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Online since: May 2009
Authors: Zi Long Peng, Wan Sheng Zhao, Zhen Long Wang, Ying Huai Dong, Hui Chen
Currently the basic materials of Micro-turbine
Engineering were nonmetal materials such as SiC, most of them are 2D or quasi-3D structures.
Currently the basic materials of micro gas turbine engineering were non-metallic materials such as SiC, and most of them are 2 dimensions or quasi-3 dimensions structures.
To analyze the performance of different materials, the two different materials were used for rotor and stator disks.
The reason is that the discharge gap is not the same in different voltage and materials.
[5] D.T.Pham,S.S.Dimov, S.Bigot et al.: Journal of Materials Processing Technology,Vol.149 (2004), pp.50-57.
Currently the basic materials of micro gas turbine engineering were non-metallic materials such as SiC, and most of them are 2 dimensions or quasi-3 dimensions structures.
To analyze the performance of different materials, the two different materials were used for rotor and stator disks.
The reason is that the discharge gap is not the same in different voltage and materials.
[5] D.T.Pham,S.S.Dimov, S.Bigot et al.: Journal of Materials Processing Technology,Vol.149 (2004), pp.50-57.
Online since: October 2015
Authors: Zi Fan Huang, Jian Qiang Zhang, Xi Gui Zheng, Jun Liu, Yue Long Ma
Molding equipment processing param-eter is set to: The height of 0.1 mm, Nozzle temperature 210 ℃, Density of 30%, Materials is polylactide, the filling speed of 30 mm/s.
Error between the actual gear tooth pr-ofile and the theory is derived from the nozzle of the filament width error and materials in the proc-ess of solidification shrinkage [18,19,20,21].Actual gradually open surface section belo-w.
Journal of mechanical science and technology, 2008, 27 (10) : 1207-1215
Journal of mechanical science and technology, 2002, 21 (5) : 788-790
Journal of mechanical science and technology, 1998, (4) : 58-63
Error between the actual gear tooth pr-ofile and the theory is derived from the nozzle of the filament width error and materials in the proc-ess of solidification shrinkage [18,19,20,21].Actual gradually open surface section belo-w.
Journal of mechanical science and technology, 2008, 27 (10) : 1207-1215
Journal of mechanical science and technology, 2002, 21 (5) : 788-790
Journal of mechanical science and technology, 1998, (4) : 58-63
Online since: October 2010
Authors: Zhen Xing Mei, Yu Dong Zhang, Xun Jia Su, Gen Liang Hou, Feng Guo
A novel method for preparation of the ultra high temperature, anti-ablation materials was reported.
[3] Liu Jun, Xiong Xiang, Wang Jianying, Huang Boyun: Aerospace Materials And Technology, Vol. 1 (2005), p. 6
Sacks et al: Journal of Materials Science, Vol. 39 (2004) p. 6057
[7] Yang huaming: New Inorganic Materials (Chemistry Industry Press)
[9] Xiang hua, Xu Yongdong, Zhang litong and Chen Laifei: Journal of Inorganic Materials, Vol. 7 (2006), p. 893
[3] Liu Jun, Xiong Xiang, Wang Jianying, Huang Boyun: Aerospace Materials And Technology, Vol. 1 (2005), p. 6
Sacks et al: Journal of Materials Science, Vol. 39 (2004) p. 6057
[7] Yang huaming: New Inorganic Materials (Chemistry Industry Press)
[9] Xiang hua, Xu Yongdong, Zhang litong and Chen Laifei: Journal of Inorganic Materials, Vol. 7 (2006), p. 893
Online since: September 2014
Authors: Kazuto Tanaka, Jun Nishio, Tsutao Katayama, Shinichi Enoki
Accordingly, since CFRTP can contribute to weight reduction of cars, they are promising materials for automobiles.
Enoki: Effect of Water Absorption on the Mechanical Properties of Carbon Fiber/Polyamide composites, Journal of Solid Mechanics and Materials Engineering, Vol.7, No.5, (2013), p.520-529
Hamzah: Study of Fatigue Behavior of Composite Materials with the Basis of Polyphenylene Sulfide (PPS) Reinforced with Glass Fiber and Carbon, International Journal of Engineering and Technology, Vol.3, No.4, (2013), p.467 -475
Masabe, T Katayama: Evaluation of Interfacial Properties for Carbon Fiber/Polyamide Model Composites by Means of Single Fiber Pull-Out Test, Journal of the Society of Materials Science, Vol. 58, No.7, (2009), p.635-641
Katayama, Vacuum Assisted High Speed Compression Molding and Evaluation of Mechanical Properties of Continuous Carbon Fiber Reinforced Polycarbonate Composite, Journal of the Society of Materials Science, Japan, Vol. 60, No. 3, (2011), p. 251-258.
