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Online since: September 2011
Authors: Jing Long Bu, Zhi Fa Wang, Li Xue Yu, Heng Yong Wei, Shu Bin Shen, Shu Long Liu
Experimental
Raw Materials.
Zhou: Rare Metal Materials and Engineering.
Zhou: Materials Science and Technology.
Huang: Journal of Inorganic Materials.
Bu, et al: Advanced Materials Research, Vol. 97-101 (2010), p. 880-883
Zhou: Rare Metal Materials and Engineering.
Zhou: Materials Science and Technology.
Huang: Journal of Inorganic Materials.
Bu, et al: Advanced Materials Research, Vol. 97-101 (2010), p. 880-883
Online since: July 2007
Authors: Marwan K. Khraisheh, Mohammad Nazzal
It is established that some superplastic materials undergo significant cavitation during
deformation.
Roberts: Materials Science and Technology Vol. 8 (1992), p. 611
Wang: Journal of Materials Science Vol. 30 (1995), p. 2549
Journal of Solids Structures Vol. 26 (1990), p. 149
Darras: Journal of Materials Engineering and Performance Vol.13 (2004), p. 691
Roberts: Materials Science and Technology Vol. 8 (1992), p. 611
Wang: Journal of Materials Science Vol. 30 (1995), p. 2549
Journal of Solids Structures Vol. 26 (1990), p. 149
Darras: Journal of Materials Engineering and Performance Vol.13 (2004), p. 691
Online since: April 2012
Authors: Kali Pada Maity, Akshaya Kumar Rout, Santosh Kumar Sahoo
[3] Kim, H., Sweeney, K. and Altan, T. (1994), Application of computer aided simulation to investigate metal flow in selected forging operations, journal of Materials Processing Technology.
-Soo, Min-Kim, B. and Choi, J.C. (1994), Perform design in extrusion by the FEM and its experimental confirmation, journal of Materials Processing Technology, Vol. 41 (2), pp. 237-248
S.(1992), Finite –element analysis of Copper extrusion process, journal of Materials Processing Technology, Vol. 34 (1-4), pp. 101-108
N., Dixit P.M. and Lal, G.K. (1995), Die design for axisymmetric extrusion, journal of Materials Processing Technology, Vol. 55 (3-4), pp. 331-339
Sethuraman, R. and Lal, G.K., (1996), Upper-bound and FE analysis of axisymmetric hot extrusion, journal of Materials Processing Technology, Vol. 57 (1-2), pp.14-22
-Soo, Min-Kim, B. and Choi, J.C. (1994), Perform design in extrusion by the FEM and its experimental confirmation, journal of Materials Processing Technology, Vol. 41 (2), pp. 237-248
S.(1992), Finite –element analysis of Copper extrusion process, journal of Materials Processing Technology, Vol. 34 (1-4), pp. 101-108
N., Dixit P.M. and Lal, G.K. (1995), Die design for axisymmetric extrusion, journal of Materials Processing Technology, Vol. 55 (3-4), pp. 331-339
Sethuraman, R. and Lal, G.K., (1996), Upper-bound and FE analysis of axisymmetric hot extrusion, journal of Materials Processing Technology, Vol. 57 (1-2), pp.14-22
Online since: May 2014
Authors: Quan An Li, Xiao Jie Song, Wen Chuang Liu
Materials Science and Engineering, A. 302(2001) 47-52
Materials Science and Engineering, B. 127(2006) 105-107
Journal of Materials Science. 29(1994) 525-527
Advanced Materials Research..352(2011) 239-242
Journal of Materials Research. 28(2013) 1386-1393
Materials Science and Engineering, B. 127(2006) 105-107
Journal of Materials Science. 29(1994) 525-527
Advanced Materials Research..352(2011) 239-242
Journal of Materials Research. 28(2013) 1386-1393
Online since: July 2023
Authors: Salman Hussein Omran, Abdullah Dhayea Assi, Zahraa Thamer Abdulwahid
Wang, Microstructure evolution and mechanical property of Cu-15Ni-8Sn-0.2Nb alloy during aging treatment, Journal of Materials Science & Technology 86 (2021) 227-236
Series: Materials Science and Engineering 765 (2020) 012052 [19] R M.
Dong, Compositional interpretation of high elasticity Cu–Ni–Sn alloys using cluster-plus glue-atom model, Journal of Materials Research and Technology 17 (2022) 1246-1258
Series: Materials Science and Engineering 881 (2020) 012081
Series: Materials Science and Engineering 207 (2017) 012023 doi:10.1088/1757-899X/207/1/012023
Series: Materials Science and Engineering 765 (2020) 012052 [19] R M.
