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Online since: August 2013
Authors: Jing Long Bu, Rui Sheng Wang, Li Xue Yu, Yong Wu He, Zhi Fa Wang, Jun Xing Chen, Dong Mei Zhao
Sintering Properties of Fused Silica/Nano-zirconia Composite Ceramic
Yongwu He1, a, Jinglong Bu1, b, Ruisheng Wang 1, c, Dongmei Zhao1, d,
Junxing Chen2, e, Lixue Yu1, f, Zhifa Wang1, g
1Hebei Provincial Key Laboratory of Inorganic Nonmetallic Materials, College of Materials Science and Engineering, Hebei United University, Tangshan, 063009, China
2LIRR Engineering Technology Co.
Experimental Raw Materials.
McKinstry: Annual Review of Materials Science, Vol.19 (1989), p.59-81
Ma: Advanced Materials Research, Vol.150-151(2010), p.1786-1789
Guo: Journal of the European Ceramic Society, Vol.16 (1996), p.1057-1061
Experimental Raw Materials.
McKinstry: Annual Review of Materials Science, Vol.19 (1989), p.59-81
Ma: Advanced Materials Research, Vol.150-151(2010), p.1786-1789
Guo: Journal of the European Ceramic Society, Vol.16 (1996), p.1057-1061
Online since: December 2014
Authors: Pei Jiang, Xue Liang Pang, Chun Sheng Lin
Hard iron error is a magnetic field bias that is either constant, which is caused by ferromagnetic (hard iron) materials near the magnetometer, or time-varying, which is caused by cur-rent carrying wires near the magnetometer.
Soft iron errors result from materials that generate fields in response to externally applied fields (commonly called soft iron materials), resulting in scaling of magnetometer readings.
Journal of the Astronautical Sciences,Vol.50,No.4,P:453 – 475, 2003. ][[] Roberto Alonso,.
Journal of the Astronautical Sciences,Vol.50,No.4,P:477 – 490, 2003. ][[6] Roberto Alonso,.
Journal of the Astronautical Sciences, Vol.50,No.4,P:433 –451, 2003. ].Manon Kok set forward the method of maximum likelihood calibration [[7] Kok,Manon,.
Soft iron errors result from materials that generate fields in response to externally applied fields (commonly called soft iron materials), resulting in scaling of magnetometer readings.
Journal of the Astronautical Sciences,Vol.50,No.4,P:453 – 475, 2003. ][[] Roberto Alonso,.
Journal of the Astronautical Sciences,Vol.50,No.4,P:477 – 490, 2003. ][[6] Roberto Alonso,.
Journal of the Astronautical Sciences, Vol.50,No.4,P:433 –451, 2003. ].Manon Kok set forward the method of maximum likelihood calibration [[7] Kok,Manon,.
Online since: October 2023
Authors: María Dolores Marrero-Alemán, Pedro M. Hernández-Castellano, Juan Manuel Vazquez Martinez, Mariana Hernández-Pérez, Carlos Jesús Sánchez-Morales
One of the processes that allows texturization of materials with great hardness is sinker electro discharge machining.
None of the machining methods, no matter how precise, can produce a completely flat surface in conventional materials.
Salguero, Combined Manufacturing Process of Copper Electrodes for Micro Texturing Applications (AMSME), Materials. 14 (2021)
Maropoulos, EDM electrode manufacture using rapid tooling: A review, Journal of Materials Science. 43 (2008) 2522-2535
Subramanian, Feasibility studies on the production of electro-discharge machining electrodes with rapid prototyping and the electroforming process, Journal of Materials Processing Technology. 90 (1999) 231-237
None of the machining methods, no matter how precise, can produce a completely flat surface in conventional materials.
Salguero, Combined Manufacturing Process of Copper Electrodes for Micro Texturing Applications (AMSME), Materials. 14 (2021)
Maropoulos, EDM electrode manufacture using rapid tooling: A review, Journal of Materials Science. 43 (2008) 2522-2535
Subramanian, Feasibility studies on the production of electro-discharge machining electrodes with rapid prototyping and the electroforming process, Journal of Materials Processing Technology. 90 (1999) 231-237
Online since: September 2013
Authors: Qing Quan Guo, Yao Lu, Xu Gang Shu, Jin Hua Zeng
Experimental
Reagents and materials
DMY obtained from college of light industry and food sciences, south china university of technology, purity≥98%.
