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Online since: April 2019
Authors: N. Naresh Kumar, Pravin Kashyap Kambhatla, Odelu Ojjela
Naresh Kumar1,a, Pravin Kashyap Kambhatla2,b and Odelu Ojjela2,c*
1Department of Mathematics
SASTRA Deemed University, Tirumalaisamudram, Thanjavur-613401, Tamil Nadu, India
2Department of Applied Mathematics
Defence Institute of Advanced Technology (Deemed University).
Sherman Engineering Magnetohydrodynamics (McGrawhill, New York, (1965)
Asghar, MHD squeezing flow of a micropolar fluid between parallel disks, Journal of Fluids Engineering 133, (2011) 1-10
Journal of the Brazilian Society of Mechanical Sciences and Engineering 39(7), (2017) 2889-2904
[52] Jaan Kiusalaas, Numerical Methods in Engineering with MATLAB, Cambridge University Press, (2005).
Sherman Engineering Magnetohydrodynamics (McGrawhill, New York, (1965)
Asghar, MHD squeezing flow of a micropolar fluid between parallel disks, Journal of Fluids Engineering 133, (2011) 1-10
Journal of the Brazilian Society of Mechanical Sciences and Engineering 39(7), (2017) 2889-2904
[52] Jaan Kiusalaas, Numerical Methods in Engineering with MATLAB, Cambridge University Press, (2005).
Online since: May 2011
Authors: Li Li Wang, Guang Cheng Yang, Zhi Qiang Qiao, Fu De Nie, Jin Chen
Facile Fabrication of Flower-like LLM-105 Three-dimensional Microstructures
Jin Chen a, LiLi Wang b, GuangCheng Yang c, ZhiQiang Qiao d, FuDe Nie e
Institute of Chemical Materials, China Academy of Engineering Physics, Mianyang 621900, P.
X-ray powder diffraction (XRD) patterns of LLM-105 samples were obtained on a Bruker D8 Advance diffractometer using Cu Kα radiation (λ = 0.15406 nm).
Acknowledgements This work was financially supported by the Key Foundation of China Academy of Engineering Physics (Grant Nos. 2009A0302017 and 2010B03007) and a grant from the Institute of Chemical Materials, China (Grant No. 626010929).
Wu: Advanced Materials Research Vol. 148-149 (2011), p. 849 [14] CH.H.
Shao: Materials Science Forum Vol. 663-665 (2011), p. 982 [15] L.H.
X-ray powder diffraction (XRD) patterns of LLM-105 samples were obtained on a Bruker D8 Advance diffractometer using Cu Kα radiation (λ = 0.15406 nm).
Acknowledgements This work was financially supported by the Key Foundation of China Academy of Engineering Physics (Grant Nos. 2009A0302017 and 2010B03007) and a grant from the Institute of Chemical Materials, China (Grant No. 626010929).
Wu: Advanced Materials Research Vol. 148-149 (2011), p. 849 [14] CH.H.
Shao: Materials Science Forum Vol. 663-665 (2011), p. 982 [15] L.H.
Online since: August 2021
Authors: Alexander A. Solovyev, Vladislav V. Rybin
Langouche, Defects and Impurities in Silicon Materials: An Introduction to Atomic-Level Silicon Engineering, Springer Japan, Tokyo, 2015
Krylyuk, Mechanism of generation of defects in a semiconductor by pulse laser radiation, Materials Science Forum. 384-385 (2002) 291-296
Meyendorf (Eds), Handbook of Advanced Non-destructive Evaluation, Springer Nature Switzerland AG, Cham, 2019, pp. 171-234
Voelskow et al., Advanced thermal processing of semiconductor materials by flash lamp annealing, MRS Proceedings. 810 (2004) 202-207
Krylyuk, Mechanism of generation of defects in a semiconductor by pulse laser radiation, Materials Science Forum. 384-385 (2002) 291-296
Meyendorf (Eds), Handbook of Advanced Non-destructive Evaluation, Springer Nature Switzerland AG, Cham, 2019, pp. 171-234
Voelskow et al., Advanced thermal processing of semiconductor materials by flash lamp annealing, MRS Proceedings. 810 (2004) 202-207
Online since: November 2011
Authors: Yue Ming Li, Zhu Mei Wang, Zong Yang Shen, Yan Hong, Run Run Li
Effect of Low-Temperature Frit on the Sintering Behavior and Properties of 0.95K0.49Na0.51NbO3-0.05LiSbO3 Lead-Free Piezoceramics
Zhu-Mei Wang, Yue-Ming Lia, Run-Run Li, Zong-Yang Shen, Yan Hong
School of Materials Science and Engineering, Jiangxi Key Laboratory of Advanced Ceramic Materials, Jingdezhen Ceramic Institute, Jingdezhen 333403, China
a lym6329@yahoo.com.cn
Keywords: KNN; low-temperature frit; Lead-free; Piezoelectric ceramics
Abstract.
