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Online since: September 2013
Authors: Mahbube Subhani, Bijan Samali, Jian Chun Li, Hauke Gravenkamp
Guided wave theory for isotropic materials has been successfully used for concrete and other structures [10, 11, 13-15].
However, timber is an orthotropic material and guided wave theory for isotropic materials cannot directly be used to verify the experimental velocities at high frequency [16].
Wood Science and Technology 1985;19:183
Mechanics of Composite Materials 2007;43:277
Spreinger series in wood sciences, Editors: TE Timell, R.
However, timber is an orthotropic material and guided wave theory for isotropic materials cannot directly be used to verify the experimental velocities at high frequency [16].
Wood Science and Technology 1985;19:183
Mechanics of Composite Materials 2007;43:277
Spreinger series in wood sciences, Editors: TE Timell, R.
Online since: June 2015
Authors: B. Kanimozhi, Amit Arnav, Eluri Vamsi Krishna, R. Thamarai Kannan
Classification of Phase Change Materials.
Phase change materials have been used successfully in space heating applications.
Ananthanarayanan V., Sahai Y., Mobley C.E. and Rapp R.A. (1987), “Modeling of fixed bed heat storage units utilizing phase-change materials”, Journal of Metallurgical Trans.
Buddhi D. and Murthy V.V.S. (1996), “Comparison of using thermocouple and optical fiber to study the solid-liquid boundary in phase change materials”, Journal of Energy Conservation and Management, Vol. 37, No. 5, pp. 637-639
II', Solar Energy Materials, vol. 21, no.
Phase change materials have been used successfully in space heating applications.
Ananthanarayanan V., Sahai Y., Mobley C.E. and Rapp R.A. (1987), “Modeling of fixed bed heat storage units utilizing phase-change materials”, Journal of Metallurgical Trans.
Buddhi D. and Murthy V.V.S. (1996), “Comparison of using thermocouple and optical fiber to study the solid-liquid boundary in phase change materials”, Journal of Energy Conservation and Management, Vol. 37, No. 5, pp. 637-639
II', Solar Energy Materials, vol. 21, no.
Online since: September 2013
Authors: Shamsul Baharin Jamaludin, Mazlee Mohd Noor, Madzura Mohamad
The aim of this review is to share the ideas and present the findings from previous works undertaken to evaluate the suitability of mineral wastes as a sand replacement materials to produce sustainable and durable construction materials in the future.
World Academy of Science, Engineering and Technology 53 (2009) 807-813
The next revolution in materials of construction, Proc.
Indian Journal of Engineering & Materials Sciences. (2010) 140-144
International Journal of Civil and Structural Engineering Volume 2, No. 3 (2012)
World Academy of Science, Engineering and Technology 53 (2009) 807-813
The next revolution in materials of construction, Proc.
Indian Journal of Engineering & Materials Sciences. (2010) 140-144
International Journal of Civil and Structural Engineering Volume 2, No. 3 (2012)
Online since: August 2020
Authors: Aram Mohammed Raheem
Controlling the Permeability of Sandy Soil Using Different Local Waste Materials
Aram Mohammed Raheem1,a*
1Department of Civil Engineering, University of Kirkuk, Kirkuk, Iraq
aaram_raheem@uokirkuk.edu.iq
Keywords: soil permeability, sand, waste materials, plastic, rubber, finite element method.
Waste Materials.
Variation the coefficient of permeability with the addition of 5% of waste materials.
Variation the coefficient of permeability with the addition of 7% of waste materials.
Arrykul, Compacted sand-bentonite mixtures for hydraulic containment liners, Songklanakarin Journal of Science and Technology, 27(2) (2005) 313-323
Waste Materials.
Variation the coefficient of permeability with the addition of 5% of waste materials.
Variation the coefficient of permeability with the addition of 7% of waste materials.