[2] Guixia He, Gang Pei, Yingbing Feng, Tianda Zhou, Dete rmination of the contend of dihydromyricetin in rattan tea, Journal of Chinese medicinal materials.
Research on antioxidation mechanism of dihydromyricetin, Food science, Vol27, No. 5, pp. 121-123, May. 2006
Food science and technology, Vol28, No.4, pp. 71-73, Apr. 2003
[8] Yongsheng Zhang, Zhengxiang Ning, Shuzhen Yang, et al, Studies on the Influence Factors of Antioxidative Activity in Nature Antioxidant Dihydromyricetin , Journal of Chinese Institute of Food Science and Technology, Vol4, No.2 pp. 52-55, Jun. 2004
[2] Guixia He, Gang Pei, Yingbing Feng, Tianda Zhou, Dete rmination of the contend of dihydromyricetin in rattan tea, Journal of Chinese medicinal materials.
Research on antioxidation mechanism of dihydromyricetin, Food science, Vol27, No. 5, pp. 121-123, May. 2006
Food science and technology, Vol28, No.4, pp. 71-73, Apr. 2003
[8] Yongsheng Zhang, Zhengxiang Ning, Shuzhen Yang, et al, Studies on the Influence Factors of Antioxidative Activity in Nature Antioxidant Dihydromyricetin , Journal of Chinese Institute of Food Science and Technology, Vol4, No.2 pp. 52-55, Jun. 2004
Online since: October 2002
Authors: Humberto Gracher Riella, C.D.G. de Borba, D.S. Morais
A characteristic of the glass-ceramics is the absence of pores in the structure, an
advantage when compared to powder sintered materials.
Another advantage, associated to the glass-ceramic production process, is the opportunity of conversion of traditional silicate raw materials into substances with superior properties, preserving in this way, rare and noble materials [1].
STRNAD, Glass-Ceramic Materials: Glass Science and Technology v. 8 (1986)
SILIGARDI, Journal of Materials Science. 30 (1995) 3251
PELINO, Journal of Materials Science, 27 (1992) 448
Another advantage, associated to the glass-ceramic production process, is the opportunity of conversion of traditional silicate raw materials into substances with superior properties, preserving in this way, rare and noble materials [1].
STRNAD, Glass-Ceramic Materials: Glass Science and Technology v. 8 (1986)
SILIGARDI, Journal of Materials Science. 30 (1995) 3251
PELINO, Journal of Materials Science, 27 (1992) 448
Online since: February 2019
Authors: Alexander V. Klyuev, Sergei V. Klyuev, T.A. Khezhev, Yu.V. Pukharenko
The use of composite materials is able to solve these problems.
Methods On the basis of the laboratory of the Department of Building Materials Science, Products and Structures in BSTU named after V.G.
[4] Lemm J.M., HB Fiber-Reinforced Concrete: Principles, Properties, Developments and Applications (Building Materials Science).
[18] Lesovik R.V., Klyuyev S.V., Klyuyev A.V., Netrebenko A.V., Durachenko A.V., High-Strength Fiber-Reinforced Concrete Containing Technogenic Raw Materials and Composite Binders with Use of Nanodispersed Powder, Research Journal of Applied Sciences. 9 (2014) 1153–1157
[20] Lesovik R.V., Klyuyev S.V., Klyuyev A.V., Tolbatov A.A., Durachenko A.V., The Development of textile fine-grained fiber concrete using technogenic raw materials, Research Journal of Applied Sciences. 10 (10) (2015) 701–706
Methods On the basis of the laboratory of the Department of Building Materials Science, Products and Structures in BSTU named after V.G.
[4] Lemm J.M., HB Fiber-Reinforced Concrete: Principles, Properties, Developments and Applications (Building Materials Science).
[18] Lesovik R.V., Klyuyev S.V., Klyuyev A.V., Netrebenko A.V., Durachenko A.V., High-Strength Fiber-Reinforced Concrete Containing Technogenic Raw Materials and Composite Binders with Use of Nanodispersed Powder, Research Journal of Applied Sciences. 9 (2014) 1153–1157
[20] Lesovik R.V., Klyuyev S.V., Klyuyev A.V., Tolbatov A.A., Durachenko A.V., The Development of textile fine-grained fiber concrete using technogenic raw materials, Research Journal of Applied Sciences. 10 (10) (2015) 701–706
Online since: August 2013
Authors: Ting Ting Yan, Qing Hua Chen, Xiao Pei Wu, Yong Shun Cui, Zhong Da Yang
Calcium sulfate is one of the most widely used materials for bone tissue regeneration.