Enoki: Effect of Water Absorption on the Mechanical Properties of Carbon Fiber/Polyamide composites, Journal of Solid Mechanics and Materials Engineering, Vol.7, No.5, (2013), p.520-529
Hamzah: Study of Fatigue Behavior of Composite Materials with the Basis of Polyphenylene Sulfide (PPS) Reinforced with Glass Fiber and Carbon, International Journal of Engineering and Technology, Vol.3, No.4, (2013), p.467 -475
Masabe, T Katayama: Evaluation of Interfacial Properties for Carbon Fiber/Polyamide Model Composites by Means of Single Fiber Pull-Out Test, Journal of the Society of Materials Science, Vol. 58, No.7, (2009), p.635-641
Katayama, Vacuum Assisted High Speed Compression Molding and Evaluation of Mechanical Properties of Continuous Carbon Fiber Reinforced Polycarbonate Composite, Journal of the Society of Materials Science, Japan, Vol. 60, No. 3, (2011), p. 251-258.
Online since: February 2012
Authors: Jia Chu Xu, Chao Deng, Hao Wang
However the reliance of the thermal and physical parameters of its component materials on temperature changes was not taken into consideration.
Physical parameters of functional gradient materials Consider a functional gradient material shallow conical shell of which the upper surface is made of ceramics, the lower surface of is made of metal, and the middle part is made of mixture of these two kinds of materials as shown in figure 1(a).
Functional gradient materials (FGMs) belong to isotropic material and its components change with the space coordinates.
AIAA Journal Vol.40(2002), P.162-169 [3] Javaheri R,Eslami M R.
International Journal of Solids and Structures Vol.40(2003),P. 3869-3892 [5] Zhao Yonggang: Static and Dynamic Response of Functional Gradient Material Plates and Shells with Thermal Loads ( Lanzhou University of Technology, 2007) [6] Zhang Jinghua: Functionally graded materials, structural beams, the static mechanical response of the shell structure (Lanzhou University of Technology, 2004) [7] Wang Minlu, Zhang Minghui.
Physical parameters of functional gradient materials Consider a functional gradient material shallow conical shell of which the upper surface is made of ceramics, the lower surface of is made of metal, and the middle part is made of mixture of these two kinds of materials as shown in figure 1(a).
Functional gradient materials (FGMs) belong to isotropic material and its components change with the space coordinates.
AIAA Journal Vol.40(2002), P.162-169 [3] Javaheri R,Eslami M R.
International Journal of Solids and Structures Vol.40(2003),P. 3869-3892 [5] Zhao Yonggang: Static and Dynamic Response of Functional Gradient Material Plates and Shells with Thermal Loads ( Lanzhou University of Technology, 2007) [6] Zhang Jinghua: Functionally graded materials, structural beams, the static mechanical response of the shell structure (Lanzhou University of Technology, 2004) [7] Wang Minlu, Zhang Minghui.
Online since: September 2013
Authors: Wei Wei Zhang, Bao Song Li
The characterization of the resulting materials was carried out by UV-vis, X-ray diffraction, cyclic voltammetry, scanning lectron microscopy and conductivity measurements.
Martin: Chemistry of Materials Vol. 6 (1994), pp: 1627-1632 [3] W.B.
Darwis: Journal of Pharmaceutical Sciences Vol. 70 (2008), pp: 303-309 [5] S.M.
Martin: Science, Vol. 266 (1994), pp. 1961-1966
Venkatachari: Journal of Applied Polymer Science, Vol. 116 (2010), pp. 1524-1537.
Martin: Chemistry of Materials Vol. 6 (1994), pp: 1627-1632 [3] W.B.
Darwis: Journal of Pharmaceutical Sciences Vol. 70 (2008), pp: 303-309 [5] S.M.
Martin: Science, Vol. 266 (1994), pp. 1961-1966
Venkatachari: Journal of Applied Polymer Science, Vol. 116 (2010), pp. 1524-1537.
