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Online since: March 2015
Authors: Kai Xi An, Yi Xiang Chen, Ruo Qi Lou, Min Jiong Wu
This experiment adopts the mud from tidal flats as the raw materials.
Test Materials In response to environmental protection and energy saving, the silt tidal flats are specifically used as raw materials for the soil, cement as curing agent, and sodium hydroxide and triethanolamine as addictives (Fig. 1).
And then get out the material.
Journal of Southeast University(Natural Science Edition),2007,37(2):345-349 (in Chinese) [5] Meng Chen, Guolu Yang, Liangying Yu, etc.
Journal of Huazhong University of Science and Technology(Natural Science Edition), 2013,41(10):123-127 (in Chinese)
Test Materials In response to environmental protection and energy saving, the silt tidal flats are specifically used as raw materials for the soil, cement as curing agent, and sodium hydroxide and triethanolamine as addictives (Fig. 1).
And then get out the material.
Journal of Southeast University(Natural Science Edition),2007,37(2):345-349 (in Chinese) [5] Meng Chen, Guolu Yang, Liangying Yu, etc.
Journal of Huazhong University of Science and Technology(Natural Science Edition), 2013,41(10):123-127 (in Chinese)
Online since: July 2014
Authors: Zhen Hua Wang, Jiu Xing Jiang, Chang Long Tan, Zhi Han Zhu, Fan Xu
The single spinel phase powder was obtained when the precursor materials with a carbon powder of 5% in mass were used.
If using other materials to replace the iron powder as the fuel to prepare the Ni-Cu-Zn ferrite powders, it will avoid precursor materials mixed non-uniform and sintering temperature uneven because of oversize of the iron powder particle-size [5-8].
References [1] Li Guodong: New Progress of Research of Magnetic Functional Material and Application in 2004~2005, Rare Meta Materials And Engineering, Vol. 37 (2006), p. 1355
[6] Youwei Du: Development of magnetic materials in recent years, Physics, Vol. 35 (2006), p. 730
[7] Zhigang Zheng, Dechang Zeng, Yahui Zhang and Weidong Huang: Materials Review, Vol. 27 (2007), p. 26
If using other materials to replace the iron powder as the fuel to prepare the Ni-Cu-Zn ferrite powders, it will avoid precursor materials mixed non-uniform and sintering temperature uneven because of oversize of the iron powder particle-size [5-8].
References [1] Li Guodong: New Progress of Research of Magnetic Functional Material and Application in 2004~2005, Rare Meta Materials And Engineering, Vol. 37 (2006), p. 1355
[6] Youwei Du: Development of magnetic materials in recent years, Physics, Vol. 35 (2006), p. 730
[7] Zhigang Zheng, Dechang Zeng, Yahui Zhang and Weidong Huang: Materials Review, Vol. 27 (2007), p. 26
Online since: March 2016
Authors: Sahbudin Shaari, Huda Abdullah, Badariah Bais, Mohd Syafiq Zulfakar, Wan Nasarudin Wan Jalal, Mohammad Tariqul Islam, Sarada Idris
ZnAl2O4 also used as catalyst support, ceramics materials, electronic and optical materials [6].
In antenna application, the microwave dielectric materials with a high εr are needed in order to decrease their size.
The εr of different materials is slightly different from each other.
Shaari, Synthesis and fabrication of (1− x) ZnAl2O4–xSiO2 thin films to be applied as patch antennas, Journal of Sol-Gel Science and Technology 69, (2014) 183-192
Anantharaman, On structural, optical and dielectric properties of zinc aluminate nanoparticles, Bulletin of Materials Science 34, (2011) 251-259
In antenna application, the microwave dielectric materials with a high εr are needed in order to decrease their size.
The εr of different materials is slightly different from each other.
Shaari, Synthesis and fabrication of (1− x) ZnAl2O4–xSiO2 thin films to be applied as patch antennas, Journal of Sol-Gel Science and Technology 69, (2014) 183-192
Anantharaman, On structural, optical and dielectric properties of zinc aluminate nanoparticles, Bulletin of Materials Science 34, (2011) 251-259
Online since: March 2016
Authors: Jian Can Yang, Ya Fang Hu, Zhen Liu
Materials Science and Engineering A. 527(2010)4021-4027
Materials Science and Engineering A. 265(1999)174-178
Materials Science and Engineering A. 477(2008)162-167
Materials Science and Engineering A. 334(2002)223-232
Materials Science and Engineering A. 512(2009)19-25
Materials Science and Engineering A. 265(1999)174-178
Materials Science and Engineering A. 477(2008)162-167
Materials Science and Engineering A. 334(2002)223-232
Materials Science and Engineering A. 512(2009)19-25
Online since: September 2012
Authors: Xu Qin Chen, Guang Zhen Cheng, Gui Lan Jiang
Material Mechanical Performance about Worm Bending and Twisting Deformation for Civil Engineering
Xuqin Chen1, a, Guilan Jiang2, b, and GuangZhen Cheng1, c
1Huzhou Teachers College, Huzhou, Zhejiang Province 313000, P.R.
Shaft material is 45 steel, with quenching and tempering treatment, [σ]=60N.mm.
Shan: Mechanics Materials (Higher Education Press, China 2008) (in Chinese)
Liu: Journal of Changsha Railway University (social science edition) 2004(12), pp.147-148 [4] G.Z.
Liu: Materials Mechanics (Higher Education Press, China 2004) (in Chinese) [6] Y.J.
Shaft material is 45 steel, with quenching and tempering treatment, [σ]=60N.mm.