The crystal structures of sintered ceramics were determined by x-ray diffraction (XRD) technique (D8-Advanced, Bruker, Germany) using CuKα1 radiation (λ = 1.5406).
Forum Vols. 663-665 (2011), p. 1310
The crystal structures of sintered ceramics were determined by x-ray diffraction (XRD) technique (D8-Advanced, Bruker, Germany) using CuKα1 radiation (λ = 1.5406).
Forum Vols. 663-665 (2011), p. 1310
Online since: February 2016
Authors: Sergey P. Zhuravkov, Galina L. Lobanova, Olga S. Lutoshkina, Yekaterina P. Khristunova, J.I. Kornev
Proceedings 7th International Forum on Strategic Technology, IFOST 2012. 1 (2012) 188-191
Advanced Materials Research. 872 (2014) 74–78
[11] Sergey Zhuravkov, Alexey Pustovalov, Galina Lobanova, Olga Kvashnina, Nikolay Yavorovsky, Production of aluminium oxyhydroxides by various methods, 2014, International Conference on Mechanical Engineering, Automation and Control Systems (MEACS) 978-1-4799-6221-1/14/$31.00 ©2014 IEEE
Advanced Materials Research. 1040 (2014) 65-69
Advanced Materials Research. 872 (2014) 74–78
[11] Sergey Zhuravkov, Alexey Pustovalov, Galina Lobanova, Olga Kvashnina, Nikolay Yavorovsky, Production of aluminium oxyhydroxides by various methods, 2014, International Conference on Mechanical Engineering, Automation and Control Systems (MEACS) 978-1-4799-6221-1/14/$31.00 ©2014 IEEE
Advanced Materials Research. 1040 (2014) 65-69
Online since: August 2013
Authors: Huiping Tang, Shi Feng Liu, Xiao Chen Ge, Xin Yang
Porous fiber metals are a kind of metallic materials which have a through-pore structure by forming and sintering.They have the advantages of light weight,high surface area and high specific strength.They are widely used in engineering field.This paper described the progress and application of porous fiber metals.And analysed the progresses of titanium fiber porous materials, nickel fiber porous materials,FeCrAl fibrous porous materials, copper fiber porous materials and stainless steel fiber porous materials, and prospected their further development.
References [1] Zhengping Xi, Huiping Tang: The sintered metal porous material (2009) [2] Bram M, Laptev A,Buchkremer H P: Materials Forum.Vol.29 (2005),p. 119 [3] Guofa Mi, Hongyu Li, Xiangyu Li: Materials for Mechanical Engineering.Vol.31(2007), p.13 [4] Tianjian Lu, Deping He, Changqing Chen: Advances In Mechanics.Vol.36(2006), p.517 [5] Chunming Zou, Erlin Zhang, Songyan Zeng.Porous Titanium by Fiber Sintering and Its Biomimetic Ca-P Coating (2007) [6] P.
[9] Zhengping Xi, Jian Zhang:Rare Metal Materials and Engineering.Vol.28(1999), p.371-373 [10] Jiansheng Ge, Lixing Lu, Yazhen Wang:Battery Bimonthly.Vol.26(1996), p. 216-217 [11] Jianfeng Li, Yong Lu, Mingyuan He:Micro Heat Exchanger with a Novel Sintered Ni Microfibrous Structured Wick and Its Performance.(2007) [12] Jie Tang, Xiankun Liu:Nuclear Electronics and Detection Technology.Vol.27(2007), p.1142 [13] Wei Fang, Weiwen Shu:Journal of Filtration and Separation.Vol.17 (2007), p.34-36 [14] Z.H.Wang, H.W.
