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Online since: November 2011
Authors: Muralidharan Paramsothy, Tirumalai S. Srivatsan, Manoj Gupta, C. Godbole
Wei, L.C Lee, Journal of Composite Materials, Vol 42 (2008), pp. 2039 – 2050.
11.
Gupta, Materials Science and Engineering A ,Vol. 466 (2007), pp. 32–37. 13.
Gupta, Journal of Materials Science , Vol. 46 (2011), pp 4588-4597. 14.
Yue, Materials Science and Engineering: A, Vol. 135, (1991), pp. 247-252. 23.
Cheng, Materials Science Technology, Vol. 15 (1999), pp. 1139-1146. 26.
Gupta, Materials Science and Engineering A ,Vol. 466 (2007), pp. 32–37. 13.
Gupta, Journal of Materials Science , Vol. 46 (2011), pp 4588-4597. 14.
Yue, Materials Science and Engineering: A, Vol. 135, (1991), pp. 247-252. 23.
Cheng, Materials Science Technology, Vol. 15 (1999), pp. 1139-1146. 26.
Online since: November 2024
Authors: Valeria Arrighi, Ahmed Zaed, Arno Kraft, Wanisa Abdussalam-Mohammed, Moussa Khlifa
Composites and Advanced Materials. (2021), 30, p.2634
Journal of Applied Polymer Science. (2021), 138(48), p.51458
Advanced Materials. (2018), 30(23), p.1706441
Journal of Polymer Science Part A: Polymer Chemistry. (2007), 45(17), pp.3818-3832
Journal of Polymer Science Part A: Polymer Chemistry.(2019), 57(3), pp.216-227
Journal of Applied Polymer Science. (2021), 138(48), p.51458
Advanced Materials. (2018), 30(23), p.1706441
Journal of Polymer Science Part A: Polymer Chemistry. (2007), 45(17), pp.3818-3832
Journal of Polymer Science Part A: Polymer Chemistry.(2019), 57(3), pp.216-227
Online since: May 2011
Authors: Ying Xu, Peng Hua Ma, Yu Bo Dou, Yan Qing Cai
Effect of the substrate temperature on crystalline and optical properties of ZnO thin films prepared by CVD
Xu Ying1,a,Ma Penghua2,b,Dou Yubo3,c,Cai Yanqing4,d
1College of Materials Science and Engineering , Hebei United University, Tangshan, 063009, China
2College of Materials Science and Engineering, Hebei United University, Tangshan, 063009, China
3College of Materials Science and Engineering, Hebei United University, Tangshan, 063009, China
4College of Materials Science and Engineering, Hebei United University, Tangshan, 063009, China
a yuyingdd@yahoo.com.cn, bmph870612@163.com.cn, cdouyubo@sohoo.com, dcai200508040117@126.com
Keywords: ZnO, CVD, crystalline properties, optical properties
Abstract.
Materials Science & Engineering.
Journal of functional materials, Vol. 8(2008), p.1279-1282
Chinese journal of vacuum science and technology, Vol.
Journal of Xi’An JiaoTong University, Vol. 12(2005)
Materials Science & Engineering.
Journal of functional materials, Vol. 8(2008), p.1279-1282
Chinese journal of vacuum science and technology, Vol.
Journal of Xi’An JiaoTong University, Vol. 12(2005)
Online since: May 2020
Authors: K.Q. Qahorov, O.E. Sysoev, E.O. Sysoev
Thin-walled shells require less consumption of building materials compared to planar structures, which allows them to have less own weight.
Kahorov, factors influencing destruction of buildings of shell type in the collection: Regional aspects of development of science and education in the field of architecture, construction, land management and buildings at the beginning of the III Millennium, Materials of the International scientific-practical conference, Responsible editor O.E.
Kahorov, Determination of condition of structures, calculation of shells of building materials "ОСКРОСМ2017", the Certificate of registration of program for computer № 2017613622 Application 2016662970 From 28.11.2016 Priority from 22.03.2017
Korotkikh, Free axisymmetric vibrations of cylindrical shells made of functionally graded materials, International applied mechanics, 2015, pp. 654-663
Eremeyev, On the variational analysis of vibrations of prestressed six-parameter shells, Advanced structured materials, 2016, pp. 3-19
Kahorov, factors influencing destruction of buildings of shell type in the collection: Regional aspects of development of science and education in the field of architecture, construction, land management and buildings at the beginning of the III Millennium, Materials of the International scientific-practical conference, Responsible editor O.E.
