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Online since: October 2010
Authors: Annemarie Preiss, Bo Su, Simon Collins, Peter Ellison
Materials Science and Engineering A, 1999. 262(1-2): p. 192-203.
2.
Vandeperre, Electrophoretic deposition of materials.
Annual Review of Materials Science, 1999. 29: p. 327-352. 5.
Journal of Materials Science, 2004. 39(3): p. 803-811. 6.
Progress in Materials Science, 2007. 52(1): p. 1-61. 7.
Vandeperre, Electrophoretic deposition of materials.
Annual Review of Materials Science, 1999. 29: p. 327-352. 5.
Journal of Materials Science, 2004. 39(3): p. 803-811. 6.
Progress in Materials Science, 2007. 52(1): p. 1-61. 7.
Online since: April 2013
Authors: Ru Wang, Pei Ming Wang, Dao Xun Ma
Waterproof Performance of Polymer-Modified Cement Mortar
WANG Rua, MA Daoxunb , WANG Peimingc
Key Laboratory of Advanced Civil Engineering Materials of Ministry of Education, School of Materials Science and Engineering, Tongji University, 4800 Cao’an Road, Shanghai 201804, China
a ruwang@tongji.edu.cn, b daoxunma@163.com, c tjwpm@126.com
Keywords: Cement mortar; Polymer; Capillary water absorption; Impermeability; Cracking; Dynamic elastic modulus
Abstract.
Chen, The study of waterproof dry mortar, Waterproof Materials and Construction 8 (2004) 39-41
XU, J.Stark, The physical performance of HEMC cement mortar added slag powder and Superplasticiser, Journal of Building Materials 4 (2) (2001) 122-126
Ko., Comparison of mechanical and physical properties of SBR-polymer modified mortars using recycled waste materials.
Li, The shrinkage cracking performance of the rubber mortar, Journal of Building Materials, 10 (1) (2007) 97-100.
Chen, The study of waterproof dry mortar, Waterproof Materials and Construction 8 (2004) 39-41
XU, J.Stark, The physical performance of HEMC cement mortar added slag powder and Superplasticiser, Journal of Building Materials 4 (2) (2001) 122-126
Ko., Comparison of mechanical and physical properties of SBR-polymer modified mortars using recycled waste materials.
Li, The shrinkage cracking performance of the rubber mortar, Journal of Building Materials, 10 (1) (2007) 97-100.
Online since: October 2014
Authors: Yu Jiao Wu, Chun Ping Yang
In order to study the anti-aging properties of polypropylene / mica composite materials, the above polypropylene / mica composite materials were placed outside to study the influence of natural aging time on the anti-aging properties and to explore the natural aging mechanism of polypropylene / mica composites.
Natural aging research results show that:with the extension of the natural aging time the surface of materials will appear cracks and sheddings.
Preparation of composite materials.
References [1] Kong Jilan : Petrochemical Industry Trends Vol. 11 (2003), p. 20-23 [2]Yi zhiqin,Li Yongxing,Xiao Ming: Guangdong Chemical Industry Vol. 34 (2007), p. 40-42 [3] Zhang Yinjie, Liang Jizhao:Shanghai Plastics Vol. 3 (2007), p. 9-12 [4] Salovey R,Dammont F: Polym Sci Vol. 1 (1963), p. 2155 [5] Lin Shuidong, Lin Zhiyong and Ding Matai: Journal of Functional Materials Vol. 36 (2005), p. 1359-1360 [6] Wang Lei, Xie Banghu and Yang Wei: Polymer Materials Science & Engineering Vol. 25 (2009), p. 31-33 [7] Meng Mingrui, Dou Qiang: China Plastics,Vol. 21 (2007), p. 24-28 [8] Elinor L.
Bernas, et al: Journal of Applied Polymer Science, Vol. 87 (2003), p.931–938
Natural aging research results show that:with the extension of the natural aging time the surface of materials will appear cracks and sheddings.
Preparation of composite materials.
