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Online since: October 2013
Authors: P.P. Li, R.J. Zhang, G.Y. Jiao
In the present calculation, same material models and parameters as in [6] are used.
The balloon is modeled by a hyperelastic rubber type material presented by the Mooney-Rivlin model.
Cochelin, Mechanical behavior modelling of balloon-expandable stents, Journal of Biomechanics, 33 (2000) 1461-1470 [3] W.
Wang, An FEA method to study flexibility of expanded coronary stents, Journal of Materials Processing Technology, 184 (2007) 447–450, [4] Min Qi , Dongke Liang , Dazhi Yang, Qingbao Zhang, Weiqiang Wang, Finite element analysis on the crimped mechanical behavior of coronary stents, , , Beijing Biomedical Engineering, 25(4) ( 2006) 366-370 [5] Xiang Shen, Zhonghua Ni, Expansion behavior of biodegradable magnesium-alloy stent, JOURNAL O F SOU THEAST UN IV ERS ITY (Natural Science Edition),38(1),49-53,2008 [6] S.N.
Hashmi, Finite element simulation of slotted tube (stent) with the presence of plaque and artery by balloon expansion, Journal of Materials Processing Technology 155–156 (2004) 1772–1779 [7] Stent modeling using immersed finite element method, Michael Gay, Lucy Zhang, Wing Kam Liu, Computer Methods in Applied Mechanics and Engineering,195 (2006) 4358-4370 [8] Zihui Xia, Yunfa Zhang, Fernand Ellyin, A unified periodical boundary conditions for representative volume elements of composites and applications, International Journal of Solids and Structures 40 (2003) 1907–1921 [9] Zihui Xia, Feng Ju, Katsuhiko Sasaki, A general finite element analysis method for balloon expandable stents based on repeated unit cell (RUC) model, Finite Elements in Analysis and Design 43 (2007) 649 – 658 [10] Feng Jua, Zihui Xia and Chuwei Zhoub, Repeated unit cell (RUC) approach for pure bending analysis of coronary stents,Computer Methods in Biomechanics and Biomedical Engineering, 00( 0) (2008) 1–13 [11]
The balloon is modeled by a hyperelastic rubber type material presented by the Mooney-Rivlin model.
Cochelin, Mechanical behavior modelling of balloon-expandable stents, Journal of Biomechanics, 33 (2000) 1461-1470 [3] W.
Wang, An FEA method to study flexibility of expanded coronary stents, Journal of Materials Processing Technology, 184 (2007) 447–450, [4] Min Qi , Dongke Liang , Dazhi Yang, Qingbao Zhang, Weiqiang Wang, Finite element analysis on the crimped mechanical behavior of coronary stents, , , Beijing Biomedical Engineering, 25(4) ( 2006) 366-370 [5] Xiang Shen, Zhonghua Ni, Expansion behavior of biodegradable magnesium-alloy stent, JOURNAL O F SOU THEAST UN IV ERS ITY (Natural Science Edition),38(1),49-53,2008 [6] S.N.
Hashmi, Finite element simulation of slotted tube (stent) with the presence of plaque and artery by balloon expansion, Journal of Materials Processing Technology 155–156 (2004) 1772–1779 [7] Stent modeling using immersed finite element method, Michael Gay, Lucy Zhang, Wing Kam Liu, Computer Methods in Applied Mechanics and Engineering,195 (2006) 4358-4370 [8] Zihui Xia, Yunfa Zhang, Fernand Ellyin, A unified periodical boundary conditions for representative volume elements of composites and applications, International Journal of Solids and Structures 40 (2003) 1907–1921 [9] Zihui Xia, Feng Ju, Katsuhiko Sasaki, A general finite element analysis method for balloon expandable stents based on repeated unit cell (RUC) model, Finite Elements in Analysis and Design 43 (2007) 649 – 658 [10] Feng Jua, Zihui Xia and Chuwei Zhoub, Repeated unit cell (RUC) approach for pure bending analysis of coronary stents,Computer Methods in Biomechanics and Biomedical Engineering, 00( 0) (2008) 1–13 [11]
Online since: November 2015
Authors: R. Sathiya Moorthy, A. Mohamed Siddhique
Material properties
S.
