, 1992
Online since: June 2015
Authors: Sodipo Bashiru Kayode, Azlan Abdul Aziz
Silica nanoparticle is one of the preferred materials used to modify the surface of SPMN [3].
Materials and Method Iron (III) chloride hexahydrate, iron (II) chloride tetrahydrate, ammonium hydroxide, sodium chloride salts, sodium hydroxide, 1-butanol, triethoxyvinylsilane (TEVS) and perchloric acid (HClO4) were bought from Sigma-Aldrich and used directly without any further purification.
Bahadur, Preparation and characterization of phospholipid stabilized uniform sized magnetite nanoparticles, Journal of magnetism and magnetic materials, 293 (2005) 62-68
BeckJúnior, Magnetic and multifunctional magnetic nanoparticles in nanomedicine: challenges and trends in synthesis and surface engineering for diagnostic and therapy applications, Biomedical Engineering, Trends in Materials Science: InTech, (2011)
Aziz, Sonochemical synthesis of silica coated superparamagnetic Iron Oxide nanoparticles, Materials Science Forum, 756 (2013) 74-79
Materials and Method Iron (III) chloride hexahydrate, iron (II) chloride tetrahydrate, ammonium hydroxide, sodium chloride salts, sodium hydroxide, 1-butanol, triethoxyvinylsilane (TEVS) and perchloric acid (HClO4) were bought from Sigma-Aldrich and used directly without any further purification.
Bahadur, Preparation and characterization of phospholipid stabilized uniform sized magnetite nanoparticles, Journal of magnetism and magnetic materials, 293 (2005) 62-68
BeckJúnior, Magnetic and multifunctional magnetic nanoparticles in nanomedicine: challenges and trends in synthesis and surface engineering for diagnostic and therapy applications, Biomedical Engineering, Trends in Materials Science: InTech, (2011)
Aziz, Sonochemical synthesis of silica coated superparamagnetic Iron Oxide nanoparticles, Materials Science Forum, 756 (2013) 74-79
Online since: March 2008
Authors: Bin Shi Xu, Yi Xin, Wei Zhang, Shu Zhang
Tested by TDCB and WTDCB, the microcapsule self-repair materials were
proved effectively.
* Corresponding author The mechanism performance of the microcapsule, the shell material, and the matrix material were respectively tested and analyzed by Nano Test 600 (Micro Materials Ltd., Wrexham, UK).
Different from the shell material, the microcapsule mechanical performances were more like the matrix materials. . 1 2 3 4 5 6 7 8 9 10 11 12 0 1 2 3 4 Modules Hardness Sample No.
Vol. 71(1999), p775 [4] Brown E N : Journal of Microencapsulation.
Vol. 34 (2003), p743 [7] Mehdiabadi S.: Journal of Applied Polymer Science Vol. 6(1998), p631 [8] Sanghvi S P.: Journal of Microencapsulation.Vol. 9(1992), p21 [9] Alexandridou S.: Journal of Microencapsulation.
* Corresponding author The mechanism performance of the microcapsule, the shell material, and the matrix material were respectively tested and analyzed by Nano Test 600 (Micro Materials Ltd., Wrexham, UK).
Different from the shell material, the microcapsule mechanical performances were more like the matrix materials. . 1 2 3 4 5 6 7 8 9 10 11 12 0 1 2 3 4 Modules Hardness Sample No.
Vol. 71(1999), p775 [4] Brown E N : Journal of Microencapsulation.
Vol. 34 (2003), p743 [7] Mehdiabadi S.: Journal of Applied Polymer Science Vol. 6(1998), p631 [8] Sanghvi S P.: Journal of Microencapsulation.Vol. 9(1992), p21 [9] Alexandridou S.: Journal of Microencapsulation.
Online since: May 2020
Authors: O.G. Selivanov, N.V. Chukhlanova, V.Yu. Chukhlanov
The results of the coating tests on a substrate from different materials are presented in table 1.
