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Online since: November 2015
Authors: Cristian Dragomirescu, Victor Iliescu
., The Effect of Vibration on Muscle Activity and Grip Strength Using an Electric Drill in Advanced Engineering Forum (Volume 10) (2013), pp. 318-323
[10] Dragomirescu, C., Craifaleanu, A., Aspects regarding the Study of a Vibratory Device which Acts a Medical Apparatus, The Annals of “Dunărea de Jos” University of Galaţi, Fascicle XIV Mechanical Engineering (2013)
[10] Dragomirescu, C., Craifaleanu, A., Aspects regarding the Study of a Vibratory Device which Acts a Medical Apparatus, The Annals of “Dunărea de Jos” University of Galaţi, Fascicle XIV Mechanical Engineering (2013)
Online since: January 2010
Authors: Z. Horita, Kaveh Edalati, Kenji Higashida, Masaki Tanaka
High Pressure Torsion of Pure Ti: Effect of Pressure and Strain on
Allotropy
Kaveh Edalatia, Zenji Horitab, Masaki Tanakac and Kenji Higashidad
Department of Materials Science and Engineering, Faculty of Engineering
Kyushu University, Fukuoka 819-0395, Japan
a kaveh.edalati@zaiko6.zaiko.kyushu-u.ac.jp, b horita@Zaiko0.kyushu-u.ac.jp,
c masaki@zaiko.kyushu-u.ac.jp, d higasida@zaiko.kyushu-u.ac.jp
Keywords: titanium, high pressure torsion, severe plastic deformation, omega phase
Abstract.
This work was supported in part by the Light Metals Educational Foundation of Japan, in part by a Grant-in-Aid for Scientific Research from the Ministry of Education, Culture, Sports, Science and Technology, Japan, in Priority Areas "Giant Straining Process for Advanced Materials Containing Ultra-High Density Lattice Defects" and in part by Kyushu University Interdisciplinary Programs in Education and Projects in Research Development (P&P).
Forum Vol. 584-586 (2008), p. 49
This work was supported in part by the Light Metals Educational Foundation of Japan, in part by a Grant-in-Aid for Scientific Research from the Ministry of Education, Culture, Sports, Science and Technology, Japan, in Priority Areas "Giant Straining Process for Advanced Materials Containing Ultra-High Density Lattice Defects" and in part by Kyushu University Interdisciplinary Programs in Education and Projects in Research Development (P&P).
Forum Vol. 584-586 (2008), p. 49
Online since: June 2013
Authors: Chui You Kong, Yong Zhang, Mao Ting Li
Numerical Simulation of Bulging Process of
Aluminum Alloy Sheet
Maoting Li1, a, Yong Zhang1,b and Chuiyou Kong1,c
1College of Mechanical Engineering ; Tianjin University of Science and Technology
Tianjin 300222 ,China
alimaoting@tust.edu.cn, bzxy.890605@163.com, ckongchuiyou@126.com
Keywords: superplasticity ; gas bulging forming ; thickness distribution ; pressure control ; finite element simulation
Abstract.
This article by analysis simulation of MSC.Marc can solve the main problem of the design phrase, make superplastic processing into the engineering science phrase which is characterized by modeling , flexibility and optimization, and play a guiding role on actual production.
Advanced Materials &Processes, Oct.1997, 17 - 19
Materials Science Forum, 2000, 22: 19-28
This article by analysis simulation of MSC.Marc can solve the main problem of the design phrase, make superplastic processing into the engineering science phrase which is characterized by modeling , flexibility and optimization, and play a guiding role on actual production.
Advanced Materials &Processes, Oct.1997, 17 - 19
Materials Science Forum, 2000, 22: 19-28
Online since: April 2013
Authors: Tahir Ahmad, Othman Mamat, Rafiq Ahmad, Amir N. Malik
Malik1
1Department of Metallurgy and Materials Engineering,
College of Engineering and Emerging Technologies,
University of the Punjab, Lahore,
Pakistan
2Mechanical Engineering Department, Universiti Teknologi Petronas,
Bandar Seri Iskandar, 31750 Tronoh, Perak,
Malaysia
atahirengg4051@yahoo.com, tahirahmed33@gmail.com
Keywords: Fe2SiO4, Pearlite Phases, Reaction of Fe with SiO2
Abstract
Metal matrix composites have grown rapidly with their usefulness in many applications for industries.
Callister, Jr., “Materials Science and Engineering: An Introduction”, 7th Edition, John Wiley & Sons.
Kainer, “Metal Matrix Composites, Custom-Made Materials for Automotive and Aerospace Engineering”, WILEY-VCH Verlag GmbH & Co.