Kahorov, Determination of condition of structures, calculation of shells of building materials "ОСКРОСМ2017", the Certificate of registration of program for computer № 2017613622 Application 2016662970 From 28.11.2016 Priority from 22.03.2017
Korotkikh, Free axisymmetric vibrations of cylindrical shells made of functionally graded materials, International applied mechanics, 2015, pp. 654-663
Eremeyev, On the variational analysis of vibrations of prestressed six-parameter shells, Advanced structured materials, 2016, pp. 3-19
Online since: May 2012
Authors: Werner Hufenbach, Robert Kupfer, Andreas Hornig
As these materials combine good mechanical properties, low density and designable characteristics with highly productive manufacturing capabilities, they are adequate for lightweight structures especially in high volume applications.
Specific to all composite materials, the load bearing capabilities of these structures can only be exploited if suitable load introduction systems and joining techniques are provided.
Part A: Applied Science and Manufacturing 36 (2005) 55–64
Fusco, Fiber Insertion Process for Improved Damage Tolerance in Aircraft Laminates, Journal of Advanced Materials 25 (1994) 36–43
[20] N.N., Product Information Twintex(R) T PP, Owens Corning Composite Materials LLC, Toledo, 2009.
Specific to all composite materials, the load bearing capabilities of these structures can only be exploited if suitable load introduction systems and joining techniques are provided.
Part A: Applied Science and Manufacturing 36 (2005) 55–64
Fusco, Fiber Insertion Process for Improved Damage Tolerance in Aircraft Laminates, Journal of Advanced Materials 25 (1994) 36–43
[20] N.N., Product Information Twintex(R) T PP, Owens Corning Composite Materials LLC, Toledo, 2009.
Online since: November 2010
Authors: Hong Shen, Zheng Qiang Yao, Jun Hu
Das: ASME Materials Div, publication MD Vol. 74 (1996), p. 169
Yao: Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science Vol. 220 (2006), No.4, p. 507
Yao: Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science Vol. 221 (2007), No.9, p. 993
Pantelakis: Journal of Materials Processing Technology Vol. 104 (2000), p. 94
Yao: Journal of Manufacturing Science and Engineering Vol.123 (2001), p. 53.
Yao: Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science Vol. 220 (2006), No.4, p. 507
Yao: Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science Vol. 221 (2007), No.9, p. 993
Pantelakis: Journal of Materials Processing Technology Vol. 104 (2000), p. 94
Yao: Journal of Manufacturing Science and Engineering Vol.123 (2001), p. 53.
Online since: November 2012
Authors: Peter Šugár, Jana Šugárová, Peter Zemko, Ladislav Morovič
Analysis of dimensional accuracy of spun parts by Taguchi approach
Peter ŠUGÁR1, a, Jana ŠUGÁROVÁ1, b, Ladislav MOROVIČ1,c,
Peter ZEMKO1,d
1Institute of Production Technologies, Faculty of Materials Science and Technology,
Slovak University of Technology, J.
Journal of Materials Processing Technology, Vol. 103 (2000), No.1, pp. 114 – 119
Journal of Materials Processing Technology, Vol. 129 (2002), No. 1 – 3, pp. 326 – 329
Study on the deformation mode of conventional spinning of plates, Journal of Materials Processing Technology, Vol. 91 (1999), No. 1 – 3, pp. 226 – 230
Journal of Materials Processing Technology, Vol. 211 (2011), No. 1 – 3, pp. 2141 – 2151.
Journal of Materials Processing Technology, Vol. 103 (2000), No.1, pp. 114 – 119
Journal of Materials Processing Technology, Vol. 129 (2002), No. 1 – 3, pp. 326 – 329
Study on the deformation mode of conventional spinning of plates, Journal of Materials Processing Technology, Vol. 91 (1999), No. 1 – 3, pp. 226 – 230
Journal of Materials Processing Technology, Vol. 211 (2011), No. 1 – 3, pp. 2141 – 2151.
