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Online since: January 2022
Authors: Vitaly Polosin
Since the dispersed materials properties depend on the particle size, particle size control is an important technological component in the production of powder materials [8, 9, 10].
Comparison of methods of photo sedimentation and laser diffraction in determining the particle size distribution of fine powders, Innovations in materials science and metallurgy, Ural Publishing House, University, Yekaterinburg, 2012, pp. 194-197
Diagnostics of materials 2(76) (2010) 26-29
Diagnostics of materials 5(75) (2009) 31-34
Journal of Physics: Conference Series 1679 (2020) 022010
Comparison of methods of photo sedimentation and laser diffraction in determining the particle size distribution of fine powders, Innovations in materials science and metallurgy, Ural Publishing House, University, Yekaterinburg, 2012, pp. 194-197
Diagnostics of materials 2(76) (2010) 26-29
Diagnostics of materials 5(75) (2009) 31-34
Journal of Physics: Conference Series 1679 (2020) 022010
Online since: August 2022
Authors: Hashem Al-Mattarneh, Elabiyi Michael Omoniyi, Rabah Mahmoud Ahmad Ismail, Erich Potrich, Jamal Alsadi, Surendra Kumar Shukla, Mohanad Khudier
For future environmental and energy technologies, photocatalytic materials that are extremely efficient, chemically stable and non-toxic will be required [2].
Materials and Methods Materials.
Material Science Engineering R. 38 (2008) 237-293
Journal of Hazardous Materials 3 (2007) 581-590
Journal of Water Chemistry and Technology. 29 (2007) 72-89.
Materials and Methods Materials.
Material Science Engineering R. 38 (2008) 237-293
Journal of Hazardous Materials 3 (2007) 581-590
Journal of Water Chemistry and Technology. 29 (2007) 72-89.
Online since: February 2022
Authors: Zhanna V. Eremeeva, Saeed Kamali, Artem I. Lizunov, Vasiliy A. Ovchinnikov
In the case of materials used in nuclear and space technology [1, 2], the use of boron carbide in the nanocrystalline state provides the reduction of the negative effect of radiation exposure on these materials [3-5], which reduces their swelling and radiation embrittlement [7, 8].
Zamulaeva, On the application of carbon-containing electrode materials in electrospark alloying technology.
Gorokhovsky, Dielectric properties of the polymer-matrix composites based on the system of Co-modified potassium titanate-polytetrafluorethylene, Journal of Composite Materials, 52 (2017) 135-144
Kuznetsov, Enhancement of percolation threshold by controlling the structure of composites based on nanostructured carbon filler, Journal of Electronic Materials, 48(8) (2019) 5111-5118
Konyukhov, Effect of Mixing Modes and Nano Additives on the Densification and Sintering Behavior of Tungsten Material Under Spark Plasma Sintering, Journal of Cluster Science, 28 (2017) 2905-2917
Zamulaeva, On the application of carbon-containing electrode materials in electrospark alloying technology.
Gorokhovsky, Dielectric properties of the polymer-matrix composites based on the system of Co-modified potassium titanate-polytetrafluorethylene, Journal of Composite Materials, 52 (2017) 135-144
Kuznetsov, Enhancement of percolation threshold by controlling the structure of composites based on nanostructured carbon filler, Journal of Electronic Materials, 48(8) (2019) 5111-5118
Konyukhov, Effect of Mixing Modes and Nano Additives on the Densification and Sintering Behavior of Tungsten Material Under Spark Plasma Sintering, Journal of Cluster Science, 28 (2017) 2905-2917
Online since: August 2013
Authors: Huan Liu, Guang Bo Xu, Min Jie Fu, Yun Jiang Liang
Materials and Methods
Experimental soil.
Che: Chinese Journal of Soil Science, 2007, 38(6), p. 1052-1057 (in Chinese) [4] L.H.
Wei: Journal of Anhui Agricultural Sciences, 2009, 37(11), p. 5054-5057 (in Chinese) [5] E.H.
Chen: Chinese Journal of Applied Ecology, 2010, 21(4), p. 889-894 (in Chinese) [6] Y.H.
Liu: Shanxi Science and Technology, 2010, 25(2), p. 78-79 (in Chinese) [7] Y.H.
Che: Chinese Journal of Soil Science, 2007, 38(6), p. 1052-1057 (in Chinese) [4] L.H.
Wei: Journal of Anhui Agricultural Sciences, 2009, 37(11), p. 5054-5057 (in Chinese) [5] E.H.
Chen: Chinese Journal of Applied Ecology, 2010, 21(4), p. 889-894 (in Chinese) [6] Y.H.
Liu: Shanxi Science and Technology, 2010, 25(2), p. 78-79 (in Chinese) [7] Y.H.
Online since: June 2014
Authors: Wayan Nata Septiadi, Nandy Putra, Ranggi Sahmura
In order to develop a performer heat pipe, researchers have been investigating the effect of deciding factors like wick, working fluid, and material as well as geometry.