[3] Shahir Rasheed RP and Sathiya Moorthy R, Analysis of Hybrid Magnetic Bearing for High Speed Spindle, International Journal of Applied Sciences and Engineering Research. 2 (2013) 54-63
[4] Nirmalkumar R, Sreedhar B K, Vijay Sharma, Padmakumar G and Rajan K K, Modelling & Simulation of Magnetic Fields in the Radial Magnetic Bearing, International Journal of Surface Engineering & Materials Technology. 2 (2012) 2249-7250
[5] Lenka Visweswara Rao, Kakoty S K, Design of compact active magnetic bearing, International Journal of Applied Sciences and Engineering Research. 3 (2014) 741-754
[7] Ludvig T, Kcczmann M, Design of Active magnetic bearing, journal of optoelectronics and advanced materials. 10 (2008) 1834 -1836.
[3] Shahir Rasheed RP and Sathiya Moorthy R, Analysis of Hybrid Magnetic Bearing for High Speed Spindle, International Journal of Applied Sciences and Engineering Research. 2 (2013) 54-63
[4] Nirmalkumar R, Sreedhar B K, Vijay Sharma, Padmakumar G and Rajan K K, Modelling & Simulation of Magnetic Fields in the Radial Magnetic Bearing, International Journal of Surface Engineering & Materials Technology. 2 (2012) 2249-7250
[5] Lenka Visweswara Rao, Kakoty S K, Design of compact active magnetic bearing, International Journal of Applied Sciences and Engineering Research. 3 (2014) 741-754
[7] Ludvig T, Kcczmann M, Design of Active magnetic bearing, journal of optoelectronics and advanced materials. 10 (2008) 1834 -1836.
Online since: January 2011
Authors: Chao Ling Li, Ming Xi Zhang, Yi Shen, Feng Feng Li
Materials Review, 2003, 17(5):39-41.
Progress in Materials Science, 2005, 50(3):293-310
Materials Letters, 2009, 63(27), 2321-2323
Journal of Materials Science and Technology, 2010,26(7): 601-604
Journal of Colloid and Interface Science, 2007,313(2) Pages 705-710
Progress in Materials Science, 2005, 50(3):293-310
Materials Letters, 2009, 63(27), 2321-2323
Journal of Materials Science and Technology, 2010,26(7): 601-604
Journal of Colloid and Interface Science, 2007,313(2) Pages 705-710
Online since: December 2010
Authors: Hao Liu, Ya Fang Zhang, Jiang Ping Chen
Altun, et al: Materials and Structures, Vol. 39 (2006), pp. 491–499
[2] D, Suiji, et al: Journal of Zhejiang University Science A, Vol. 8 (2007), pp. 1101-1109
Chen: Journal of Shenzhen University (Science), Vol. 27 (2010), pp.103-108
Shi: Construction and Building Materials, Vol. 23 (2009), pp.3468-3474
Gupta: Materials and Structures, Vol. 37 (2004), pp.707-716
[2] D, Suiji, et al: Journal of Zhejiang University Science A, Vol. 8 (2007), pp. 1101-1109
Chen: Journal of Shenzhen University (Science), Vol. 27 (2010), pp.103-108
Shi: Construction and Building Materials, Vol. 23 (2009), pp.3468-3474
Gupta: Materials and Structures, Vol. 37 (2004), pp.707-716
Online since: January 2012
Authors: Zhi Ping Sun, Guo Jun Zhang, Li Yan Zou
Experimental procedure
Experiment used TiFe (w(Ti)=30%), FeNCr(w(N)=5%, w(Cr)=60%) and toner as raw materials, and mixed the raw materials within the ratio of 190.5:100:10, the mixed powders were prepared with the processing of 6 to 1 ball to powder weight ratio and wet mixing 4h with absolute alcohol as medium in YXQM-1L planetary ball mill.
Analysis and discussion Essentially the sintering process of composite materials is an energy and material transfer process, composite materials system will get to a steady equilibrium state as the sintering process go on,on the premise of the same dwelling time, sintering temperature decide whether the sintering is fully.