Lindroos, Materials Science and Engineering A, 246 (1998), 221-34
Yuan, Lian Meng Zhang, Key Engineering Materials, 336-338 (2007) 2344-2346
Callister, Jr., “Materials Science and Engineering: An Introduction”, 7th Edition, John Wiley & Sons.
Kainer, “Metal Matrix Composites, Custom-Made Materials for Automotive and Aerospace Engineering”, WILEY-VCH Verlag GmbH & Co.
Lindroos, Materials Science and Engineering A, 246 (1998), 221-34
Yuan, Lian Meng Zhang, Key Engineering Materials, 336-338 (2007) 2344-2346
Online since: March 2006
Authors: Tatsuo Tabaru, Hisatoshi Hirai, Sheng Wu Wang, Hideto Ueno
Ueno
4, d
1
School of Traffic and Transportation Engineering, Dalian Jiaotong University, 794 Huang-He Road,
Dalian City, 116028, CHINA
2
On-site Sensing and Diagnosis Laboratory, National Institute of Advanced Industrial Science and
Technology (AIST), 807-1 Shuku, Tosu, Saga 841-0052, JAPAN
3
AIST Innovation Center for Start-ups, National Institute of Advanced Industrial Science and
Technology (AIST), 2-2-2 Marunouchi, Chiyoda, Tokyo 100-0005, Japan
4
Materials Research Institute for Sustainable Development, National Institute of Advanced Industrial
Science and Technology (AIST), 807-1 Shuku, Tosu, Saga 841-0052, JAPAN
a
wangswu@online.ln.cn, b
t-tabaru@aist.go.jp, c h-hirai@aist.go.jp, d
ueno-h@aist.go.jp
Keywords: Niobium, silicide, in-situ composite, strength, fracture toughness.
Forum Vols. 426-432 (2003), p. 2581
Forum Vols. 426-432 (2003), p. 2581
Online since: September 2012
Authors: Katsuyuki Kida, Takashi Honda, Takuya Shibukawa, Koshiro Mizobe, Hitonobu Koike, Edson Costa Santos
Zhou: Engineering Failure Analysis, Vol. 17 (2010), pp. 1517-1525
[8] R.
Yamamoto: Materials Science Forum, Vols. 561-565 (2007), pp. 2345-2348 [15] C.
Rozwadowska: Advanced Material Research, Vols. 217-218 (2011), pp. 1266-1271, DOI: 10.4028/www.scientific.net/AMR.217-218.1266 [17] E.
Hashimoto: Advanced Material Research, Vols. 217-218 (2011), pp. 982-987, DOI: 10.4028/www.scientific.net/AMR.217-218.982 [18] K.
Shibukawa: Advanced Material Research, Vols. 457-458 (2012), pp. 1025-1031, DOI: 10.4028/www.scientific.net/ AMR.457-458.1025
Yamamoto: Materials Science Forum, Vols. 561-565 (2007), pp. 2345-2348 [15] C.
Rozwadowska: Advanced Material Research, Vols. 217-218 (2011), pp. 1266-1271, DOI: 10.4028/www.scientific.net/AMR.217-218.1266 [17] E.
Hashimoto: Advanced Material Research, Vols. 217-218 (2011), pp. 982-987, DOI: 10.4028/www.scientific.net/AMR.217-218.982 [18] K.
Shibukawa: Advanced Material Research, Vols. 457-458 (2012), pp. 1025-1031, DOI: 10.4028/www.scientific.net/ AMR.457-458.1025
Online since: August 2024
Authors: Stéphanie Huet, Cédric Masante, Alexandre Moulin, Vladimir S. Prudkovskiy, Sophie Barbet, Karine Mony, Séverin Rouchier, Julie Widiez, Nicolas Troutot, Emmanuel Rolland, Guillaume Gelineau, Mathieu Delcroix, Lucie Corbin, Anne-Marie Papon, Loic Turchetti, Simon Caridroit
., Materials Sience Forum, vol. 1062, pp. 131–135, 2021
Di Cioccio et al., Materials Science and Engineering: B, vol. 46, no. 1, pp. 349–356, 1997
Hugonnard-Bruyère et al., Materials Siences and Engineering: B, vol. 61–62, pp. 382–388, 1999
Forum, vol. 963 MSF, pp. 516–5159, 2019
Pensl, Silicon Carbode: Recent Major Advances, Springer-Verlag., vol. 1.
Di Cioccio et al., Materials Science and Engineering: B, vol. 46, no. 1, pp. 349–356, 1997
Hugonnard-Bruyère et al., Materials Siences and Engineering: B, vol. 61–62, pp. 382–388, 1999
Forum, vol. 963 MSF, pp. 516–5159, 2019
Pensl, Silicon Carbode: Recent Major Advances, Springer-Verlag., vol. 1.
