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Online since: January 2021
Authors: R. Raghavendran, Anil Meena, Murugaiyan Amirthalingam
Chowdhury, M Singh, Manufacturing of Engineering Components with Austempered Ductile Iron – A Review, Materials Today: Proceedings (2018),25615-25624
Meena, El Mansori, Material Characterization of Austempered Ductile Iron (ADI) Produced by a Sustainable Continuous Casting–Heat Treatment Process, Metallurgical and Materials Trans.
Aachary, Tensile properties of Austempered Ductile Iron under thermomechanical treatment, Journal of Materials Engineering and Performance (2000), vol. 9(1), pp.56-61
Palkowski, Effect of hot working parameters on microstructure evolution and mechanical properties of Ausformed Austempered Ductile Iron, Material Science Forum (2018), vol. 925, pp. 218-223
Bhadeshia, Model for the maximum fraction of retained austenite in austempered ductile cast iron, Materials Science and Engineering (2002), A333, pp. 60-66.
Meena, El Mansori, Material Characterization of Austempered Ductile Iron (ADI) Produced by a Sustainable Continuous Casting–Heat Treatment Process, Metallurgical and Materials Trans.
Aachary, Tensile properties of Austempered Ductile Iron under thermomechanical treatment, Journal of Materials Engineering and Performance (2000), vol. 9(1), pp.56-61
Palkowski, Effect of hot working parameters on microstructure evolution and mechanical properties of Ausformed Austempered Ductile Iron, Material Science Forum (2018), vol. 925, pp. 218-223
Bhadeshia, Model for the maximum fraction of retained austenite in austempered ductile cast iron, Materials Science and Engineering (2002), A333, pp. 60-66.
Online since: June 2015
Authors: Yogendra Prasad Yadava, Andrea G. de Sousa, R.A.S. Ferreira
Introduction
Materials for cutting tools followed the trend to make greater hardness and lower toughness.
Sornakumar: International Journal of Refractory Metals & Hard Materials Vol. 22 (2004), p. 17
Okumus: Materials Letters Vol. 59 (2005), p. 3214
Wang et el: Applied Surface Science Vol. 255 (2009), p. 8603
Niinisto: Applied Surface Science Vol. 174 (2001), p. 155
Sornakumar: International Journal of Refractory Metals & Hard Materials Vol. 22 (2004), p. 17
Okumus: Materials Letters Vol. 59 (2005), p. 3214
Wang et el: Applied Surface Science Vol. 255 (2009), p. 8603
Niinisto: Applied Surface Science Vol. 174 (2001), p. 155
Online since: May 2012
Authors: Zer Ran Yu, Be Jen Wang, Yao Ching Hsueh
It is non-toxic, non-flammable, non-explosive, cost-efficient, readily available, and easy to remove from the extracted materials [4].
Materials and methods Materials The dried powder of Spirulina platensis were kindly provided by Biotechnology Research Center, Far East University, Tainan, Taiwan.
Journal of Natural Products Vol. 59 (1996), p. 83-87
Food Science and Technology Today Vol. 14 (2000), p. 186-191
Journal of Food Science Vol. 58 (1993), p. 996-1000
Materials and methods Materials The dried powder of Spirulina platensis were kindly provided by Biotechnology Research Center, Far East University, Tainan, Taiwan.
Journal of Natural Products Vol. 59 (1996), p. 83-87
Food Science and Technology Today Vol. 14 (2000), p. 186-191
Journal of Food Science Vol. 58 (1993), p. 996-1000
Online since: March 2004
Authors: H.L. Yang, M.S. Liu, J. Shi, B.W. Ru
The experiment materials are Al2O3 ceramic round bar stocks and the cutting tool
is a glomerocryst diamond tool lathe.
During the course of producing ceramics, cavitation or blowholes remain inevitably, and if ceramic materials and processing techniques are different, the remaining structural defects will be different, too.
The results indicate that if ceramic materials are different, process 426 Advances in Grinding and Abrasive Processes surface quality will be different.
Journal Title and Volume Number (to be inserted by the publisher) 429 3.
Zhang: Mechanical Property of Ceramic Material (Science Press, China 1992)
During the course of producing ceramics, cavitation or blowholes remain inevitably, and if ceramic materials and processing techniques are different, the remaining structural defects will be different, too.
The results indicate that if ceramic materials are different, process 426 Advances in Grinding and Abrasive Processes surface quality will be different.
Journal Title and Volume Number (to be inserted by the publisher) 429 3.
Zhang: Mechanical Property of Ceramic Material (Science Press, China 1992)
Online since: October 2007
Authors: Vanessa K. Peterson, Yun Liu, Craig M. Brown, Cameron J. Kepert
Kepert5, d
1
Bragg Institute, Australian Nuclear Science and Technology Organisation, Lucas Heights,
Australia
2
NIST Center for Neutron Research, Gaithersburg, MD., U.S.A
3
Department of Materials Science and Engineering, University of Maryland, College Park, MD,
U.S.A.
4
Indiana University Cyclotron Facility, Bloomington, IN., U.S.A.
5
School of Chemistry, The University of Sydney, N.S.W., Australia.
The study of the structural characteristics of these materials upon dihydrogen sorption allows the delineation of the features that maximize hydrogen loading.
Kepert: Journal of Alloys and Compounds, In Press (2007)
Toby: Journal of Applied Crystallography, 34, 210-213 (2001)
Williams: Science 283, 1148- 1150 (1999).
The study of the structural characteristics of these materials upon dihydrogen sorption allows the delineation of the features that maximize hydrogen loading.
Kepert: Journal of Alloys and Compounds, In Press (2007)
Toby: Journal of Applied Crystallography, 34, 210-213 (2001)
Williams: Science 283, 1148- 1150 (1999).
