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Online since: May 2006
Authors: Nuno A.F. Almeida, Maria Helena F.V. Fernandes
Journal of Biomedical Materials Research, 1971.
5(6): p. 117
Journal of Biomedical Materials Research, 1991. 26: p. 1419-1432
Journal of Biomedical Materials Research Part A, 2004. 68A(1): p. 79-89
Materials Science and Engineering, 2004. 24: p. 689-691
Journal of Materials Science: Materials in Medicine, 1992. 3: p. 452-456
Journal of Biomedical Materials Research, 1991. 26: p. 1419-1432
Journal of Biomedical Materials Research Part A, 2004. 68A(1): p. 79-89
Materials Science and Engineering, 2004. 24: p. 689-691
Journal of Materials Science: Materials in Medicine, 1992. 3: p. 452-456
Online since: March 2015
Authors: Hui Zhao, Hua Ming Lei, Kai Jiang
Therefore, there is a need to develop a simple, economic and reliable methods to detect the low conductivity materials which can apply in the medical area.
In summary, the probe can be used to detect the low conductivity materials and the experiment results indicates that it has a good linear detection performance.
References [1] Weiwen Liu, Kai Jiang, Localization and Recognition of Different Vertebra Tissues based on Eddy Current Detection Method[J].Advanced Materials Research. vol 740(2013),p.128-133 [2] Hideo Matsui,Hirofumi Anno.
Journal of Magnetic Materials and Devices,32(2) 2001, p.40-44,49
Study on Method of Materials Identification Based on Eddy Current Sensor with Three Serial Reversed Coils[J].
In summary, the probe can be used to detect the low conductivity materials and the experiment results indicates that it has a good linear detection performance.
References [1] Weiwen Liu, Kai Jiang, Localization and Recognition of Different Vertebra Tissues based on Eddy Current Detection Method[J].Advanced Materials Research. vol 740(2013),p.128-133 [2] Hideo Matsui,Hirofumi Anno.
Journal of Magnetic Materials and Devices,32(2) 2001, p.40-44,49
Study on Method of Materials Identification Based on Eddy Current Sensor with Three Serial Reversed Coils[J].
Online since: February 2011
Authors: Xue Feng Zhou, Xiang Chen, Yong Zhang
As the project increases, enlarge of size, advance of technologies and competition, the task of materials procurement and management has become increasingly important.
Materials are a prerequisite for project implementation, materials procurement cycle and quality of materials is directly related to the progress and quality of construction projects, the successful completion of the project can effectively protect [5].
In the construction cost, total cost of construction materials accounted for about 60%-70%, so a direct materials procurement and management related to project profits.
Journal of Southeast University, vol.20, 2004, pp. 108-112
Journal of Computer and System Sciences. vol. 70, 2005, pp. 73-85
Materials are a prerequisite for project implementation, materials procurement cycle and quality of materials is directly related to the progress and quality of construction projects, the successful completion of the project can effectively protect [5].
In the construction cost, total cost of construction materials accounted for about 60%-70%, so a direct materials procurement and management related to project profits.
Journal of Southeast University, vol.20, 2004, pp. 108-112
Journal of Computer and System Sciences. vol. 70, 2005, pp. 73-85
Online since: April 2024
Authors: Sundarrajan D, P. Sivasamy, Muthiah Athi, H Kanagasabapathy, P Durkaieswaran, B Jegan
Materials and Method
2.1.
Materials Research Express. 2019 Aug 23;6(10):105051
Materials Chemistry and Physics. 2010 Aug 1;122(2-3):533-6
Science. 2002 Jul 26;297(5581):593-6
Materials Today: Proceedings 5, no. 6 (2018): 14440-14447
Materials Research Express. 2019 Aug 23;6(10):105051
Materials Chemistry and Physics. 2010 Aug 1;122(2-3):533-6
Science. 2002 Jul 26;297(5581):593-6
Materials Today: Proceedings 5, no. 6 (2018): 14440-14447
Online since: May 2014
Authors: Ying Lin Xiao, Yong Qiang Wang
Polyvinylidene Fluoride (referred to as PVDF) piezoelectric film is a new type of polymer piezoelectric materials.
Journal of Transducer Technology, 2003vol22, 10:39~41 [5] Guo Weiguo.
Journal of Experimental Mechanics.
Journal of Hunan University (Natural Sciences),Vol.36,No.12, Dec.2009
Journal of Functional Materials, 2002,33(1):15~18
Journal of Transducer Technology, 2003vol22, 10:39~41 [5] Guo Weiguo.
Journal of Experimental Mechanics.
Journal of Hunan University (Natural Sciences),Vol.36,No.12, Dec.2009
Journal of Functional Materials, 2002,33(1):15~18
Online since: September 2011
Authors: Ji Hong Zhu, H. Wang, W.H. Zhang, X.J. Gu
Xu: Journal of Materials Processing Technology, Vol. 209 (2009), p. 396
[2] Z.Y.
Yang: Advanced Materials Research, Vol. 189-193 (2011), p. 2399 [3] A.
Yang: Journal of Materials Processing Technology, Vol. 117 (2006), p. 109 [5] S.H.
Li: International Journal of Materials and Product Technology, Vol. 38 (2010), p. 223 [6] D.K.
Beckers: International Journal for Numerical Methods in Engineering, Vol. 78 (2009), p. 631
Yang: Advanced Materials Research, Vol. 189-193 (2011), p. 2399 [3] A.
Yang: Journal of Materials Processing Technology, Vol. 117 (2006), p. 109 [5] S.H.