Buschmann, Nanofluids in thermosyphons and heat pipes: Overview of recent experiments and modelling approaches, International Journal of Thermal Sciences. 72 (2013) 1- 17 [11] N.
Prakoso, The effect of Cu-water nanofluid and biomaterial wick on loop heat pipe performance, Advanced Material Research. 875-877 (2014) 356-361 [12] P.
, Journal of Nanoparticle research. 10 (2008) 1089-1097 [13] Q.
Mehta, Thermal performance of closed two-phase thermosyphon using nanofluids, International Journal of Thermal Sciences. 47 (2008) 659-667 [15] C.
Buschmann, Nanofluids in thermosyphons and heat pipes: Overview of recent experiments and modelling approaches, International Journal of Thermal Sciences. 72 (2013) 1- 17 [11] N.
Prakoso, The effect of Cu-water nanofluid and biomaterial wick on loop heat pipe performance, Advanced Material Research. 875-877 (2014) 356-361 [12] P.
, Journal of Nanoparticle research. 10 (2008) 1089-1097 [13] Q.
Mehta, Thermal performance of closed two-phase thermosyphon using nanofluids, International Journal of Thermal Sciences. 47 (2008) 659-667 [15] C.
Online since: April 2014
Authors: Viboon Saetang, P. Tevinpibanphan, S. Prombanpong
Construction and Building Materials; 2011, p. 1707-1711
Journal of Materials ProcessingTechnology; 2014, p. 285-294
Journal of Materials Processing Technology; 2003, p. 255-259
Journal of Materials Processing Technology; 2008, p. 249-258
Applied Surface Science; 2012, p. 5798-5802
Journal of Materials ProcessingTechnology; 2014, p. 285-294
Journal of Materials Processing Technology; 2003, p. 255-259
Journal of Materials Processing Technology; 2008, p. 249-258
Applied Surface Science; 2012, p. 5798-5802
Online since: March 2024
Authors: Ashish Kumar Singh, Nikokajs Glizde, Konstantins Savkovs
Materials Today: Proceedings, 2021. 47: p. 3819-3822
Chemical Engineering Science, 2023. 274: p. 118706
Materials Today: Proceedings, 2022. 56: p. 527-532
Nuclear Instruments and Methods in Physics Research Section B: Beam Interactions with Materials and Atoms, 2007. 257(1): p. 392-396
Journal of Materials Science Letters, 2000. 19(6): p. 473-475.
Chemical Engineering Science, 2023. 274: p. 118706
Materials Today: Proceedings, 2022. 56: p. 527-532
Nuclear Instruments and Methods in Physics Research Section B: Beam Interactions with Materials and Atoms, 2007. 257(1): p. 392-396
Journal of Materials Science Letters, 2000. 19(6): p. 473-475.
Online since: June 2019
Authors: Christos Karapepas, Daisy Nestler, Guntram Wagner
Nendel, et al., Innovative hybrid laminates of aluminium alloy foils and fibre‐reinforced thermoplastic layers, Materials Science and Engineering Technology 47 (11) (2016) 1121-1131.
Bandorf, et al., Me-DLC films as material for highly sensitive temperature compensated strain gauges, Diamond & Related Materials 20 (5-6) (2011) 814-818.
Wagner, et al., Preparation of Ni-C thin films for strain sensor applications in new hybrid laminates with thermoplastic matrix, Materials Science Forum 825–826 (2015) 548-555.
Journal of Physics Condensed Matter 26 (41) (2014) 415501.
Murray, et al., The role of the nickel catalyst and its chemical and structural evolution during carbon nanopearl growth, Journal of Electronic Materials 42 (3) (2013) 417-425
Bandorf, et al., Me-DLC films as material for highly sensitive temperature compensated strain gauges, Diamond & Related Materials 20 (5-6) (2011) 814-818.
Wagner, et al., Preparation of Ni-C thin films for strain sensor applications in new hybrid laminates with thermoplastic matrix, Materials Science Forum 825–826 (2015) 548-555.
Journal of Physics Condensed Matter 26 (41) (2014) 415501.
Murray, et al., The role of the nickel catalyst and its chemical and structural evolution during carbon nanopearl growth, Journal of Electronic Materials 42 (3) (2013) 417-425
Online since: August 2007
Authors: Jong Ho Kim, Do Kyung Kim, Young Gu Kim, Hyeon Keun Lee
Lawn, Journal of Materials Research, 18 (2003),
222-227
[4] O.
Kim, Journal of Materials Research, 17 (2002), 3019-3036 [6] C.
Kim, Journal of Materials Research, 20 (2005), 1389-1395 [11] F.
Lund, Journal of Materials Research, 21 (2006), 725-736 [13] R.
Song, Journal of Materials Science, 36 (2001), 1695-1700
Kim, Journal of Materials Research, 17 (2002), 3019-3036 [6] C.
Kim, Journal of Materials Research, 20 (2005), 1389-1395 [11] F.
Lund, Journal of Materials Research, 21 (2006), 725-736 [13] R.
Song, Journal of Materials Science, 36 (2001), 1695-1700