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Online since: June 2020
Authors: Yi Yan, Wei Jia Peng, Rui Jun Fan, Guo Lin Cao, Xiao Hui Shen, Zhan Yuan Tian, Hua Jun Guo
.; Yang, Z.; Li, X.; Wang, Z.; Wang, J., Co3O4 /Co nanoparticles enclosed graphitic carbon as anode material for high performance Li-ion batteries.
[18] Zhou, Y.; Guo, H.; Yan, G.; Wang, Z.; Li, X.; Yang, Z.; Zheng, A.; Wang, J., Fluidized bed reaction towards crystalline embedded amorphous Si anode with much enhanced cycling stability.
[24] Yang, Z.; Guo, H.; Li, X.; Wang, Z.; Wang, J.; Wang, Y.; Yan, Z.; Zhang, D., Graphitic carbon balanced between high plateau capacity and high rate capability for lithium ion capacitors.
W.; Jackson, A.; Yang, Y.; Hu, L.; Cui, Y., Stable cycling of double-walled silicon nanotube battery anodes through solid-electrolyte interphase control.
[38] Guo, W.; Wang, Y.; Li, Q.; Wang, D.; Zhang, F.; Yang, Y.; Yu, Y., SnO2@C@VO2 Composite Hollow Nanospheres as an Anode Material for Lithium-Ion Batteries.
[18] Zhou, Y.; Guo, H.; Yan, G.; Wang, Z.; Li, X.; Yang, Z.; Zheng, A.; Wang, J., Fluidized bed reaction towards crystalline embedded amorphous Si anode with much enhanced cycling stability.
[24] Yang, Z.; Guo, H.; Li, X.; Wang, Z.; Wang, J.; Wang, Y.; Yan, Z.; Zhang, D., Graphitic carbon balanced between high plateau capacity and high rate capability for lithium ion capacitors.
W.; Jackson, A.; Yang, Y.; Hu, L.; Cui, Y., Stable cycling of double-walled silicon nanotube battery anodes through solid-electrolyte interphase control.
[38] Guo, W.; Wang, Y.; Li, Q.; Wang, D.; Zhang, F.; Yang, Y.; Yu, Y., SnO2@C@VO2 Composite Hollow Nanospheres as an Anode Material for Lithium-Ion Batteries.
Online since: October 2012
Authors: Yan Lin Zhao, Hai Bo Lu, Zhao Tian Zeng, Jin Jin Zhang
(Yang et.al, 2000; Zhang et.al, 2008; Luo & Xing, 1998; Sun, 2007)
According to the tensile characteristics of clay and features of soil test, this paper prepared the samples by 2 different methods with conventional tools and conducted the tension tests by a device of tensile tester.
References [1] S.L.Yang, R.Sandven, L.Lin, et al.
References [1] S.L.Yang, R.Sandven, L.Lin, et al.
Online since: May 2013
Authors: Hong Guang Wang, Shi Yu Xiao, Dong Hua Ma, Yong Chang, Pei Tian Cong, Yong Jiang
Mechanism Design and Analysis of A Foot Massage Robot
Shiyu Xiao1,2,a, Hongguang Wang2,b , Donghua Ma3,c , Yong Jiang2,d ,
Yong Chang2,e and Peitian Cong1,f
1School of Mechanical Engineering, Shen Yang Ligong University, Shenyang 110159, China
2State Key Laboratory of Robotics, Shenyang Institute of Automation, Chinese Academy of Sciences, Shenyang 110016, China
3Ningxia Polytechnic, Yinchuan 750021, China
axiaoshiyu@sia.cn, bhgwang@sia.cn, cxjymadonghua@126.com, djiangyong@sia.cn, echangyong@sia.cn, f13904049316@163.com
Keywords: Massage robot; Optimal design; Serial-parallel mechanism.
[2] Huaixing Wen, Jie Yang and Hui Guo: Journal of Medical Instrumentation (2007).In Chinese
[5] Hiroyuki Ishii, Hiroki Koga and Yuichi Obokawa: Journal of Materials Research (2010) [6] Shunnian Yu, Jinsong Wang and Qizhi Yang: Journal of Mechanical Engineering (2004).In Chinese
[2] Huaixing Wen, Jie Yang and Hui Guo: Journal of Medical Instrumentation (2007).In Chinese
[5] Hiroyuki Ishii, Hiroki Koga and Yuichi Obokawa: Journal of Materials Research (2010) [6] Shunnian Yu, Jinsong Wang and Qizhi Yang: Journal of Mechanical Engineering (2004).In Chinese