Vol.A 471 (2007),p.28 [16] Zuomin Wang,Wuzhou Yu: Technical Acoustics.Vol.24 (2005), p.183-185 [17] Xiangzhang Zhong, Fangshuo Mo, Peisheng Zhu:Audio Engineering.Vol.1 (2001), p.12-17 [18] Dong Han, Junying Zhang, Ying Zhang:Light Metal Materials.Vol.12 (2007), p.67-70 [19] Ying Xu, Yufeng Ren, Chenxi Li:Study on Absorption Performance of Thin Micro-perforated Panel Penetrated with Copper Fiber (2011) [20] Wei Zhou, Yong Tang:Materials Science and Engineering.Vol.525 (2009), p.133 [21] Qingbo Ao, Jilei Zhu:Piezoelectrics and Acoustooptics.Vol.32 (2010),p.849-851 [22] Morgenthal I, Andersen O :Advanced Metallic Materials (2003) [23] Jianyong Wang, Jilei Zhu, Jichao Qiao:.Powder Metallurgy Technology.Vol.27(2009),p.323 [24] Barrabés M, Sevilla P, Planell J.A:Materials Science and Engineering.Vol.28 (2008), p.23
References [1] Zhengping Xi, Huiping Tang: The sintered metal porous material (2009) [2] Bram M, Laptev A,Buchkremer H P: Materials Forum.Vol.29 (2005),p. 119 [3] Guofa Mi, Hongyu Li, Xiangyu Li: Materials for Mechanical Engineering.Vol.31(2007), p.13 [4] Tianjian Lu, Deping He, Changqing Chen: Advances In Mechanics.Vol.36(2006), p.517 [5] Chunming Zou, Erlin Zhang, Songyan Zeng.Porous Titanium by Fiber Sintering and Its Biomimetic Ca-P Coating (2007) [6] P.
[9] Zhengping Xi, Jian Zhang:Rare Metal Materials and Engineering.Vol.28(1999), p.371-373 [10] Jiansheng Ge, Lixing Lu, Yazhen Wang:Battery Bimonthly.Vol.26(1996), p. 216-217 [11] Jianfeng Li, Yong Lu, Mingyuan He:Micro Heat Exchanger with a Novel Sintered Ni Microfibrous Structured Wick and Its Performance.(2007) [12] Jie Tang, Xiankun Liu:Nuclear Electronics and Detection Technology.Vol.27(2007), p.1142 [13] Wei Fang, Weiwen Shu:Journal of Filtration and Separation.Vol.17 (2007), p.34-36 [14] Z.H.Wang, H.W.
Vol.A 471 (2007),p.28 [16] Zuomin Wang,Wuzhou Yu: Technical Acoustics.Vol.24 (2005), p.183-185 [17] Xiangzhang Zhong, Fangshuo Mo, Peisheng Zhu:Audio Engineering.Vol.1 (2001), p.12-17 [18] Dong Han, Junying Zhang, Ying Zhang:Light Metal Materials.Vol.12 (2007), p.67-70 [19] Ying Xu, Yufeng Ren, Chenxi Li:Study on Absorption Performance of Thin Micro-perforated Panel Penetrated with Copper Fiber (2011) [20] Wei Zhou, Yong Tang:Materials Science and Engineering.Vol.525 (2009), p.133 [21] Qingbo Ao, Jilei Zhu:Piezoelectrics and Acoustooptics.Vol.32 (2010),p.849-851 [22] Morgenthal I, Andersen O :Advanced Metallic Materials (2003) [23] Jianyong Wang, Jilei Zhu, Jichao Qiao:.Powder Metallurgy Technology.Vol.27(2009),p.323 [24] Barrabés M, Sevilla P, Planell J.A:Materials Science and Engineering.Vol.28 (2008), p.23
Online since: March 2013
Authors: K.H. Zhang, Wen Bing Xie, Si Wei Zhang, Biao Xu
Research on Abrasive Flow Machining for the outer rotor of cycloidal pump
Wenbing Xie 1, a, Kehua Zhang 2, b, Siwei Zhang 1, c and Biao Xu 1, d
1 XingZhi College of Zhejiang Normal University, JinHua, 321004, China
2 Precision Engineering Institute of Zhejiang Normal University, JinHua, 321004, China
a453756941@qq.com, bmature@126.com, c451384561@qq.com, d591666681@qq.com
Keywords: abrasive flow machining; outer rotor; shear force; surface roughness
Abstract.
