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Online since: September 2010
Authors: István Mészáros, Gábor Vértesy
Vértesy
2
1
Department of Materials Science and Engineering, Budapest University of Technology and
Economics, Goldmann ter 3, Budapest, H-1111, Hungary
2
Academy of Sciences, Research Institute for Technical Physics and Materials Science, Konkoly
Thege Miklos ut 29-33, H-1121 Budapest, Hungary
a
meszaros@eik.bme.hu, b vertesyg@mfa.kfki.hu
Keywords: Magnetic hysteresis, hyperbolic model; minor loops; magnetization curve modeling
Abstract.
Among them, there are top, medium and definitely poor quality soft magnetic materials as well.
Mészáros: Journal of Electrical Engineering, Vol. 59.
Fiorillo: Measurements and Characterization of Magnetic Materials, (Elsevier Pub.Co.) 2004
Cullity, Introduction to Magnetic Materials, (Addison-Wesley Pub.
Among them, there are top, medium and definitely poor quality soft magnetic materials as well.
Mészáros: Journal of Electrical Engineering, Vol. 59.
Fiorillo: Measurements and Characterization of Magnetic Materials, (Elsevier Pub.Co.) 2004
Cullity, Introduction to Magnetic Materials, (Addison-Wesley Pub.
Online since: August 2013
Authors: Cheng Fan
Dental ceramic materials have approximate color and translucency with natural tooth, which is unmatched by other restorative materials.
Dental ceramic materials have similar color and translucency to natural tooth, performance, stability, good biocompatibility, corrosion resistance, aging and wear and tear, etc., which is favored deeply by the doctors and patients, is the most promising new materials of the oral prosthetics.
This is the metal materials and other macromolecule can not compared, and gradually been widely used in the field of prosthodontics.
The results of this study in this paper contribute to clinical application Acknowledgements This work is supported by the Dalian Science and Technology Foundation (No. 2009J22DW033) and Dr.
The journal of prosthetic dentistry, v91, 2004, p561-569.
Dental ceramic materials have similar color and translucency to natural tooth, performance, stability, good biocompatibility, corrosion resistance, aging and wear and tear, etc., which is favored deeply by the doctors and patients, is the most promising new materials of the oral prosthetics.
This is the metal materials and other macromolecule can not compared, and gradually been widely used in the field of prosthodontics.
The results of this study in this paper contribute to clinical application Acknowledgements This work is supported by the Dalian Science and Technology Foundation (No. 2009J22DW033) and Dr.
The journal of prosthetic dentistry, v91, 2004, p561-569.
Online since: June 2015
Authors: Dominique Planson, Christophe Raynaud, Sigo Scharnholz, Hassan Hamad, Pascal Bevilacqua
Lindefelt, Materials Science Forum, vols. 264-268, 513 (1998)
Planson, Materials Science Forum, vols. 717-720, 545 (2012)
Helbig, Journal of Applied physics, vol. 66, no. 7, p. 3060 (1989)
Planson, Materials Science Forum, vols. 717-720, 885 (2012)
Kimoto, Materials Science Forum, vol 778-780, p. 461 (2014).
Planson, Materials Science Forum, vols. 717-720, 545 (2012)
Helbig, Journal of Applied physics, vol. 66, no. 7, p. 3060 (1989)
Planson, Materials Science Forum, vols. 717-720, 885 (2012)
Kimoto, Materials Science Forum, vol 778-780, p. 461 (2014).
Online since: May 2020
Authors: Nataliya Shaburova, R.R. Naraeva, E.V. Litvinova
Litvinova, Microstructure and properties of cast metal treated with electromagnetic pulses while in molten state, Materials Science Forum. 843 (2016) 106-110
Krymsky, Electropulse Machining of Metals, Materials Science Forum. 870 (2016) 360-363
Cand. tech. sciences, Chelyabinsk, 2007, 177p
Krautkremer, Ultrasonic control of materials, Metallurgy, Moscow, 1991, 752 p
[14] Yanfeng Han, Ke Li, Jun Wang, Da Shu, Baode Sun, Influence of Al – 5Ti – 1B high-intensity master alloy on aluminum, Materials Science and Engineering. 405 (2005) 306–312
Krymsky, Electropulse Machining of Metals, Materials Science Forum. 870 (2016) 360-363
Cand. tech. sciences, Chelyabinsk, 2007, 177p
Krautkremer, Ultrasonic control of materials, Metallurgy, Moscow, 1991, 752 p
[14] Yanfeng Han, Ke Li, Jun Wang, Da Shu, Baode Sun, Influence of Al – 5Ti – 1B high-intensity master alloy on aluminum, Materials Science and Engineering. 405 (2005) 306–312
Online since: June 2012
Authors: Veijo Rauta, Esa Suikkanen, Juhani Orkas, Celal Cingi
The heat generated dissipates through the sample on either side at a rate dependent on the thermal transport characteristics of the material.
Thanks are also due to Kemi-Tornio University of Applied Sciences, Aalto Department of Materials Science and Engineering and Department of Engineering Design and Production for SEM work.
Sandström, A.Karlsson, Journal of Materials Science 32 (1997) pp. 4383-4390 [4] J.E.
Sandström, Materials Science and Technology, June 2001, Vol. 17, pp. 655-662 [6] R.N.