(2) The composite materials have low shrinkage rate, hardness, bending strength,and fracture toughness when the temperature is less than 1150℃, and when temperature is greater than 1150℃, materials have obvious shrinks, the fracture toughness and bending strength rise according to the trend of fast followed by slow with 1200℃ for turning point
[5] Hu Haiyong: China Nuclear Science and Technology Report Vol.S2(1995), p. 01-12, in Chinese
[6] Wu Jinming, Zheng Shilie, Li Zhizhang: Materials Review Vol.5(1999), p. 52-54, in Chinese
Analysis and discussion Essentially the sintering process of composite materials is an energy and material transfer process, composite materials system will get to a steady equilibrium state as the sintering process go on,on the premise of the same dwelling time, sintering temperature decide whether the sintering is fully.
(2) The composite materials have low shrinkage rate, hardness, bending strength,and fracture toughness when the temperature is less than 1150℃, and when temperature is greater than 1150℃, materials have obvious shrinks, the fracture toughness and bending strength rise according to the trend of fast followed by slow with 1200℃ for turning point
[5] Hu Haiyong: China Nuclear Science and Technology Report Vol.S2(1995), p. 01-12, in Chinese
[6] Wu Jinming, Zheng Shilie, Li Zhizhang: Materials Review Vol.5(1999), p. 52-54, in Chinese
Online since: January 2019
Authors: Jie Tao, Ming Zhi Wang, Liang Sheng Qiu, Liang Hu Cheng, Xiang Liu, Jian Shao, Xin Cao, Tao Sha Song, Han Tao Kou
Experimental
Materials.
Chemical composition of materials used (wt.%).
Morsi: Materials Science and Engineering: A Vol. 299(2001), p. 1
Dreizin: Journal of Materials Science Vol. 53(2018), p.1178
Wang, , et al.: Materials and Design Vol. 116 (2017), p. 591
Chemical composition of materials used (wt.%).
Morsi: Materials Science and Engineering: A Vol. 299(2001), p. 1
Dreizin: Journal of Materials Science Vol. 53(2018), p.1178
Wang, , et al.: Materials and Design Vol. 116 (2017), p. 591
Online since: April 2016
Authors: Nirmal Kumar Mandal, Tanmoy Roy
On the other hand, development of advanced cutting tool materials, coatings and designs, along with a variety of strategies for lubrication make it possible to achieve better surface quality with dry or Minimum Quantity Lubrication (MQL) machining compared to wet machining.
Experimental results show that the cutting temperature and surface roughness of the work materials are co related and and depends on input parameters as shown in Fig. 7 and Fig. 9.
Hameedullah, The Measurement of chip-tool interference Temperature in the Turning steel, International Journal of Computer Communication and Information System-Vol2.No1., ISSN:0976-1349, 2010 [2] Uzorh Augustine .C, and Nwufo Olisaemeka .C, Thermal Aspect of Machining: Evaluationof Tool and Chip Temperature during Machining Process Using Numerical Method, The International Journal of Engineering and Science (IJES), Volume2, P 66-79, 2013 [3] M.
[4] M.Ramesh, R.P.Elvin, K.Palanikumar and K.Hemachandra Reddy, Surface Roughness Optimization of Machining Parameters In Machining of Composite Materials, International Journal of Applied Research in Mechanical Engineering, Vol.1, pp. 26-32, 2011
[7] Noordin M.Y, Venkatesh V.C, Sharif S., Elting S, Abdullah A., Application of response surface methodology in describing the performance of coated carbide tools when turning AISI 1045 steel, Journal of Materials Processing Technology, 145: 46-58, 2004
Experimental results show that the cutting temperature and surface roughness of the work materials are co related and and depends on input parameters as shown in Fig. 7 and Fig. 9.
Hameedullah, The Measurement of chip-tool interference Temperature in the Turning steel, International Journal of Computer Communication and Information System-Vol2.No1., ISSN:0976-1349, 2010 [2] Uzorh Augustine .C, and Nwufo Olisaemeka .C, Thermal Aspect of Machining: Evaluationof Tool and Chip Temperature during Machining Process Using Numerical Method, The International Journal of Engineering and Science (IJES), Volume2, P 66-79, 2013 [3] M.