References [1] Kong Jilan : Petrochemical Industry Trends Vol. 11 (2003), p. 20-23 [2]Yi zhiqin,Li Yongxing,Xiao Ming: Guangdong Chemical Industry Vol. 34 (2007), p. 40-42 [3] Zhang Yinjie, Liang Jizhao:Shanghai Plastics Vol. 3 (2007), p. 9-12 [4] Salovey R,Dammont F: Polym Sci Vol. 1 (1963), p. 2155 [5] Lin Shuidong, Lin Zhiyong and Ding Matai: Journal of Functional Materials Vol. 36 (2005), p. 1359-1360 [6] Wang Lei, Xie Banghu and Yang Wei: Polymer Materials Science & Engineering Vol. 25 (2009), p. 31-33 [7] Meng Mingrui, Dou Qiang: China Plastics,Vol. 21 (2007), p. 24-28 [8] Elinor L.
Bernas, et al: Journal of Applied Polymer Science, Vol. 87 (2003), p.931–938
Online since: July 2012
Authors: Xiang Diao
Experimental Section
Materials
Tetraethyl orthosilicate (TEOS) and Ammonium fluoride were produced by Xilong Chemical (Shantou, China).
Characterization of SBA-15 materials SEM observations were performed on a JEOL JSM 7401F microscope operating at 3.0 kV.
The isotherm type is of Langmuir IV, which is typical for mesoporous materials that exhibit capillary condensation and evaporation and have large pore sizes with narrow pore-size distributions [11].
Stucky: Science, Vol. 279 (1998), p. 548-552 [5] D.
Jia: Journal of Shanghai Normal University (Natural Sciences), Vol. 37 (2008), p. 89-92 [8] Z.
Characterization of SBA-15 materials SEM observations were performed on a JEOL JSM 7401F microscope operating at 3.0 kV.
The isotherm type is of Langmuir IV, which is typical for mesoporous materials that exhibit capillary condensation and evaporation and have large pore sizes with narrow pore-size distributions [11].
Stucky: Science, Vol. 279 (1998), p. 548-552 [5] D.
Jia: Journal of Shanghai Normal University (Natural Sciences), Vol. 37 (2008), p. 89-92 [8] Z.
Online since: April 2010
Authors: Štefan Kavecký, Pavol Štefánik, Tomáš Dvorák
Thermal Expansion of Advanced Materials for High Temperature Fusion
Application
Tomáš Dvorák a, Štefan Kavecký b, Pavol Štefánik
c
Institute of materials and machine mechanics, Račianska 75, 831 02 Bratislava,
Slovak Academy of Sciences
a
tomas.dvorak@savba.sk, b stefan.kavecky@savba.sk,
c pavol.stefanik@savba.sk
Keywords: metal matrix composite, gas pressure infiltration, diffusion bonding, coefficient
of thermal expansion
Abstract.
Heat sink materials, which are planned to be used for production of fusion reactors, are expected to withstand high temperature changes as well as high heat fluxes at elevated temperatures.
From a structural point of view, the crucial properties of these materials are high structural stability at elevated temperatures and thermo-cycling resistance [2].
Tungsten (W) and copper (Cu) are materials suitable for production of metal matrix composites (MMC) that can be used in specific high temperature applications [3].
Nemoto. et al.: Journal Nucl.
Heat sink materials, which are planned to be used for production of fusion reactors, are expected to withstand high temperature changes as well as high heat fluxes at elevated temperatures.
From a structural point of view, the crucial properties of these materials are high structural stability at elevated temperatures and thermo-cycling resistance [2].
Tungsten (W) and copper (Cu) are materials suitable for production of metal matrix composites (MMC) that can be used in specific high temperature applications [3].
Nemoto. et al.: Journal Nucl.
Online since: December 2012
Authors: Bai Yang Lou, Bin Xu, Yan Zhou, Zhao Hui Dong
Introduction
As one of the core technology of manufacturing high-accuracy thermo sensitive control components and mechanisms, thermo sensitive materials[1] have become an important trend of the development of material science nowadays, as well as the focus of research.
As one kind of thermo sensitive materials, paraffin can be applied to heat transmission or temperature auto control of various kinds of thermostatic devices.
Experimental Materials and Methods Experimental Materials.