Ferrier, Scripta Materialia 58 (2008) pp. 1006-1009 [7] Sjölander, E., Seifeddine, S., Journal of Materials Technology 210 (2010) 1249-1259 [8] L.
Thanks are also due to Kemi-Tornio University of Applied Sciences, Aalto Department of Materials Science and Engineering and Department of Engineering Design and Production for SEM work.
Sandström, A.Karlsson, Journal of Materials Science 32 (1997) pp. 4383-4390 [4] J.E.
Sandström, Materials Science and Technology, June 2001, Vol. 17, pp. 655-662 [6] R.N.
Ferrier, Scripta Materialia 58 (2008) pp. 1006-1009 [7] Sjölander, E., Seifeddine, S., Journal of Materials Technology 210 (2010) 1249-1259 [8] L.
Online since: March 2010
Authors: Ying Chun Liang, Qing Shun Bai, Kai Yang
The micro milling technology has the advantage to fabricate
three-dimensional (3D) complex micro components with a wide rage of engineering materials [1].
The workpiece material constitutive equation is defined in Eq. 1. ),,( Tεεσσ &=
Freiheit: International Journal of Machine Tools & Manufacture Vol. 46(2006), p. 313-332 [2] G.
Melkote: Materials Science and Engineering A Vol. 474(2008), p. 283-300 [4] X.M.
Ni : International Journal of Machine Tools & Manufacture Vol. 48(2008), p. 1-14 [5] Y.C.
The workpiece material constitutive equation is defined in Eq. 1. ),,( Tεεσσ &=
Freiheit: International Journal of Machine Tools & Manufacture Vol. 46(2006), p. 313-332 [2] G.
Melkote: Materials Science and Engineering A Vol. 474(2008), p. 283-300 [4] X.M.
Ni : International Journal of Machine Tools & Manufacture Vol. 48(2008), p. 1-14 [5] Y.C.
Online since: May 2011
Authors: Jian Bo Zhou, Ning Zhang, Xu Nan Ning, Pei Tao Wei, Hai Jian Luo
Materials and methods
Sample.
Progress in Energy and Combustion Science, Vol.25(1999):55~116 [3] Z.Y.
Journal of Analytical and Applied Pyolysis, (2001):927~941 [7] Otero.
University of Science and Technology of China, (2000):95~97 [13] X.G.
Journal of Combustion Science and Technology, Vol.7(2001):72~76 [17] B.X.
Progress in Energy and Combustion Science, Vol.25(1999):55~116 [3] Z.Y.
Journal of Analytical and Applied Pyolysis, (2001):927~941 [7] Otero.
University of Science and Technology of China, (2000):95~97 [13] X.G.
Journal of Combustion Science and Technology, Vol.7(2001):72~76 [17] B.X.
Online since: February 2012
Authors: Hu Gen Ma, Hong Ping He, Jian Mei Bai
The outside of the teat section was coated with insulated materials, and then winded by resistance tape (with width 5 mm) which was used to heat the outer surface of tubes by electricity.
Bergles: Experimental Thermal and Fluid Science Vol. 26 (2002), p.335-344
Shin: International Journal of Refrigeration Vol. 28 (2005) , p. 940-948
Chung: International Journal of Refrigeration Vol. 25 (2002), p.716-730
Hu et al: Experimental Thermal and Fluid Science Vol. 34 (2010), p.845-856.
Bergles: Experimental Thermal and Fluid Science Vol. 26 (2002), p.335-344
Shin: International Journal of Refrigeration Vol. 28 (2005) , p. 940-948
Chung: International Journal of Refrigeration Vol. 25 (2002), p.716-730
Hu et al: Experimental Thermal and Fluid Science Vol. 34 (2010), p.845-856.
Online since: October 2011
Authors: Ri Dong Bao
Journal of Fluid and Structures, 1993, 7:137-204
Journal of Fluids and Structures, 1998,12:615-628
Journal of Fluids and Structures, 1995,9:99-122
Journal of Northeastern University (Natural Science), 2007, 28(7): 1017-1020.
Shanghai: Shanghai Science and Technology Press, 1994.
Journal of Fluids and Structures, 1998,12:615-628
Journal of Fluids and Structures, 1995,9:99-122
Journal of Northeastern University (Natural Science), 2007, 28(7): 1017-1020.
Shanghai: Shanghai Science and Technology Press, 1994.
Online since: December 2025
Authors: Andrea Manes, Edison Shehu, Luca Lomazzi
The structure of this paper is as follows: Section Materials and Methods introduces the numerical framework for simulating blast-loaded structures, detailing the computational approach adopted.
Materials and Methods Advances in computational capabilities have driven rapid development and widespread use of numerical simulation tools to study the interaction between blast waves and deformable structures.
The behavior of underacted energetic materials prior to detonation is modeled using the third-order Birch–Murnaghan equation of state (EOS) [10].
International Journal of Impact Engineering, 154, 103890
Unreacted equation of states of typical energetic materials under static compression: A review.
Materials and Methods Advances in computational capabilities have driven rapid development and widespread use of numerical simulation tools to study the interaction between blast waves and deformable structures.
The behavior of underacted energetic materials prior to detonation is modeled using the third-order Birch–Murnaghan equation of state (EOS) [10].
International Journal of Impact Engineering, 154, 103890
Unreacted equation of states of typical energetic materials under static compression: A review.