Online since: May 2020
Authors: Miroslav Tomáš, Emil Evin
Thus, when reference material H220PD is replaced by other tested materials (innovative ones), the absorption ability of the car-body structure is better.
It is assumed that the development of materials for the frontal impact zones will focus on materials based on the austenitic structure in the future.
Warczek, Analysis of material deformation work measures in determination of a vehicle’s collision speed, Archives of Materials Science and Engineering. 58-1 (2012) 13-21
Wang, Bending collapse of square tubes with variable thickness, International Journal of Mechanical Sciences. 106 (2016) 107–116
Eng. and Sciences. 9 (2015) 1734-1743
It is assumed that the development of materials for the frontal impact zones will focus on materials based on the austenitic structure in the future.
Warczek, Analysis of material deformation work measures in determination of a vehicle’s collision speed, Archives of Materials Science and Engineering. 58-1 (2012) 13-21
Wang, Bending collapse of square tubes with variable thickness, International Journal of Mechanical Sciences. 106 (2016) 107–116
Eng. and Sciences. 9 (2015) 1734-1743
Online since: October 2013
Authors: Yu Can Fu, Zi Yang Cao, Hua Li, Zhen Yin
The various parts of the material properties of the geometric model and unit type were defined, the five kinds of element types and five kinds of material parameters are given in Table 1, and the area of the SSFUT and air field were meshed with proper mesh density, the finite element model is shown in Fig. 5.
Foundation item: Project supported by National Natural Science Foundation of China (51075288), Natural Science Foundation of Provincial universities (12KJB460010) and Jiangsu Natural Science Foundation (BK2011314) Reference [1] R.
[2] S.Yoshizawa, T.Ikeda, A.Ito: submitted to Journal of Med Biol Eng Comput (2009) [3] T.
Kanda: submitted to Journal of Sensors and Actuators (2009) [4] S.Yuan, Z.Zhou, G.Wang: submitted to Journal of Microelectronic Engineering (2003) [5] L.QIN, L.LI, L.K.WANG: submitted to Journal of Functional Materials (2007) [6] X.P MO.: submitted to Journal of Technical Acoustics (2007) [7] G.ZHOU, W.SHOU: submitted to Journal of Technical Acoustics (2002) [8] P.ZHANG, X.P.
HE: submitted to Journal of Shaanxi Normal University (2009)
Foundation item: Project supported by National Natural Science Foundation of China (51075288), Natural Science Foundation of Provincial universities (12KJB460010) and Jiangsu Natural Science Foundation (BK2011314) Reference [1] R.
[2] S.Yoshizawa, T.Ikeda, A.Ito: submitted to Journal of Med Biol Eng Comput (2009) [3] T.
Kanda: submitted to Journal of Sensors and Actuators (2009) [4] S.Yuan, Z.Zhou, G.Wang: submitted to Journal of Microelectronic Engineering (2003) [5] L.QIN, L.LI, L.K.WANG: submitted to Journal of Functional Materials (2007) [6] X.P MO.: submitted to Journal of Technical Acoustics (2007) [7] G.ZHOU, W.SHOU: submitted to Journal of Technical Acoustics (2002) [8] P.ZHANG, X.P.
HE: submitted to Journal of Shaanxi Normal University (2009)
Online since: April 2014
Authors: Zhao Yang Zeng, Ming Lu, Zhen Jian Lv, Xing Wei Ji
Are these graphite-based materials effective microwave absorbers?
Can these materials be excellent additives for other absorbers?
Rui-gang: Journal of Magnetism and Magnetic Materials Vol.323 (2011), p.805–1810 [2] J.
Fa: Journal of Magnetism and Magnetic Materials Vol.323 (2011), p. 600–606
Duan: Journal of Magnetism and Magnetic Materials.Vol.321(2009),p.3442-3446.
Can these materials be excellent additives for other absorbers?
Rui-gang: Journal of Magnetism and Magnetic Materials Vol.323 (2011), p.805–1810 [2] J.
Fa: Journal of Magnetism and Magnetic Materials Vol.323 (2011), p. 600–606
Duan: Journal of Magnetism and Magnetic Materials.Vol.321(2009),p.3442-3446.