Arrykul, Compacted sand-bentonite mixtures for hydraulic containment liners, Songklanakarin Journal of Science and Technology, 27(2) (2005) 313-323
Online since: April 2016
Authors: Xian Hua Hou, Yan Ling Huang, Xiao Li Zou, She Jun Hu, Shao Meng Ma
There is no other impurity peak, suggesting high purity of the obtained materials.
Acknowledgement This work was financially supported by the National Science Foundation of China (NSFC, Nos. 51201066 and 51171065), the Natural Science Foundation of Guangdong Province (No.
Gu: Journal of Power Sources.
Julien: Journal of Power Sources.
Passerini: Journal of Power Sources.
Acknowledgement This work was financially supported by the National Science Foundation of China (NSFC, Nos. 51201066 and 51171065), the Natural Science Foundation of Guangdong Province (No.
Gu: Journal of Power Sources.
Julien: Journal of Power Sources.
Passerini: Journal of Power Sources.
Online since: December 2019
Authors: Ruslan V. Lesovik, Sergey V. Biryukov, Alexander E. Fomin, E.S. Glagolev
Sheychenko, Mechanoactivation as a way to increase the efficiency of using raw materials of various genesis in building materials science, Bulletin of Belgorod State Technological University named after V.G.
Kozhukhova, Effect of slaked lime on properties of autoclave composite binders, World Appliance Sciences Journal. 24 (11) (2013) 1519–1524
Series: Materials Science and Engineering. 327 (2018) 042029
Lesovik et al., Evaluation of the energy state of raw materials for the production of building materials, Construction materials. 10 (2012) 53–55.
Implementation examples in construction material science, Belgorod: BSTU, 2016
Kozhukhova, Effect of slaked lime on properties of autoclave composite binders, World Appliance Sciences Journal. 24 (11) (2013) 1519–1524
Series: Materials Science and Engineering. 327 (2018) 042029
Lesovik et al., Evaluation of the energy state of raw materials for the production of building materials, Construction materials. 10 (2012) 53–55.
Implementation examples in construction material science, Belgorod: BSTU, 2016
Online since: October 2024
Authors: Nathapong Sukhawipat, Narongrit Sosa, Thanathach Yingshataporn-A-Nan, Panachai Thusanaphoom, Thanadol Lardsaluk, Nattawut Moolchai, Wiwat Jeungthanasirigool
This decrease suggests that the composite materials exhibit increased flexibility compared to Neat NR.
Fan, Polymer dielectrics for capacitive energy storage: From theories, materials to industrial capacitors, Materials Today. 68 (2023) 298–333
Saetung, Synthesis and characterization of novel natural rubber based cationic waterborne polyurethane: Effect of emulsifier and diol class chain extender, Journal of Applied Polymer Science. 135 (2018)
Assiri, Optimization of structural, dielectric, and magnetic properties of nanocrystalline copper doped spinel ferrites, Materials Science and Engineering: B. 297 (2023) 116739
Asath Bahadur, Impact of nickel substitution on structural, dielectric, magnetic, and electrochemical properties of copper ferrite nanostructures for energy storage devices, Journal of Colloid and Interface Science. 653 (2024) 917–929
Fan, Polymer dielectrics for capacitive energy storage: From theories, materials to industrial capacitors, Materials Today. 68 (2023) 298–333
Saetung, Synthesis and characterization of novel natural rubber based cationic waterborne polyurethane: Effect of emulsifier and diol class chain extender, Journal of Applied Polymer Science. 135 (2018)
Assiri, Optimization of structural, dielectric, and magnetic properties of nanocrystalline copper doped spinel ferrites, Materials Science and Engineering: B. 297 (2023) 116739
Asath Bahadur, Impact of nickel substitution on structural, dielectric, magnetic, and electrochemical properties of copper ferrite nanostructures for energy storage devices, Journal of Colloid and Interface Science. 653 (2024) 917–929
Calculation and Experimental Technique for Determining the Damping Properties of Composite Materials
Online since: October 2018
Authors: O.V. Sharkov, Sergei Koryagin, Nikolay Velikanov
Calculation and Experimental Technique for Determining the Damping Properties of Composite Materials
S.I.