Online since: March 2021
Authors: Hisaki Watari, Shinichi Nishida, Toshio Haga, Kosuke Tsukuda, Keisuke Oida
Kang: Key Engineering Materials, Vol. 443(2010), p. 45
[4] A.
Watari: Advanced Materials Research Vol. 264-265 (2011), p. 1911 [17] T.
Kumai: Archives of Materials Science and Engineering Vol. 29 (2008), p. 113 [18] T.
Forum Vol. 1007 (2020), p. 6 [19] T.
Watari: Key Engineering Materials Vols. 504-506 (2012), p. 1243
Watari: Advanced Materials Research Vol. 264-265 (2011), p. 1911 [17] T.
Kumai: Archives of Materials Science and Engineering Vol. 29 (2008), p. 113 [18] T.
Forum Vol. 1007 (2020), p. 6 [19] T.
Watari: Key Engineering Materials Vols. 504-506 (2012), p. 1243
Online since: May 2024
Authors: Tjipto Sujitno, Suprapto Suprapto, Teguh Dwi Widodo, Margono Margono, Muhammad Kozin, Djarot B. Darmadi
Darmadi1,b, Teguh Dwi Widodo1,c, Suprapto3,d,
Tjipto Sujitno3,e and Muhammad Kozin4,f*
1Mechanical Engineering Department, Faculty of Engineering, Brawijaya University, Indonesia
2Mechanical Engineering Department, Sekolah Tinggi Teknologi Warga Surakarta, Indonesia
3Accelerator Technology Research Center, BRIN, Jl.
Babarsari No. 21, Yogyakarta, Indonesia 4Research Center for Advanced Materials, National Research and Innovation Agency (BRIN), South Tangerang, Banten 15314, Indonesia amargono93@student.ub.ac.id, bb_darmadi_djarot@ub.ac.id, cwidodoteguhdwi@ub.ac.id, dpraptowh@batan.go.id, etjiptosujitno@batan.go.id, f*muha066@brin.go.id Keywords: Aluminium alloy, DC Sputtering, TiN, Hardness Abstract.
Forum, vol. 961 MSF, pp. 112–117, 2019
Forum, vol. 1051, pp. 147–152, 2022
Babarsari No. 21, Yogyakarta, Indonesia 4Research Center for Advanced Materials, National Research and Innovation Agency (BRIN), South Tangerang, Banten 15314, Indonesia amargono93@student.ub.ac.id, bb_darmadi_djarot@ub.ac.id, cwidodoteguhdwi@ub.ac.id, dpraptowh@batan.go.id, etjiptosujitno@batan.go.id, f*muha066@brin.go.id Keywords: Aluminium alloy, DC Sputtering, TiN, Hardness Abstract.
Forum, vol. 961 MSF, pp. 112–117, 2019
Forum, vol. 1051, pp. 147–152, 2022
Online since: August 2018
Authors: Wang Nian Zhang, Li Wang, Ni Deng
References
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[2] Burcu Ertuğ, Classification and characteristics of predominant refractories used in metallurgy, Advanced Engineering Forum, 26 (2018) 9-21
[7] Xian Gong Deng, Jun Kai Wang, Hai Jun Zhang, Jiang Hao Liu and Shao Wei Zhang, Synthesis and characterization of magnesium aluminate spinel porous ceramics by Novel molten salt method, Key Engineering Materials. 697 (2016) 399- 403
[10] Eing Kuan Kok, Johar Ban juraizah, Li Ngee Ho and Zabar Yahidah, Impact of secondary phases content on the mechanical properties of cordierite, Key Engineering Materials. 723 (2017) 650-655
[13] Wang Zhoufu, XuZiwei, Wang Yutang, Effect of mixed rare earth oxide on structure and properties of magnesium refractory materials, Rare Metal Materials and Engineering. 36 (2007) 374-375
[2] Burcu Ertuğ, Classification and characteristics of predominant refractories used in metallurgy, Advanced Engineering Forum, 26 (2018) 9-21
[7] Xian Gong Deng, Jun Kai Wang, Hai Jun Zhang, Jiang Hao Liu and Shao Wei Zhang, Synthesis and characterization of magnesium aluminate spinel porous ceramics by Novel molten salt method, Key Engineering Materials. 697 (2016) 399- 403
[10] Eing Kuan Kok, Johar Ban juraizah, Li Ngee Ho and Zabar Yahidah, Impact of secondary phases content on the mechanical properties of cordierite, Key Engineering Materials. 723 (2017) 650-655
[13] Wang Zhoufu, XuZiwei, Wang Yutang, Effect of mixed rare earth oxide on structure and properties of magnesium refractory materials, Rare Metal Materials and Engineering. 36 (2007) 374-375