Online since: February 2008
Authors: Ramaseshan Ramakrishnan, Ying Jun Liu, Sundarrajan Subramanian, Seeram Ramakrishna
Moreover, electrospun materials possess more activity due to their surface
charge density.
Materials selection and evaluation methodology 2.1 Decontamination approaches: Different classes of materials are known to act as potential decontaminants for the chemical warfare agents.
Hence a combination of these two materials such as composite fiber with a polymer chain as a backbone and the ceramic nanorods/nanofiber would be a niche material.
Self assembled honeycomb polyurethane nanofibers, SS Ramkumar et al, Journal of Applied Polymer Science; Volume 101, Issue 5, pp 3121-3124, Sept. 2006 11.
Chronakis, Journal of Materials Processing Technology, 167 pp 283-293, 2005 13.
Materials selection and evaluation methodology 2.1 Decontamination approaches: Different classes of materials are known to act as potential decontaminants for the chemical warfare agents.
Hence a combination of these two materials such as composite fiber with a polymer chain as a backbone and the ceramic nanorods/nanofiber would be a niche material.
Self assembled honeycomb polyurethane nanofibers, SS Ramkumar et al, Journal of Applied Polymer Science; Volume 101, Issue 5, pp 3121-3124, Sept. 2006 11.
Chronakis, Journal of Materials Processing Technology, 167 pp 283-293, 2005 13.
Online since: September 2013
Authors: Fang Yin, Wu Di Zhang, Ling Xu, Xing Ling Zhao, Yu Bao Chen, Li Juan Zhang, Wei Dong Lin, Jing Liu, Shi Qing Liu
Chinese Journal of Applide Ecology.
Weed Science.
Journal of Hechi Normal College.
Journal of Farm Machinery Research.
Advanced Materials Research .Trans Tech Publications.
Weed Science.
Journal of Hechi Normal College.
Journal of Farm Machinery Research.
Advanced Materials Research .Trans Tech Publications.
Online since: October 2014
Authors: Y.S. Kong, Mohd Zaidi Omar, L.B. Chua, S. Abdullah
S-N approach is used for prediction of the components subjected to high cycle fatigue, where the materials are within elastic limit.
Differences of cycle life between these two materials were reported with Goodman, Gerber and interpolate mean stress correction method.
Chua, European Journal of Scientific Research. 28, 3 (2009) 351-363
Mann, The historical development of research on the fatigue of materials and structures.
Tara Sasanka, Fatigue life prediction of a parabolic spring under non-constant amplitude proportional loading using finite element method, International Journal of Advanced Science and Technology. 46 (2012) 143-156
Differences of cycle life between these two materials were reported with Goodman, Gerber and interpolate mean stress correction method.
Chua, European Journal of Scientific Research. 28, 3 (2009) 351-363
Mann, The historical development of research on the fatigue of materials and structures.
Tara Sasanka, Fatigue life prediction of a parabolic spring under non-constant amplitude proportional loading using finite element method, International Journal of Advanced Science and Technology. 46 (2012) 143-156
Online since: June 2013
Authors: Xian Chang Mao, Si Li
Acknowledgements
This work was financially supported by Guangxi Natural Science Foundation (Grant No. 2012GXNSFBA053147), Guangxi Educational Committee Science Foundation (Grant No. 201106LX592) and Guangxi college student innovative entrepreneurial training program Foundation (Grant No. 2013-12, Grant No. 2013-17, Grant No. 2013-19).
Wang: Journal of Materials Processing Technology, Vol. 74(1998), p.286 [2] L.
Duszczyk: Journal of Materials Processing Technology, Vol. 172(2006), p.372 [3] X.H.
Yuan: Journal of Materials Processing Technology, Vol. 187–188 (2007), p.300 [6] L.F.
Mao: Advanced Materials Research, Vol. 139-141(2010), p.520 [7] S.Y.
Wang: Journal of Materials Processing Technology, Vol. 74(1998), p.286 [2] L.
Duszczyk: Journal of Materials Processing Technology, Vol. 172(2006), p.372 [3] X.H.
Yuan: Journal of Materials Processing Technology, Vol. 187–188 (2007), p.300 [6] L.F.
Mao: Advanced Materials Research, Vol. 139-141(2010), p.520 [7] S.Y.