HAN: Mechanical Engineer.
Forum Vol. 11 (2009), p. 51-52 [4] J.
Kumar: The International Journal of Advanced Manufacturing Technology. 38 (2008), p. 1157-1164 [8] A.C.
He: Journal of Drainage and Irrigation Machinery Engineering. 29 (2011), p. 255-259
HAN: Mechanical Engineer.
Forum Vol. 11 (2009), p. 51-52 [4] J.
Kumar: The International Journal of Advanced Manufacturing Technology. 38 (2008), p. 1157-1164 [8] A.C.
He: Journal of Drainage and Irrigation Machinery Engineering. 29 (2011), p. 255-259
Online since: November 2010
Authors: Yuan Ming Huang, Ye Tang Guo
Huang: Key Engineering Materials.
Huang: Key Engineering Materials.
The author should indicate on the checklist if he wishes to have them printed in full color and make the necessary payments in advance.
Forum Vol. 83-87 (1992), p. 119 [2] M.A.
Mishing, in: Diffusion Processes in Advanced Technological Materials, edtied by D.
Huang: Key Engineering Materials.
The author should indicate on the checklist if he wishes to have them printed in full color and make the necessary payments in advance.
Forum Vol. 83-87 (1992), p. 119 [2] M.A.
Mishing, in: Diffusion Processes in Advanced Technological Materials, edtied by D.
Online since: February 2017
Authors: János Lukács, Ákos Meilinger, Dóra Pósalaky
In case of different vehicles, especially their car-body, the main joining technology is welding, the conventional and advanced methods of fusion and pressure welding.
As the Fig. 2 demonstrates the positions of the notches and the crack paths represent the most important and the most typical directions (RS = retreating side, AS = advancing side).
Miller, et al., Recent development in aluminium alloys for the automotive industry, Materials Science and Engineering.
Erdogan, A critical analysis of crack propagation laws, Journal of Basic Engineering, Transactions of the ASME. (1963) 528-534
Lukács, Fatigue crack propagation limit curves for different metallic and non-metallic materials, Materials Science Forum. 414-415 (2003) 31-36
As the Fig. 2 demonstrates the positions of the notches and the crack paths represent the most important and the most typical directions (RS = retreating side, AS = advancing side).
Miller, et al., Recent development in aluminium alloys for the automotive industry, Materials Science and Engineering.
Erdogan, A critical analysis of crack propagation laws, Journal of Basic Engineering, Transactions of the ASME. (1963) 528-534
Lukács, Fatigue crack propagation limit curves for different metallic and non-metallic materials, Materials Science Forum. 414-415 (2003) 31-36
Online since: September 2017
Authors: Alexander N. Kalitaev, Vlasta D. Tutarova, Aleksey N. Shapovalov
Pan, Control Technology of Internal Quality for CC Billet, Advanced Materials Research, 415-417 (2012) 1729-1734
Liu, Peritectic-Steel Mold Fluxes, Advanced Materials Research, 567 (2012) 75-78
Wang, Researches on the Behavior of Carbon and Sulfur Segregations of 82B Billet, Advanced Materials Research, 399-401 (2012) 206-210
Yang, The Formation and Occurrence of Non-Metallic Inclusions of Si-Doped Steel during Continuous Casting, Key Engineering Materials, 479 (2011) 13-21
Danchenko et al., Defects of steel ingots and rolled products: Handbook, Moscow, Intermet Engineering, 2006.
Liu, Peritectic-Steel Mold Fluxes, Advanced Materials Research, 567 (2012) 75-78
Wang, Researches on the Behavior of Carbon and Sulfur Segregations of 82B Billet, Advanced Materials Research, 399-401 (2012) 206-210
Yang, The Formation and Occurrence of Non-Metallic Inclusions of Si-Doped Steel during Continuous Casting, Key Engineering Materials, 479 (2011) 13-21
Danchenko et al., Defects of steel ingots and rolled products: Handbook, Moscow, Intermet Engineering, 2006.