At the same time, an increase in the vibration frequency was observed, which indicates an increase in the elastic properties of composite materials.
References [1] Ebrahimi F and Barati M R 2017 Smart Materials and Structures 26(6) 065018 [2] Gerstenberger C, Osiecki T, Kroll L, Scholz P and Seidlitz H 2016 Archives of civil and mechanical engineering 16(3) 467–472 [3] Koryagin S I, Velikanov N L and Sharkov O V 2017 Key Engineering Materials 736 8–11
[4] Krishan K C 2013 Composite Materials: Science and Engineering (New York: Springer Science & Business Media) p. 542 [5] Chung D L 2010 Composite Materials: Science and Applications (New York: Springer Science & Business Media) p. 371 [6] Fernando U S and Davidson M 2015 Proceedings of the ASME 34th International Conference on Ocean, Offshore and Arctic Engineering (OMAE2015) 5B V05BT04A013 [7] Zamani H A and Aghdam M M 2017 Journal of Vibration and Control 23(18) 2869–2887 [8] Kolahchi R, Zarei M S, Hajmohammad M H and Nouri A 2017 International Journal of Mechanical Sciences 130 534–545 [9] Falborski T and Jankowski R 2017 Applied Sciences 7(8) 808 [10] Junker P and Kochmann D M 2017 International Journal of Solids and Structures 113–114 132–146 [11] Prasad D S and Shoba C 2016 Journal of Materials Research and Technology 5(2) 123–130 [12] Abramovich H, Govich D and Grunwald A 2015 Progress in Aerospace Sciences 78 8–18 [13] Akoussan K, Boudaoud H, Daya E M, Koutsawa Y and
Part B: Engineering 78 144–152 [16] Fritzen F and Kochmann D M 2014 International Journal of Solids and Structures 51(23–24) 4101–4112 [17] Vescovini R and Bisagni C 2015 Progress in Aerospace Sciences 78 19–29 [18] ASTM E756-05 2017 Standard Test Method for Measuring Vibration-Damping Properties of Materials (West Conshohocken, USA: ASTM International) p. 14 [19] SAE J1637 2013 Laboratory Measurement of the Composite Vibration Damping properties of Materials on a Supporting Steel Bar (Warrendale, USA: SAE International) p. 16 [20] Tweten D J, Ballard Z and Mann B P 2014 Journal of Sound and Vibration 333(13) 2804–2811 [21] Nakutis Ž and Kaškonas P 2011 Measurement 44(2) 487–492 [22] Paymushin V N, Firsov V A, Gunal I and Egorov A G 2014 Mechanics of Composite Materials 50 127–136
At the same time, an increase in the vibration frequency was observed, which indicates an increase in the elastic properties of composite materials.