The weight loss rate of the materials is shown as figure 3.
The degradation of materials should not be too soon, which is because the implant device made of such materials should keep both the mechanical and biological properties before the surgical area begins to be recovered or healed [10].
Journal of Materials Processing Technology, 2008, 202( 1-3): 536 [8] J Vuola, H Goransson, T Bohling, et al.
Materials Science and Engineering: C, 2010, 30( 5):740
The weight loss rate of the materials is shown as figure 3.
The degradation of materials should not be too soon, which is because the implant device made of such materials should keep both the mechanical and biological properties before the surgical area begins to be recovered or healed [10].
Journal of Materials Processing Technology, 2008, 202( 1-3): 536 [8] J Vuola, H Goransson, T Bohling, et al.
Materials Science and Engineering: C, 2010, 30( 5):740
Online since: July 2013
Authors: Xiao Feng Wang, Wu Shuang Lu, Xiang Yu Li, Zheng You, Yajiang Yin
The materials heated at 300℃ exhibit the highest rate capacitance of 1080 F·g-1.
After cooled, the electro-active materials and water were mixed together.
Journal of Power Sources.1996.62(2):155
[8] Xiaofeng Wang,Dianbo Ruan.Pesudo-capacitance of ruthenium oxide/carbon black composites for electrochemical capacitor[J].Journal of University of Science and Technology Beijing. 2008.15(6):816-821
Rare metal materials and engineering.2006,35(2):295-298
After cooled, the electro-active materials and water were mixed together.
Journal of Power Sources.1996.62(2):155
[8] Xiaofeng Wang,Dianbo Ruan.Pesudo-capacitance of ruthenium oxide/carbon black composites for electrochemical capacitor[J].Journal of University of Science and Technology Beijing. 2008.15(6):816-821
Rare metal materials and engineering.2006,35(2):295-298
Online since: August 2010
Authors: Han Huang, Chih Ling Lin, Bronwen W. Cribb, Anthony Russell
Materials and Methods
Sample Preparation.
M.: Journal of Biomedical Materials Research Vol. 44 (1998), p. 191-107 [13] R.
Kulik, et al.: European Cells and Materials Vol.1 (2001), p.12-17 [15] S.
Oliver, et al.: Journal of Materials Research Vol. 7 (1992), p. 613-617 [17] Rho, J.
Pharr: Journal of materials science: Materials in medicine Vol. 10 (1999), p. 485-488 [20] Y.
M.: Journal of Biomedical Materials Research Vol. 44 (1998), p. 191-107 [13] R.
Kulik, et al.: European Cells and Materials Vol.1 (2001), p.12-17 [15] S.
Oliver, et al.: Journal of Materials Research Vol. 7 (1992), p. 613-617 [17] Rho, J.
Pharr: Journal of materials science: Materials in medicine Vol. 10 (1999), p. 485-488 [20] Y.
Online since: October 2010
Authors: Wen Suo Ma, Bin Qian Yang, Xiao Zhong Ren
The same symmetry may occur in various different structures of materials.
Braided composites are a series of materials that their geometrical structures are periodic and symmetrical in macroscopic [2-3].
Describing the 3D braided materials with space point and braided space groups, the probable braided geometry structures can be deduced.
The effective mathematics method is offered for developing more and rational braided materials.
Vol. 42 (9-10) ,2005, p. 2489-2504 [4] XU Wan-Tang, KA Xing-Lin: Group Theory and its Application in Physics.( Higher Education Press, Beijing 1999) [5] Wensuo Ma, Wei Feng: Journal of University of Science and Technology Beijing.
Braided composites are a series of materials that their geometrical structures are periodic and symmetrical in macroscopic [2-3].
Describing the 3D braided materials with space point and braided space groups, the probable braided geometry structures can be deduced.
The effective mathematics method is offered for developing more and rational braided materials.
Vol. 42 (9-10) ,2005, p. 2489-2504 [4] XU Wan-Tang, KA Xing-Lin: Group Theory and its Application in Physics.( Higher Education Press, Beijing 1999) [5] Wensuo Ma, Wei Feng: Journal of University of Science and Technology Beijing.