Shan: Mechanics Materials (Higher Education Press, China 2008) (in Chinese)
Liu: Journal of Changsha Railway University (social science edition) 2004(12), pp.147-148 [4] G.Z.
Liu: Materials Mechanics (Higher Education Press, China 2004) (in Chinese) [6] Y.J.
Online since: August 2010
Authors: Bang Chun Wen, Xiao Peng Li, Yun Nan Teng, Li Li Xin
The mass of piston and the materials have been
taken as the lumped mass with the gap ignored between the piston and the materials.
Experimental setup In the road construction, the degree of materials compaction is crucial for the quality.
Zhang: Vibration Utilization Engineering, (Science Press, Beijing, 2005)
Key Engineering Materials 353-358 (2007), p. 762-765
Key Engineering Materials 353-358(2007), p. 758-761. [18] L.
Experimental setup In the road construction, the degree of materials compaction is crucial for the quality.
Zhang: Vibration Utilization Engineering, (Science Press, Beijing, 2005)
Key Engineering Materials 353-358 (2007), p. 762-765
Key Engineering Materials 353-358(2007), p. 758-761. [18] L.
Online since: January 2017
Authors: Hui Ying Chen, Xuan Xing, Xin Yu Zhuang, Hong Yu Li, Li Mei Ai, Yi Hu Wang, Qian Wang, Yi Nan Li, Jian Xin Xia
Journal of Chengdu University (Natural Science). 2003,22(3): 25- 30.
Jilin Normal University Journal (Natural Science Edition). 2013, 35(2): 12-17.
Ordnance Material Science and Engineering. 2004, 27(1): 68-72.
Journal of Chengdu University (Natural Science), 2003,22(3):25-30.
Journal of Anhui University(Natural Sciences),2014:3-5.
Jilin Normal University Journal (Natural Science Edition). 2013, 35(2): 12-17.
Ordnance Material Science and Engineering. 2004, 27(1): 68-72.
Journal of Chengdu University (Natural Science), 2003,22(3):25-30.
Journal of Anhui University(Natural Sciences),2014:3-5.
Online since: May 2022
Authors: Rui Gi Gong, Zhang Chen, Kai Qiang Zhang, Yan Feng Gao
Ushijima, In-Ga-Zn oxide nanoparticles acting as an oxide semiconductor material synthesized via a co-precipitation-based method, Journal of Materials Chemistry C, 2 (2014) 2448–2454
Liu, A facile synthesis of antimony-doped tin oxide-coated TiO2 composites and their electrical properties, Journal of Materials Science: Materials in Electronics, 30 (2019) 9289–9302
Liu, Preparation of TiO2/Sb-SnO2 composite by a polymer pyrolysis method for conducting fillers, Materials Science in Semiconductor Processing, 133 (2021) 105922
Zhang, Synthesis and conductive performance of antimony-doped tin oxide-coated TiO2 by the co-precipitation method, Journal of Materials Science: Materials in Electronics, 25 (2014) 4524–4530
Ge, Light-colored conductive fabric coatings using uniform ATO@ TiO2 whiskers, Journal of Materials Science, 56 (2021) 351–363
Liu, A facile synthesis of antimony-doped tin oxide-coated TiO2 composites and their electrical properties, Journal of Materials Science: Materials in Electronics, 30 (2019) 9289–9302
Liu, Preparation of TiO2/Sb-SnO2 composite by a polymer pyrolysis method for conducting fillers, Materials Science in Semiconductor Processing, 133 (2021) 105922
Zhang, Synthesis and conductive performance of antimony-doped tin oxide-coated TiO2 by the co-precipitation method, Journal of Materials Science: Materials in Electronics, 25 (2014) 4524–4530
Ge, Light-colored conductive fabric coatings using uniform ATO@ TiO2 whiskers, Journal of Materials Science, 56 (2021) 351–363
Online since: March 2012
Authors: Zhong Cheng Guo, Zhen Chen, Qiang Yu
Because the anode materials are expensive, and will cause high energy consumption, low mechanical strength, short service life and other issues, the development of new anode materials are the future research direction and hotspot of anode materials.
PbO2 and MnO2 are non-noble metal oxide materials.
Anode materials obtain both advantages has been studied by Soviet Union, which have not been reported yet.
[4] YU De-long, Preparation and structure properties of MnOx electrode material, Materials Protection. 1995, 28(3):12-14
[9] HUANG Xin-ming.Analysis methods of materials, National Defense Industry Press, Beijing, 2006.
PbO2 and MnO2 are non-noble metal oxide materials.
Anode materials obtain both advantages has been studied by Soviet Union, which have not been reported yet.
[4] YU De-long, Preparation and structure properties of MnOx electrode material, Materials Protection. 1995, 28(3):12-14
[9] HUANG Xin-ming.Analysis methods of materials, National Defense Industry Press, Beijing, 2006.
Online since: October 2025
Authors: Iuliana Duma, Ion Aurel Perianu, Alin Constantin Murariu, Marius Cocard, Vlad Ștefan Constantin, Constantin Alin Antal
IOP Conference Series: Materials Science and Engineering.
Journal of Thermoplastic Composite Materials, 32.11: 1566-1581
Journal of Materials Research and Technology, 9.6: 16367-16377
Advances in Materials Science, 17.4: 22-36
Journal of materials engineering, 12.2: 151-158
Journal of Thermoplastic Composite Materials, 32.11: 1566-1581
Journal of Materials Research and Technology, 9.6: 16367-16377
Advances in Materials Science, 17.4: 22-36
Journal of materials engineering, 12.2: 151-158