Chukhlanova, Protective covering based on siloxane polymer nanopatterned by alkoxytitanatehttps, Materials Science Forum, vol. 945, 2019, pp. 718-723
Enikolopov, Principles of Creation of Composite Polymeric Materials, Khimiya, Moscow, 1990
Vasnev, Modification of surface of the moieties by robust silicone compound, Plastic materials, №6, 2011, pp. 58-6
Volkov, Interpolyelectrolyte complexation as a tool for controlling yhe mechanical, sorption, and diffusion properties of film materials, Russian Journal of Applied Chemistry, Т. 88, № 3, 2015, 480-487
Chukhlanova, Protective covering based on siloxane polymer nanopatterned by alkoxytitanatehttps, Materials Science Forum, vol. 945, 2019, pp. 718-723
Enikolopov, Principles of Creation of Composite Polymeric Materials, Khimiya, Moscow, 1990
Vasnev, Modification of surface of the moieties by robust silicone compound, Plastic materials, №6, 2011, pp. 58-6
Volkov, Interpolyelectrolyte complexation as a tool for controlling yhe mechanical, sorption, and diffusion properties of film materials, Russian Journal of Applied Chemistry, Т. 88, № 3, 2015, 480-487
Online since: July 2015
Authors: Ferry Hadary, Nelly Wahyuni, Syaifurrahman Syaifurrahman, Ayong Hiendro
Oskam, Dye-sensitized solar cells with natural dye extracted from achiote seeds, Solar Energy Materials and Solar Cells. 94(2010) 40–44
Majid, A.K Arof, Performance of dye-sensitized solar cells with (PVDF-HFP)-KI-EC-PC electrolyte and different dye materials, International Journal of Photoenergy. 2011
Sharma, Dye-sensitized solar cell based on rose bengal dye and nanocrystalline TiO2, Solar Energy Materials and Solar Cells. 92(2008) 909–913
Bignozzi, Efficient dye-sensitized solar cells using red turnip and purple wild sicilian prickly pear fruits, International Journal of Moleciular Sciences. 11(2010) 254–267
Fatholahi, Natural pomegranate juice as photosensitizers for dye-sensitized solar cell (DSC), Journal of Optoelectronics and Advanced Materials-Rapid Communications. 5(2011) 360–362
Majid, A.K Arof, Performance of dye-sensitized solar cells with (PVDF-HFP)-KI-EC-PC electrolyte and different dye materials, International Journal of Photoenergy. 2011
Sharma, Dye-sensitized solar cell based on rose bengal dye and nanocrystalline TiO2, Solar Energy Materials and Solar Cells. 92(2008) 909–913
Bignozzi, Efficient dye-sensitized solar cells using red turnip and purple wild sicilian prickly pear fruits, International Journal of Moleciular Sciences. 11(2010) 254–267
Fatholahi, Natural pomegranate juice as photosensitizers for dye-sensitized solar cell (DSC), Journal of Optoelectronics and Advanced Materials-Rapid Communications. 5(2011) 360–362
Online since: January 2014
Authors: Hui Chao Zhao, Fan Wu, Yi Feng Dong, Wan Jun Hao, Ming Ming Wang, Dong Wei Chen, Ying Ying Yi
It is an effective way of electromagnetic radiation protection to use electromagnetic radiation protection materials, especially the electromagnetic wave absorbing materials[3,4].
[2] H.Y.Zhao,etc, Electromagnetic wave shielding and absorbing material[J].Journal of Yunnan University(Natural Science Edition). 2002,24(1A):58-62
[5] W.J.Hao, Application of paint absorbing electromagnetic wave in city construction[J].Science and technology of foreign building materials,2004,5(4):74-76
[12] J.J.Chen,etc, Broadening Design and Preparation of Wave Absorbing Building Plaster Board in S band[J].Journal of Building Materials,2011,14(5):675-679
[13] H.Y.Liu,W.Sun,etc, Improving the S-band Performance of the Microwave Absorbing Materials Utilizing Frequency Selective Surface[J],Journal of Microwaves, 2006,22(3):10-13
[2] H.Y.Zhao,etc, Electromagnetic wave shielding and absorbing material[J].Journal of Yunnan University(Natural Science Edition). 2002,24(1A):58-62
[5] W.J.Hao, Application of paint absorbing electromagnetic wave in city construction[J].Science and technology of foreign building materials,2004,5(4):74-76
[12] J.J.Chen,etc, Broadening Design and Preparation of Wave Absorbing Building Plaster Board in S band[J].Journal of Building Materials,2011,14(5):675-679
[13] H.Y.Liu,W.Sun,etc, Improving the S-band Performance of the Microwave Absorbing Materials Utilizing Frequency Selective Surface[J],Journal of Microwaves, 2006,22(3):10-13
Online since: January 2022
Authors: Hideaki Tsukamoto, Kaito Fukui
Fabrication of Zirconia/ 304 Stainless Steel Functionally Graded Materials using Centrifugal Slurry Methods and Spark Plasma Sintering
Kaito Fukui1,a and Hideaki Tsukamoto1,b,*
1Department of Mechanical Engineering, Graduate School of Science and Engineering,
Hosei University, 3-7-2 Kajino-cho, Koganei-shi, Tokyo 184-8584, Japan.
Functionally graded materials (FGMs) are multi-phase composites to be engineered with gradual spatial variations of constituents.
Introduction Functionally graded materials (FGMs) are practically ideal concepts to protect the materials and structures working under super high temperatures and temperature gradients, which can be engineered with gradual spatial variations of constituents, resulting in smooth variation of thermal, mechanical and electrical properties.
Materials Characterization.
Uemura, Functionally Graded Materials-Fundamentals and Applications, CORONA PUBLISHING CO., LTD, Tokyo Japan, p66
Functionally graded materials (FGMs) are multi-phase composites to be engineered with gradual spatial variations of constituents.
Introduction Functionally graded materials (FGMs) are practically ideal concepts to protect the materials and structures working under super high temperatures and temperature gradients, which can be engineered with gradual spatial variations of constituents, resulting in smooth variation of thermal, mechanical and electrical properties.
Materials Characterization.
Uemura, Functionally Graded Materials-Fundamentals and Applications, CORONA PUBLISHING CO., LTD, Tokyo Japan, p66
Online since: March 2018
Authors: Hamid Sellaf, Aissa Asroun, Habib Trouzine
As for the suspended materials are all the organic and non-organic materials which did not decompose.
Carpathian Journal of Earth and Environmental Sciences, 10 (2015) 95-104
Carpathian Journal of Earth and Environmental Sciences, 115 (2016) 529 – 538
Carpathian Journal of Earth and Environmental Sciences, 12 (2015) 271 - 280
International Journal of Innovative Research in Science, Engineering and Technology, 3 (2014) 8447-8454
Carpathian Journal of Earth and Environmental Sciences, 10 (2015) 95-104
Carpathian Journal of Earth and Environmental Sciences, 115 (2016) 529 – 538
Carpathian Journal of Earth and Environmental Sciences, 12 (2015) 271 - 280
International Journal of Innovative Research in Science, Engineering and Technology, 3 (2014) 8447-8454