Acknowledgement This work is supported by Zhejiang Provincial Top Key Discipline of New Materials and Process Engineering.
Beijing: National Defence Industry Press. 268 (1982) [2] LOU Bai yang, CHENG Li, LOU Cheng hua: Journal of Yunnan University (Natural Sciences). 1 (2002), p. 78 [3] GONG Mei, ZUO Yi, ZOU Qin, et: Journal of Functional Materials. 3 (2009), p. 28 [4] WU Songping, ZHENG Liuqun et: Electronic Components and Materials. 9 (2009), p. 32 [5] YAN Jun-feng, WANG Xue-wen et: Journal of Northwest University (Natural Science Edition), 35, 5 (2005). p. 544
As one kind of thermo sensitive materials, paraffin can be applied to heat transmission or temperature auto control of various kinds of thermostatic devices.
Experimental Materials and Methods Experimental Materials.
Acknowledgement This work is supported by Zhejiang Provincial Top Key Discipline of New Materials and Process Engineering.
Beijing: National Defence Industry Press. 268 (1982) [2] LOU Bai yang, CHENG Li, LOU Cheng hua: Journal of Yunnan University (Natural Sciences). 1 (2002), p. 78 [3] GONG Mei, ZUO Yi, ZOU Qin, et: Journal of Functional Materials. 3 (2009), p. 28 [4] WU Songping, ZHENG Liuqun et: Electronic Components and Materials. 9 (2009), p. 32 [5] YAN Jun-feng, WANG Xue-wen et: Journal of Northwest University (Natural Science Edition), 35, 5 (2005). p. 544
Online since: June 2025
Authors: Suminar Pratapa, Retno Asih, Muhammad Yusuf Hakim Widianto
Tetragonal zirconia (t-ZrO2) has broad applications for structural ceramics, such as solid oxide fuel cells, electrolysis materials, membranes, and biomedical applications.
These materials are potentially used for the development of spintronics devices.
The spin-polarized DFT is used to determine the magnetic properties by considering the spin-up and the spin-down of the materials.
Ferrand, Science 287, 1019 (2000)
Fang, Journal of Materials Science 32, 6653–6656 (1997)
These materials are potentially used for the development of spintronics devices.
The spin-polarized DFT is used to determine the magnetic properties by considering the spin-up and the spin-down of the materials.
Ferrand, Science 287, 1019 (2000)
Fang, Journal of Materials Science 32, 6653–6656 (1997)
Online since: November 2011
Authors: Jun He, Qi Shan Wang
Materials and Ways
Experiment Materials.The sludge originated from Lingzhuang waterworks in Tianjin.
Adding the appropriate water, the materials reach the goal of forming viscous.
Acknowledgment The work is supported by Tianjin Natural Science Foundation, China (NO. 023608411).
Vieira , “Incorporation of sludge waste from water treatment plant into red ceramic,” Construction and Building Materials, vol. 2, Jun. 2008, pp. 1281-1287, doi:10.1016/j.conbuildmat.2007.01.013
Li, “Effect of sintering temperature on the characteristics of sludge ceramsite” Journal of Hazardous Materials, vol. 150, Jan. 2001, pp. 394-400, doi:10.1016/j.jhazmat.2007.04.121.
Adding the appropriate water, the materials reach the goal of forming viscous.
Acknowledgment The work is supported by Tianjin Natural Science Foundation, China (NO. 023608411).
Vieira , “Incorporation of sludge waste from water treatment plant into red ceramic,” Construction and Building Materials, vol. 2, Jun. 2008, pp. 1281-1287, doi:10.1016/j.conbuildmat.2007.01.013
Li, “Effect of sintering temperature on the characteristics of sludge ceramsite” Journal of Hazardous Materials, vol. 150, Jan. 2001, pp. 394-400, doi:10.1016/j.jhazmat.2007.04.121.