Li: International Journal of Materials and Product Technology, Vol. 38 (2010), p. 223 [6] D.K.
Beckers: International Journal for Numerical Methods in Engineering, Vol. 78 (2009), p. 631
Online since: January 2005
Authors: Wen Bo Han, Shu Jie Li, Hongying Dong
Joining of SiC Ceramic with Ternary Carbide Ti3SiC2
Hongying Dong
1, a, Wenbo Han
2, b and Shujie Li1, c
1
School of Materials Science and Engineering, Beijing University of Aeronautics and Astronautics,
Beijing 100083, P.
Han: Journal of Materials Science Vol.33 (1998) p.5007 [3] S.
Wu: International Journal of Refractory Metals & Hard Materials Vol. 18 (2000) p.33 [4] J.
Zhang: Rare Metal Materials and Engineering Vol.32, No.7 (2003) p.542 [5] C.
Watanabe: Journal of Materials Science Letters Vol.18 (1999) p.1595 [8] R.
Han: Journal of Materials Science Vol.33 (1998) p.5007 [3] S.
Wu: International Journal of Refractory Metals & Hard Materials Vol. 18 (2000) p.33 [4] J.
Zhang: Rare Metal Materials and Engineering Vol.32, No.7 (2003) p.542 [5] C.
Watanabe: Journal of Materials Science Letters Vol.18 (1999) p.1595 [8] R.
Online since: January 2005
Authors: János Dobránszky, Attila Magasdi, János Ginsztler
Their base materials are mostly unalloyed or poorly Cr-alloyed tool steels.
The base materials of the bandsaw blades are typically unalloyed or low Cr-alloyed tool steels.
[5] Dugdale DS, Sarwar M: Journal of Materials Processing Technology, 56, 729-732, 1996
Journal of Fatigue, 23, 627-636, 2001
[9] Weiju Ren, Nicholas T: Materials Science and Engineering, A00, 1-12, 2003
The base materials of the bandsaw blades are typically unalloyed or low Cr-alloyed tool steels.
[5] Dugdale DS, Sarwar M: Journal of Materials Processing Technology, 56, 729-732, 1996
Journal of Fatigue, 23, 627-636, 2001
[9] Weiju Ren, Nicholas T: Materials Science and Engineering, A00, 1-12, 2003
Online since: June 2005
Authors: Koichi Niihara, Rak Joo Sung, Byung Kyu Moon, Dae Ho Choi, Seung Ho Kim
Fabrication of Zirconia-Hydroxyapatite Composites
for Biological Materials
Byung Kyu Moon1, a , Dae Ho Choi
1
, Rock Joo Sung2 ,
Seung Ho Kim
2
, Koichi Niihara 2
1
Department of Materials Engineering, Sun Moon University
Asan, 336-708, KOREA
2
The Institute of Scientific and Industrial Research, Osaka University
8-1 Mihogaoka, Osaka 567-0047, Japan
a
twinc@korea.com
Keywords: Biomaterials, Zirconia, Hydroxyapatite, Composites, Pulse Electric Current Sintering
Abstract.
Thus, ZR-HA composite became an important material which has been investigated widely.
Kannan: Materials Science and Engineering Vol.
Domingues: Materials in Medicine Vol. 8 (1997), p.907 [5] W.
Vol. 13 (2001), p.214 [7] Junya Kondoh, Hirohisa Shiota, Katsuhiro Kawachi, Toshio Nakatani: Journal of Alloys and Compounds Vol. 365 (2004), p.253 [8] Wei jie, Li yubao, Chen weiqun, Zuo yi: Journal of materials science Vol. 38 (2003), p.3303 [9] B.R.
Thus, ZR-HA composite became an important material which has been investigated widely.
Kannan: Materials Science and Engineering Vol.
Domingues: Materials in Medicine Vol. 8 (1997), p.907 [5] W.
Vol. 13 (2001), p.214 [7] Junya Kondoh, Hirohisa Shiota, Katsuhiro Kawachi, Toshio Nakatani: Journal of Alloys and Compounds Vol. 365 (2004), p.253 [8] Wei jie, Li yubao, Chen weiqun, Zuo yi: Journal of materials science Vol. 38 (2003), p.3303 [9] B.R.
Online since: August 2013
Authors: Hai Huang, Lin Hai Cui, Xue Bin Lu
Piezoresistive and Mechanics Properties of Nano Polycrystalline Silicon Film Materials
Xuebin LU1, a, Linhai CUI1 and Hai HUANG1
1 Department of Integrate Circuit Design and Integrate System, Harbin University of Science and Technology, Harbin 150080, China
alxbsw@126.com
Keywords: Nano Polycrystalline Silicon, Gauge Factor, Young’s Modulus.
Introduction The researches about nano materials developed rapidly in 21st century [1].
Two dimension nano materials is a kind of film whose thickness is less than 100nm, i.e. nano film [2].
By auto mode of loading control, TriboIndenter system fulfills the continuous loading and unloading of materials.
Acknowledgments The authors acknowledge the support from Young Science Foundation of Harbin University of Science and Technology under Grant No. 1025-2011020.
Introduction The researches about nano materials developed rapidly in 21st century [1].
Two dimension nano materials is a kind of film whose thickness is less than 100nm, i.e. nano film [2].
By auto mode of loading control, TriboIndenter system fulfills the continuous loading and unloading of materials.
Acknowledgments The authors acknowledge the support from Young Science Foundation of Harbin University of Science and Technology under Grant No. 1025-2011020.