References [1] Ebrahimi F and Barati M R 2017 Smart Materials and Structures 26(6) 065018 [2] Gerstenberger C, Osiecki T, Kroll L, Scholz P and Seidlitz H 2016 Archives of civil and mechanical engineering 16(3) 467–472 [3] Koryagin S I, Velikanov N L and Sharkov O V 2017 Key Engineering Materials 736 8–11
[4] Krishan K C 2013 Composite Materials: Science and Engineering (New York: Springer Science & Business Media) p. 542 [5] Chung D L 2010 Composite Materials: Science and Applications (New York: Springer Science & Business Media) p. 371 [6] Fernando U S and Davidson M 2015 Proceedings of the ASME 34th International Conference on Ocean, Offshore and Arctic Engineering (OMAE2015) 5B V05BT04A013 [7] Zamani H A and Aghdam M M 2017 Journal of Vibration and Control 23(18) 2869–2887 [8] Kolahchi R, Zarei M S, Hajmohammad M H and Nouri A 2017 International Journal of Mechanical Sciences 130 534–545 [9] Falborski T and Jankowski R 2017 Applied Sciences 7(8) 808 [10] Junker P and Kochmann D M 2017 International Journal of Solids and Structures 113–114 132–146 [11] Prasad D S and Shoba C 2016 Journal of Materials Research and Technology 5(2) 123–130 [12] Abramovich H, Govich D and Grunwald A 2015 Progress in Aerospace Sciences 78 8–18 [13] Akoussan K, Boudaoud H, Daya E M, Koutsawa Y and
Part B: Engineering 78 144–152 [16] Fritzen F and Kochmann D M 2014 International Journal of Solids and Structures 51(23–24) 4101–4112 [17] Vescovini R and Bisagni C 2015 Progress in Aerospace Sciences 78 19–29 [18] ASTM E756-05 2017 Standard Test Method for Measuring Vibration-Damping Properties of Materials (West Conshohocken, USA: ASTM International) p. 14 [19] SAE J1637 2013 Laboratory Measurement of the Composite Vibration Damping properties of Materials on a Supporting Steel Bar (Warrendale, USA: SAE International) p. 16 [20] Tweten D J, Ballard Z and Mann B P 2014 Journal of Sound and Vibration 333(13) 2804–2811 [21] Nakutis Ž and Kaškonas P 2011 Measurement 44(2) 487–492 [22] Paymushin V N, Firsov V A, Gunal I and Egorov A G 2014 Mechanics of Composite Materials 50 127–136
Online since: February 2014
Authors: Ahmad Kamal Ariffin, Shahrum Abdullah, Mohd Zaki Nuawi, Abdul Rahim Bahari
Riester: Materials Science and Engineering Vol.
Nizwan: Journal of Applied Sciences Vol. 8(8) (2008), p. 1541
Mansor: Advanced Materials Research Vol. 76-78 (2009), p. 702
Rahman: Advanced Materials Research Vol. 126-128 (2010), p. 738
Zakaria: International Journal of Mechanical and Materials Engineering Vol. 6(2) (2011), p. 260
Nizwan: Journal of Applied Sciences Vol. 8(8) (2008), p. 1541
Mansor: Advanced Materials Research Vol. 76-78 (2009), p. 702
Rahman: Advanced Materials Research Vol. 126-128 (2010), p. 738
Zakaria: International Journal of Mechanical and Materials Engineering Vol. 6(2) (2011), p. 260
Online since: January 2014
Authors: Qiang Li, Cong Bin Yang, Xing Gao Zhu, Xiao Dong Gao, Liang Gu
Functionally gradient materials Gear design more flexible, if 20 CrMnTiH hardness and wear-resisting performance does not meet the requirements,we can replace the materials meet the requirements.
Summary through the performance analysis of the functionally gradient materials Gear and the elemental heat treatment gear, verified the feasibility of functionally gradient materials applied in gear.
Ada-ptive Slicing of Heterogeneous Solid Mod-els for Layered Manufacturing.Journal of Material Processing & Manufacturin Science,1999,7(4):324-342 [4] R.Balendra,Net-Shape Forming Stateof the Art,Journal of Materials Proc-essing Technology, 2001, 115(2): 172–179
Journal of machinery engineer. 2008, 5:74-76
Journal of mechanical transmission, 2005, 29 (2) : 10 to 13
Summary through the performance analysis of the functionally gradient materials Gear and the elemental heat treatment gear, verified the feasibility of functionally gradient materials applied in gear.
Ada-ptive Slicing of Heterogeneous Solid Mod-els for Layered Manufacturing.Journal of Material Processing & Manufacturin Science,1999,7(4):324-342 [4] R.Balendra,Net-Shape Forming Stateof the Art,Journal of Materials Proc-essing Technology, 2001, 115(2): 172–179
Journal of machinery engineer. 2008, 5:74-76
Journal of mechanical transmission, 2005, 29 (2) : 10 to 13