Online since: April 2020
Authors: Quoc Tuan Nguyen, Nguyen Hong Hai, Le Minh Duc
Formation of Heterostructure with Appearance of a-Al Phase in Hyper-and Eutectic Al-Si Alloys by Solidification at High Rate
Hong Hai Nguyen1,a*, Quoc Tuan Nguyen2,b, Minh Duc Le3,c
1School of Materials Science and Engineering, Hanoi University of Science and Technology, Hanoi, Vietnam
2Faculty of Mechanical Engineering, Hanoi University of Industry, Hanoi, Vietnam
3Department of Materials Science and Engineering, Le Quy Don University, Hanoi, Vietnam
a*hai.nguyenhong@hust.edu.vn, btuannq@haui.edu.vn, cminhduclek52@gmail.com
Keywords: aluminum alloy, hetero-structure, primary a-Al, primary silicon, eutectics
Abstract.
Dwivedi: Materials Science and Engineering A, Vol. 408, 2005, Issues 1-2, p. 274-280, https://doi.org/10.1016/j.msea.2005.08.013 [2] M.
Okumiya, Appearance of Non-Equilibrium α- Aluminum Grains in Hypereutectic Al-Si Alloy through Sono-Solidification, Materials Science Forum Vols. 638-642, Switzerland, 2010, pp 362-367. doi: 10.4028/www.scientific.net/ MSF.638-642.362 [10] Y.
Lenik, Change of Aluninum Alloys Structure by Sono-Solidification, Archives of Foundry Engineering, Vol 13, 4/2013, pp 39-42. doi: 10.2478/afe-2013-0078 [12] Junwen Zhao, Shusen Wu, Ping An, and Youwu Mao: Materials Science Forum, Vols. 141-143, 2008, p. 767-771, doi: 10.4028/www.scientific.net/SSP.141-143.767 [13] K.
Journal of Materials Processing Technology, Elsevier.
Dwivedi: Materials Science and Engineering A, Vol. 408, 2005, Issues 1-2, p. 274-280, https://doi.org/10.1016/j.msea.2005.08.013 [2] M.
Okumiya, Appearance of Non-Equilibrium α- Aluminum Grains in Hypereutectic Al-Si Alloy through Sono-Solidification, Materials Science Forum Vols. 638-642, Switzerland, 2010, pp 362-367. doi: 10.4028/www.scientific.net/ MSF.638-642.362 [10] Y.
Lenik, Change of Aluninum Alloys Structure by Sono-Solidification, Archives of Foundry Engineering, Vol 13, 4/2013, pp 39-42. doi: 10.2478/afe-2013-0078 [12] Junwen Zhao, Shusen Wu, Ping An, and Youwu Mao: Materials Science Forum, Vols. 141-143, 2008, p. 767-771, doi: 10.4028/www.scientific.net/SSP.141-143.767 [13] K.
Journal of Materials Processing Technology, Elsevier.
Online since: December 2025
Authors: A. Mohanraj, S. Rahul, A. Mohamad Arafath, M. Nizhar Ahamadhu, S. L. Mohanesh, S. Saran
In summary, natural fibre-reinforced composites hold significant promise as sustainable materials for the future.
Materials and Its Properties Natural fibre composites are eco-friendly materials that have gained interest in the engineering sector of product manufacturing.
Textiles, rope, garden mulch, construction materials, and animal bedding are all made from hemp.
Also, the fig.1 to fig.4 have represented the procured raw materials of natural fibres and adhesive epoxy resin.
[16] Shin Serizawa, Kazuhiko Inoue, Masatoshi Iji, “Kenaf-Fiber-Reinforced Poly (Lactic Acid) Used for Electronic Products”, Journal of Applied Polymer Science, April 2006100(1):618 – 624, DOI:10.1002/app.23377
Materials and Its Properties Natural fibre composites are eco-friendly materials that have gained interest in the engineering sector of product manufacturing.
Textiles, rope, garden mulch, construction materials, and animal bedding are all made from hemp.
Also, the fig.1 to fig.4 have represented the procured raw materials of natural fibres and adhesive epoxy resin.
[16] Shin Serizawa, Kazuhiko Inoue, Masatoshi Iji, “Kenaf-Fiber-Reinforced Poly (Lactic Acid) Used for Electronic Products”, Journal of Applied Polymer Science, April 2006100(1):618 – 624, DOI:10.1002/app.23377