Dong, Compositional interpretation of high elasticity Cu–Ni–Sn alloys using cluster-plus glue-atom model, Journal of Materials Research and Technology 17 (2022) 1246-1258
Series: Materials Science and Engineering 881 (2020) 012081
Series: Materials Science and Engineering 207 (2017) 012023 doi:10.1088/1757-899X/207/1/012023
Online since: October 2014
Authors: Alaattin Kaçal
Jain, “Experimental investigations of cutting parameters influence on cutting forces and surface roughness in finish hard turning of MDN250 steel”, Journal of Materials Processing Technology, 206 (2008), p.167-179
Samuel, “Machinability investigations on hardened AISI 4340 steel using coated carbide insert”, International Journal of Refractory Metals & Hard Materials, 33 (2012), p.75-86
Durejac, J., “Effect of tool geometry variation on finish turning – A Review”, Journal of Engineering Science and Technology Review, 4 (2011), p.1-13
Davim, “Machinability investigations in hard turning of AISI D2 cold work tool steel with conventional and wiper ceramic inserts”, International Journal of Refractory Metals & Hard Materials, 27 (2009), p.754-763
Boulanouar, “High speed turning for hard material with PCBN inserts: tool wear analysis”, İnternational Journal of Machining and Machinability of Materials, 3 (2008), p.62-79
Samuel, “Machinability investigations on hardened AISI 4340 steel using coated carbide insert”, International Journal of Refractory Metals & Hard Materials, 33 (2012), p.75-86
Durejac, J., “Effect of tool geometry variation on finish turning – A Review”, Journal of Engineering Science and Technology Review, 4 (2011), p.1-13
Davim, “Machinability investigations in hard turning of AISI D2 cold work tool steel with conventional and wiper ceramic inserts”, International Journal of Refractory Metals & Hard Materials, 27 (2009), p.754-763
Boulanouar, “High speed turning for hard material with PCBN inserts: tool wear analysis”, İnternational Journal of Machining and Machinability of Materials, 3 (2008), p.62-79
Online since: December 2012
Authors: Wang Long Wang, Xiao Ling Yan, Shi Yun Dong, Bin Shi Xu
Acknowledgement
The financial support of National Natural Science Foundation (50975287) and Foundation for Young Teachers of Beijing Technology and Business University are gratefully acknowledged.
References [1] YKHLEF F, AREZKI M: submitted to Journal of IEEE ICIT, 2004, 1422-1425
[2] SHANKER K, ROSE M: submitted to Journal of Ulrasonics,1988,26(7):204 208
[3] Guido Buresti, Giovanni Lombardi, Jacopo Bellazzini: submitted to Journal of Chaos, Solitons and Fractals, 2004, 20:149-158
[4] Junge M, Jianmin Q, Jacobs L J:submitted to Journal of Ultrasonics, 2006(44): 233-237
References [1] YKHLEF F, AREZKI M: submitted to Journal of IEEE ICIT, 2004, 1422-1425
[2] SHANKER K, ROSE M: submitted to Journal of Ulrasonics,1988,26(7):204 208
[3] Guido Buresti, Giovanni Lombardi, Jacopo Bellazzini: submitted to Journal of Chaos, Solitons and Fractals, 2004, 20:149-158
[4] Junge M, Jianmin Q, Jacobs L J:submitted to Journal of Ultrasonics, 2006(44): 233-237
Online since: April 2011
Authors: Izabel Fernanda Machado, Patrícia Alves Barbosa
Guo: Journal of Materials Processing Technology Vol.142 (2003), p.72
[3] S.
Guo: International Journal of Mechanical Sciences Vol.49 (2007), p.909 [4] N.
Horstemeyer: International Journal of Mechanical Sciences Vol.47 (2005), p.1423 [6] D.
Chan: Journal of Materials Processing Technology Vol.129 (2002), p. 101 [13] J.
Gray III: Materials Science and Engineering A Vol.410-411 (2005), p. 252 [15] L.
Guo: International Journal of Mechanical Sciences Vol.49 (2007), p.909 [4] N.
Horstemeyer: International Journal of Mechanical Sciences Vol.47 (2005), p.1423 [6] D.
Chan: Journal of Materials Processing Technology Vol.129 (2002), p. 101 [13] J.
Gray III: Materials Science and Engineering A Vol.410-411 (2005), p. 252 [15] L.
Online since: September 2013
Authors: Stanislav Seitl, Václav Veselý, Veerle Boel, Wouter de Corte, Sara Korte, Jakub Sobek
Seitl: Key Engineering Materials Vols. 525-526 (2012), p. 209
[3] V.
Seitl: Key Engineering Materials Vols. 488-489 (2012), p. 399 [4] L.
Seitl: Key Engineering Materials Vols. 488-489 (2012), p. 533 [5] M.L.
Williams: Journal of Applied Mechanics 24 (1957) p. 109 [6] S.
Radon: International Journal of Fracture, 19, (1983), p. 311 [8] Z.
Seitl: Key Engineering Materials Vols. 488-489 (2012), p. 399 [4] L.
Seitl: Key Engineering Materials Vols. 488-489 (2012), p. 533 [5] M.L.
Williams: Journal of Applied Mechanics 24 (1957) p. 109 [6] S.
Radon: International Journal of Fracture, 19, (1983), p. 311 [8] Z.
Online since: May 2020
Authors: Vladimir E. Zhivulin, D.S. Klygach, M.G. Vakhitov
Introduction
Currently, the urgent task of materials science is the creation of new materials.
Magnetic and dielectric properties of pure and doped barium hexaferrite nanoparticles at microwave frequencies Physica Status Solidi (A) Applications and Materials Science, 206(2) (2009) 270-275
Hashimoto, Measurement method of complex permittivity and permeability for a powdered material using a waveguide in microwave band, Science and Technology of Advanced Materials, 7 (2006) 77–83
Magneto absorption measurements of nano-size-εAlxFe 2-xO3 powder materials at millimeter wavelengths, Journal of Applied Physics, 109(7) (2011) 07E316
Journal of Magnetism and Magnetic Materials, 465 (2018) 290-294
Magnetic and dielectric properties of pure and doped barium hexaferrite nanoparticles at microwave frequencies Physica Status Solidi (A) Applications and Materials Science, 206(2) (2009) 270-275
Hashimoto, Measurement method of complex permittivity and permeability for a powdered material using a waveguide in microwave band, Science and Technology of Advanced Materials, 7 (2006) 77–83
Magneto absorption measurements of nano-size-εAlxFe 2-xO3 powder materials at millimeter wavelengths, Journal of Applied Physics, 109(7) (2011) 07E316
Journal of Magnetism and Magnetic Materials, 465 (2018) 290-294