Online since: August 2016
Authors: Jan Philipp Prote, Andreas Gützlaff, Melanie Luckert, Christina Reuter
Deficiencies of existing approaches
Production segmentation has been widely discussed in the science community for about three decades [7].
Young, Simulation in manufacturing and business: A review, European Journal of Operational Research 203 (2010) 1-13
Yasuda, Formation of manufacturing cells based on material flows, International Journal of Advances Manufacturing Technology 27 (2005) 159-165
Bagheri, Facility layout for cellular manufacturing system unter dynamic conditions, Decision Science Letters5 (2016), 407-416
Chattopadhyay, Genetic rule based techniques in cellular manufacturing (1992-2010): a systematic survey, International Journal of Engineering, Science and Technologie, Vol.2, No. 5 (2010) 198-215
Young, Simulation in manufacturing and business: A review, European Journal of Operational Research 203 (2010) 1-13
Yasuda, Formation of manufacturing cells based on material flows, International Journal of Advances Manufacturing Technology 27 (2005) 159-165
Bagheri, Facility layout for cellular manufacturing system unter dynamic conditions, Decision Science Letters5 (2016), 407-416
Chattopadhyay, Genetic rule based techniques in cellular manufacturing (1992-2010): a systematic survey, International Journal of Engineering, Science and Technologie, Vol.2, No. 5 (2010) 198-215
Online since: May 2017
Authors: Salvo Coffa, Simona Lorenti, Nicolo Piluso, Ruggero Anzalone, Marco Salanitri, Giuseppe Arena
Journal Of Crystal Growth (1996) 167, 391
[4] V.
Greve: Journal Of Electron Materials (1998) 27, 308
Starke, Material Science Forum (2005) 483-485 761-764 [6] C.
Coffa Material Science Forum (2015) 858, pp 197-200
Journal of Applied Physics. (2013) 52, 10
Greve: Journal Of Electron Materials (1998) 27, 308
Starke, Material Science Forum (2005) 483-485 761-764 [6] C.
Coffa Material Science Forum (2015) 858, pp 197-200
Journal of Applied Physics. (2013) 52, 10
Online since: August 2012
Authors: Renan Schroeder, Antônio I. Ramos Filho, Cristiano Binder, Aloisio N. Klein
The successful manufacturing of two material parts by powder metallurgy depends on some variables related to materials and processing.
The results of two material parts were very successful in terms of resistance, if compared with single materials.
Allibert: Journal of Materials Processing Technology Vol. 209 (2009), p. 1254
Firouzdor: Materials Science and Engineering A Vol. 472 (2008), p. 338
German: Journal of Material Science Vol. 38 (2003), p. 4869
The results of two material parts were very successful in terms of resistance, if compared with single materials.
Allibert: Journal of Materials Processing Technology Vol. 209 (2009), p. 1254
Firouzdor: Materials Science and Engineering A Vol. 472 (2008), p. 338
German: Journal of Material Science Vol. 38 (2003), p. 4869
Online since: October 2023
Authors: Endang Susilowati, Elisabeth Nugrahini, Sulistyo Saputro, Wirawan Ciptonugroho, Lina Mahardiani
One of the raw materials used for making carbon that has the potential to be used is sugar palm fiber because it is rich in cellulose.
Methodology Materials The materials used in this study include palm fiber (Arenga Pinnata) coming from Tulung village, Klaten, Central Java, Indonesia, Fe(NO3)3.9H2O (Merck), 96% H2SO4 (Merck), methylene blue dye (MW 319.85 g/mol, PT.
Journal of Materials Research and Technology, 8(3), 2753–2766
Microporous and Mesoporous Materials. 272; 101–108. doi: 10.1016/j.micromeso.2018.06.023 [28] Oladoye, P.
Diamond & Related Materials, 135; 109834. doi: 10.1016/j.diamond.2023.109834 [33] Chen, B., Long, F., Chen, S. et al. (2020).
Methodology Materials The materials used in this study include palm fiber (Arenga Pinnata) coming from Tulung village, Klaten, Central Java, Indonesia, Fe(NO3)3.9H2O (Merck), 96% H2SO4 (Merck), methylene blue dye (MW 319.85 g/mol, PT.
Journal of Materials Research and Technology, 8(3), 2753–2766
Microporous and Mesoporous Materials. 272; 101–108. doi: 10.1016/j.micromeso.2018.06.023 [28] Oladoye, P.
Diamond & Related Materials, 135; 109834. doi: 10.1016/j.diamond.2023.109834 [33] Chen, B., Long, F., Chen, S. et al. (2020).
Online since: February 2019
Authors: Sergey N. Lezhnev, Andrey O. Tolkushkin, Abdrakhman B. Naizabekov
Vilotic, Upsetting of bi-metallic ring billets, Journal of Materials Processing Technology, 212 (2012) 817-824
Talebanpour, A novel single pass severe plastic deformation technique: Vortex extrusion, Materials Science and Engineering, A 530 (2011) 469-472
Kim, Finite element analysis of plastic deformation in twist extrusion, Computational Materials Science, 60 (2012) 194-200
Luca, A new severe plastic deformation method by repetitive extrusion and upsetting, Materials Science and Engineering, A 595 (2014) 135-142
[21] A.P Gulyaev, Materials science, Metallurgy, Moscow, 1978.
Talebanpour, A novel single pass severe plastic deformation technique: Vortex extrusion, Materials Science and Engineering, A 530 (2011) 469-472
Kim, Finite element analysis of plastic deformation in twist extrusion, Computational Materials Science, 60 (2012) 194-200
Luca, A new severe plastic deformation method by repetitive extrusion and upsetting, Materials Science and Engineering, A 595 (2014) 135-142
[21] A.P Gulyaev, Materials science, Metallurgy, Moscow, 1978.