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Online since: January 2017
Authors: Min Lin Mao, Fen Xu, Li Xian Sun
Journal of Materials Chemistry 2012, 22(1), 146-152
Journal of Materials Chemistry A 2013, 1(14), 4490-4496
Journal of Materials Chemistry 2012, 22(18), 8911-8915
Journal of Materials Chemistry 2011, 21(18), 6649-6653
Journal of Materials Chemistry A 2013, 1(1), 14-19
Journal of Materials Chemistry A 2013, 1(14), 4490-4496
Journal of Materials Chemistry 2012, 22(18), 8911-8915
Journal of Materials Chemistry 2011, 21(18), 6649-6653
Journal of Materials Chemistry A 2013, 1(1), 14-19
Online since: November 2015
Authors: A. Ayeshamariam, J. Shanthi, M. Jayachandran, S. Rani, S. Thanka Rajan
Materials Science and Engineering: B, (2010) 242, 174
Advanced Materials (2003) 801, 5
Advanced Materials (2005) 1847, 7
Advanced Materials (2004) 113, 6
Materials (1995) 177, 24
Advanced Materials (2003) 801, 5
Advanced Materials (2005) 1847, 7
Advanced Materials (2004) 113, 6
Materials (1995) 177, 24
Online since: May 2012
Authors: Li Hua Xu, Hui Li Wang, Zhi Qiang Hu, Hong Shun Hao, Fang Lian, Gui Shan Liu
Sialon-based materials have excellent high-temperature properties, which are widely used as refractory materials.
Materials Science forum,Vol. 610-613(2009),p. 267
Materials Science and Engineering A,Vol.487(2008),p.278 [8] J G Lee, IVAN B.
Journal of Inorganic Materials,Vol.25(2010),p.1121.
Materials Review,Vol.24(2010),p.125.
Materials Science forum,Vol. 610-613(2009),p. 267
Materials Science and Engineering A,Vol.487(2008),p.278 [8] J G Lee, IVAN B.
Journal of Inorganic Materials,Vol.25(2010),p.1121.
Materials Review,Vol.24(2010),p.125.
Online since: October 2013
Authors: Bing Hai Lv, Hong Bo Ji, Lei Sun, Yan Peng, Ju Long Yuan, Chen Chen Dong
Then, with the development of materials science and related techniques, the application field of non-Newtonian fluid begins to expand and some intelligent materials are also successfully applied to damping device manufacturing and machining.
Summary Based on the special rheological properties, non-Newtonian fluids are used as additives, mediums and protective materials successfully.
Savaresi, et al: Mechatronics Vol.19(2009), p.410 [12] Ioan Bica: Journal of Magnetism and Magnetism and Magnetic Materials Vol.270 (2004), p. 321 [13] Lee, Y.S., Wetzel, E.D., Wagner, N.J.
Journal of Materials Science Vol.38(13) (2003), p. 2825 [14] R.G.
Lee: Journal of Materials Processing Technology Vol. 155-1566 (2004), p.1293 [19] TANG Yong, ZHOU Deming, XIA Wei, et al: Journal of South China University of Technology (Nature Science Edition) Vol. 29 (1) (2001), p.34 [20] JI Shiming, LI Chen, TAN Dapeng, et al: Journal of Mechanical Engineering Vol. 47(17) (2011), p.156
Summary Based on the special rheological properties, non-Newtonian fluids are used as additives, mediums and protective materials successfully.
Savaresi, et al: Mechatronics Vol.19(2009), p.410 [12] Ioan Bica: Journal of Magnetism and Magnetism and Magnetic Materials Vol.270 (2004), p. 321 [13] Lee, Y.S., Wetzel, E.D., Wagner, N.J.
Journal of Materials Science Vol.38(13) (2003), p. 2825 [14] R.G.
Lee: Journal of Materials Processing Technology Vol. 155-1566 (2004), p.1293 [19] TANG Yong, ZHOU Deming, XIA Wei, et al: Journal of South China University of Technology (Nature Science Edition) Vol. 29 (1) (2001), p.34 [20] JI Shiming, LI Chen, TAN Dapeng, et al: Journal of Mechanical Engineering Vol. 47(17) (2011), p.156
Online since: June 2022
Authors: Fernando B.N. Ferreira, Nguyen T. Quyen, Nguyen Trong Quoc, Nguyen Dinh Tru, Abel J.P. Gomes
A Node-Based Strain Smoothing Technique for Free Vibration Analysis of Textile-Like Sheet Materials
Nguyễn T.