[4] M.Ramesh, R.P.Elvin, K.Palanikumar and K.Hemachandra Reddy, Surface Roughness Optimization of Machining Parameters In Machining of Composite Materials, International Journal of Applied Research in Mechanical Engineering, Vol.1, pp. 26-32, 2011
[7] Noordin M.Y, Venkatesh V.C, Sharif S., Elting S, Abdullah A., Application of response surface methodology in describing the performance of coated carbide tools when turning AISI 1045 steel, Journal of Materials Processing Technology, 145: 46-58, 2004
Online since: April 2014
Authors: Xiao Ming Yuan, Yong Zhi Wang
As soil is a type of complicated materials with mechanical properties closely tying with the stress condition it suffered, centrifugal shaker shows great superiority to the research of soil dynamics and geotechnical earthquake engineering.
Charles WW NG, Hong Kong University of Science and Technology, and Prof.
[2] Jianqun JIANG, Huafei ZHOU, Tuqiao ZHANG: China Journal of Highway and Transport.
Vol.32-3(2010), p.368 (in Chinese ) [4] Min Zhang and Charles WW NG: Chinese Journal of Rock Mechanics and Engineering.
NIST (1998) [7] M.W.Gui, D.S.Jeng: Open Civil Engineering Journal.
Charles WW NG, Hong Kong University of Science and Technology, and Prof.
[2] Jianqun JIANG, Huafei ZHOU, Tuqiao ZHANG: China Journal of Highway and Transport.
Vol.32-3(2010), p.368 (in Chinese ) [4] Min Zhang and Charles WW NG: Chinese Journal of Rock Mechanics and Engineering.
NIST (1998) [7] M.W.Gui, D.S.Jeng: Open Civil Engineering Journal.
Online since: March 2017
Authors: Azrul Azlan Hamzah, Mohd Ambri Mohamed, Burhanuddin Yeop Majlis, Haslinawati Mohd Mustapha
This material has amazing properties.
The material was chosen as graphite sheet from the material library with the respective values of Poisson’s ratio, Young modulus, bulk modulus and so on.
Status and Prospects, Science, 324 (5934), (2009), p. 1530-1534
[5] Changgu Lee, Xiaoding Wei, Jeffrey W Kysar, James Hone: Measurement of the ElasticProperties and Intrinsic Strength of Monolayer Graphene, Science, 321 (5887), (2008), p. 385-388
Majlis: Design consideration of membrane structure for thermal actuated micropump, Advanced Materials Research Vol 254, (2011), p. 42-45
The material was chosen as graphite sheet from the material library with the respective values of Poisson’s ratio, Young modulus, bulk modulus and so on.
Status and Prospects, Science, 324 (5934), (2009), p. 1530-1534
[5] Changgu Lee, Xiaoding Wei, Jeffrey W Kysar, James Hone: Measurement of the ElasticProperties and Intrinsic Strength of Monolayer Graphene, Science, 321 (5887), (2008), p. 385-388
Majlis: Design consideration of membrane structure for thermal actuated micropump, Advanced Materials Research Vol 254, (2011), p. 42-45
Online since: January 2014
Authors: Cui Ping Mao, Shu Bin Wu
Materials
Alkali lignin (AL) was prepared from black liquor, taken from the Guigang your Sugar Co., Ltd. by precipitation treatment with sulfuric acid (acid precipitation method).
Wu: Journal of SCUT (Natural Science Edition).
Earth Science-Journal of China University of Geosciences, Vol. 37 (2012), p. 621-626 [12] H.
Journal of Inorganic Materials, Vo l. 27(2012), p. 780-784 [13] H.
Journal of Colloid and Interface Science, Vol. 258 (2003), p. 40-44
Wu: Journal of SCUT (Natural Science Edition).
Earth Science-Journal of China University of Geosciences, Vol. 37 (2012), p. 621-626 [12] H.
Journal of Inorganic Materials, Vo l. 27(2012), p. 780-784 [13] H.
Journal of Colloid and Interface Science, Vol. 258 (2003), p. 40-44