The present method illustrates that the numerical solution can help increasing the numerical accuracy and the computational efficiency for free vibration analysis of textile-like sheet materials.
The numerical results show that the solutions can improve numerical accuracy and computational efficiency subjected to free vibration analysis of textile-like sheet materials.
Hari, Woven Textile Structure: Theory And Applications, Elsevier Science, 2010
Hu, Textile Mechanics, in: In Handbook of Fibrous Materials, 2020, pp. 455-476) [18] Hu, J., Structure and mechanics of woven fabrics, Woodhead Publishing Ltd., Cambridge, 2004
The present method illustrates that the numerical solution can help increasing the numerical accuracy and the computational efficiency for free vibration analysis of textile-like sheet materials.
The numerical results show that the solutions can improve numerical accuracy and computational efficiency subjected to free vibration analysis of textile-like sheet materials.
Hari, Woven Textile Structure: Theory And Applications, Elsevier Science, 2010
Hu, Textile Mechanics, in: In Handbook of Fibrous Materials, 2020, pp. 455-476) [18] Hu, J., Structure and mechanics of woven fabrics, Woodhead Publishing Ltd., Cambridge, 2004
Online since: August 2009
Authors: Guang Ying Zhang, Chun Hu Li, Wei Zhu, Jian Zhang, Ying Fei Hou
Vol. 17
(2007), p. 27-42
[2] Song Wei, Liu Jianguo and Nie Yongfeng: China Environmental Science.
Vol. 28 (2008), p. 340-344 [3] Chen Jiang, Yang Jinfu and Cai Hongling: Journal of Zhejiang University of Technology.
Vol. 33 (2005), p. 315-318 [4] Yuan Chunyan, Wang Peng and Pan Weiqian: Journal of Harbin Institute of Technology.
Vol. 40 (2008), p. 964-966 [5] Wang Tonghua, Hu Junsheng and Xia Li: Journal of Shenyang Jianzhu University(Natural Science).
Vol. 13 (2005), p. 43-45 [7] Xie Guoyong, Liu Zhenyu and Liu Youzhi: Journal of Fuel Chemistry and Technology.
Vol. 28 (2008), p. 340-344 [3] Chen Jiang, Yang Jinfu and Cai Hongling: Journal of Zhejiang University of Technology.
Vol. 33 (2005), p. 315-318 [4] Yuan Chunyan, Wang Peng and Pan Weiqian: Journal of Harbin Institute of Technology.
Vol. 40 (2008), p. 964-966 [5] Wang Tonghua, Hu Junsheng and Xia Li: Journal of Shenyang Jianzhu University(Natural Science).
Vol. 13 (2005), p. 43-45 [7] Xie Guoyong, Liu Zhenyu and Liu Youzhi: Journal of Fuel Chemistry and Technology.
Online since: May 2013
Authors: Fang Zhou Xu, Min Nie, Jiang Ping Sun
Saturation flux densities of the materials were analyzed by SY8258 B-H analyzer.
HITACHI S4800 microscope was used to investigate the microstructure of the materials.
Zhou: Ferrite magnetic material (Science Press, China 1981), p.190.
Chen: Journal of Magnetic Materials and Devices, Vol. 37 (2006) No.2, p.49.
He: Journal of Magnetic Materials and Devices, Vol. 35 (2004) No.3, p.29.
HITACHI S4800 microscope was used to investigate the microstructure of the materials.
Zhou: Ferrite magnetic material (Science Press, China 1981), p.190.
Chen: Journal of Magnetic Materials and Devices, Vol. 37 (2006) No.2, p.49.
He: Journal of Magnetic Materials and Devices, Vol. 35 (2004) No.3, p.29.
Online since: May 2012
Authors: Mao Yan He, Jian Guo Luo
New Machine for Complex Structure Decoration Materials
Luo Jianguo1,a, He Maoyan2,b
1 Mechanical and Electrical Engineering Department, North China Institute of Science and Technology, East Surbub of Beijing,China, 101601
2Labour Union, North China Institute of Science and Technology, East Surbub of Beijing,China, 101601
aluojg_1598@126.com, bhmy666@ncist.edu.cn
Key words: Hybrid cubic manipulator, Graph theory, Dimensionity, Degree of freedom, Working space
Abstract: A new type of machine for complex structure decoration materials based on hybrid cubic manipulator with six degree of freedom(DOF) suggested in view of traditional serial manipulator and parallel manipulator, three dimensional translation and rotation of output shaft obtained through lineal driving.
Introduction Machine for complex decoration materials include serial machine, parallel machine and hybrid machine, parallel robots has a high stiffness and accuracy, high load-bearing and strength ratio than the traditional serial robot, and the actuation is convenience.
Huang: submitted to Journal of Mechanical Engineering(2007) [6] L.W.Tsai: submitted to Journal of Mechanical Design( 2002) [7] K.
Nan: submitted to Journal of Machinery(2003) [10] F.
Jia: submitted to Journal of Mechanical Science and Technology(1999)
Introduction Machine for complex decoration materials include serial machine, parallel machine and hybrid machine, parallel robots has a high stiffness and accuracy, high load-bearing and strength ratio than the traditional serial robot, and the actuation is convenience.
Huang: submitted to Journal of Mechanical Engineering(2007) [6] L.W.Tsai: submitted to Journal of Mechanical Design( 2002) [7] K.
Nan: submitted to Journal of Machinery(2003) [10] F.
Jia: submitted to Journal of Mechanical Science and Technology(1999)
Online since: December 2012
Authors: Bing Wu, Chen Yan Zhang
Computer science acts as the main source title of this research.
The main objective of this paper is to analyze topic research with semantic on Science Citation Index Expanded (SCI-E) database from web of science.
Table 2 Analyze Results of Document Type Document Type Record Count % of 20 Article 16 80.000% Proceedings Paper 6 30.000% EDITORIAL MATERIAL 2 10.000% Publication Year.
INTERNATIONAL JOURNAL OF MEDICAL INFORMATICS, 2009, 78(12): E1-E6 [9] Oh Hyo-Jung; Myaeng Sung Hyon; Jang Myung-Gil.
LECTURE NOTES IN COMPUTER SCIENCE, 2006,4185: 30-43
The main objective of this paper is to analyze topic research with semantic on Science Citation Index Expanded (SCI-E) database from web of science.
Table 2 Analyze Results of Document Type Document Type Record Count % of 20 Article 16 80.000% Proceedings Paper 6 30.000% EDITORIAL MATERIAL 2 10.000% Publication Year.
INTERNATIONAL JOURNAL OF MEDICAL INFORMATICS, 2009, 78(12): E1-E6 [9] Oh Hyo-Jung; Myaeng Sung Hyon; Jang Myung-Gil.
LECTURE NOTES IN COMPUTER SCIENCE, 2006,4185: 30-43
Online since: March 2013
Authors: Zhi Qing Guo, Qiu Juan Lv, Chang Jiang Liu, Min Chen, Yan Jiao Li
Introduction
Acoustic emission (AE) is a phenomenon of sound and ultrasound wave generation by materials that undergo deformation and fracture processes [1].
Fortunately AE signals could be used to detect material deformation and crack propagation, thus it can determine materials internal defects.
This materials show the typical four stages of tensile mechanical properties. ① Elastic stage: The deformation can be completely disappeared after relieve external forces. ② Yield stage: Strain has increased evidently, stress does not change or slightly decreased, this stage has an evident plastic deformation. ③ Intensive stage: Materials restore the ability to resist deformation.
It must increase the tension to make it continuing deformation, and stress of the materials in the intensive stage is large obviously more than the yield stage.
References [1] Boris Muravin: Acoustic Emission Science and Technology (Hebrew: Journal of Building and Infrastructure Engineering of the Israeli Association of Engineers and Architects, 2009) [2] Acoustic Emission Testing, "Nondestructive Testing Handbook".
Fortunately AE signals could be used to detect material deformation and crack propagation, thus it can determine materials internal defects.
This materials show the typical four stages of tensile mechanical properties. ① Elastic stage: The deformation can be completely disappeared after relieve external forces. ② Yield stage: Strain has increased evidently, stress does not change or slightly decreased, this stage has an evident plastic deformation. ③ Intensive stage: Materials restore the ability to resist deformation.
It must increase the tension to make it continuing deformation, and stress of the materials in the intensive stage is large obviously more than the yield stage.
References [1] Boris Muravin: Acoustic Emission Science and Technology (Hebrew: Journal of Building and Infrastructure Engineering of the Israeli Association of Engineers and Architects, 2009) [2] Acoustic Emission Testing, "Nondestructive Testing Handbook".