Sort by:
Publication Type:
Open access:
Publication Date:
Periodicals:
Search results
Online since: August 2022
Authors: Sivanraju Rajkumar, T. Sathish, V. Mohanavel, M. Ravichandran, Ram Subbiah, S. Dinesh Kumar, S. Jayasathyakawin
Ravichandran2,b, V.Mohanavel3,c*, T.Sathish4,d, S.Dinesh Kumar5,e, S.Rajkumar6,f, Ram Subbiah7,g,
1Research Scholar, Anna University, Chennai 600 025, Tamil Nadu, India.
2Department of Mechanical Engineering, K.
Ramakrishnan College of Engineering, Samayapuram, Trichy 621112, Tamilnadu, India. 3*Centre for Materials Engineering and Regenerative Medicine, Bharath Institute of Higher Education and Research, Chennai - 600073, Tamilnadu, India. 4Department of Mechanical Engineering, Saveetha School of Engineering, SIMATS, Chennai – 602 105, Tamil Nadu, India. 5Department of Mechanical Engineering, St.
Peters Institute of Higher Education and Research, Chennai, Tamil Nadu, India. 6Department of Mechanical Engineering, Faculty of Manufacturing, Institute of Technology, Hawassa University, Ethiopia. 7Department of Mechanical Engineering, Gokaraju Rangaraju Institute of Engineering and Technology, Hyderabad, Telangana, India.
A growing demand for advanced composite materials as well as diverse design requirements offering significant weight savings in comparison to conventional materials have all contributed to a growing interest in composite materials.
Uggowitzer, High-strength magnesium alloys for degradable implant applications, Materials Science and Engineering: A, Volume 528, Issue 3, 2011, Pages 1047-1054, https://doi.org/10.1016/j.msea.2010.09.068
Ramakrishnan College of Engineering, Samayapuram, Trichy 621112, Tamilnadu, India. 3*Centre for Materials Engineering and Regenerative Medicine, Bharath Institute of Higher Education and Research, Chennai - 600073, Tamilnadu, India. 4Department of Mechanical Engineering, Saveetha School of Engineering, SIMATS, Chennai – 602 105, Tamil Nadu, India. 5Department of Mechanical Engineering, St.
Peters Institute of Higher Education and Research, Chennai, Tamil Nadu, India. 6Department of Mechanical Engineering, Faculty of Manufacturing, Institute of Technology, Hawassa University, Ethiopia. 7Department of Mechanical Engineering, Gokaraju Rangaraju Institute of Engineering and Technology, Hyderabad, Telangana, India.
A growing demand for advanced composite materials as well as diverse design requirements offering significant weight savings in comparison to conventional materials have all contributed to a growing interest in composite materials.
Uggowitzer, High-strength magnesium alloys for degradable implant applications, Materials Science and Engineering: A, Volume 528, Issue 3, 2011, Pages 1047-1054, https://doi.org/10.1016/j.msea.2010.09.068
Online since: February 2016
Authors: Viktor N. Kudiiarov, Vladimir S. Sypchenko, Andrey M. Lider, Ekaterina N. Stepanova, Gang Liu
The alloy was hydrogenated to concentration of ~1 % (hereinafter, the hydrogen concentration is indicated in weight percent) using the automatic Gas Reaction Controller LPB (Advanced Materials Corporation, USA) [11].
Hydrogen content in the alloy in both states decrease to values corresponding engineering standards for titanium Ti-6Al-64V alloy.
Thus, use of the electron beam in combination with heating for hydrogen degassing of titanium alloys allows reduce the hydrogen concentration to a value closed to the engineering standards for these alloys.
Use of combination of the electron beam and heating for hydrogen degassing of titanium alloys allows reduce the hydrogen concentration to the values closed to the engineering standards for these alloys.
Forum. 667-669 (2011) 1183-1188
Hydrogen content in the alloy in both states decrease to values corresponding engineering standards for titanium Ti-6Al-64V alloy.
Thus, use of the electron beam in combination with heating for hydrogen degassing of titanium alloys allows reduce the hydrogen concentration to a value closed to the engineering standards for these alloys.
Use of combination of the electron beam and heating for hydrogen degassing of titanium alloys allows reduce the hydrogen concentration to the values closed to the engineering standards for these alloys.
Forum. 667-669 (2011) 1183-1188
Online since: January 2017
Authors: Zhen Bo Zhao, Xi Xi Cui, Chen Yang, Gao Hua, Cheng Liu
Role of Bulky Retained Austenite in Austempered Ductile Iron
Chen YANG1,a, Xi-Xi CUI1, Zhen-Bo ZHAO2, Gao HUA1, Cheng LIU1,b,*
1College of Mechanical Engineering, Yangzhou University, Jiangsu, Yangzhou, China
2Sensus Precision Die Casting (Yangzhou) Co.
Carmo, The Effect of reducing the austempering time on the fatigue properties of austempered ductile iron, Materials Science & Engineering A. 556 (2012) 408-413
Putatunda, An investigation on the stability of austenite in austempered ductile cast iron(ADI), Materials Science & Engineering A. 626 (2015) 273-246
Edmonds, Advanced bainitic and martensitic steels with carbide-free microstructures containing retained austenite, Materials Science Forum. 13 (2010) 110-117
Valdés, Experimental study of thethermal stability of austempered ductile irons, Journal of Materials Engineering and Performance, 11 (2002) 519–526
Carmo, The Effect of reducing the austempering time on the fatigue properties of austempered ductile iron, Materials Science & Engineering A. 556 (2012) 408-413
Putatunda, An investigation on the stability of austenite in austempered ductile cast iron(ADI), Materials Science & Engineering A. 626 (2015) 273-246
Edmonds, Advanced bainitic and martensitic steels with carbide-free microstructures containing retained austenite, Materials Science Forum. 13 (2010) 110-117
Valdés, Experimental study of thethermal stability of austempered ductile irons, Journal of Materials Engineering and Performance, 11 (2002) 519–526
Online since: January 2011
Authors: Shu Huang, Hong Yan Ruan, X.D. Yang, Cheng Dong Wang, Jian Zhong Zhou, Z.C. Xu
Ruan1,2,d
1School of Mechanical Engineering, Jiangsu University, Zhenjiang 212013, China
2Zhenjiang V-Zenith Laser Technology Co.
Ochi: Materials Science and Engineering Vol. 468 (2007) p. 171
Hackel: Materials Science Forum Vol. 580-582 (2008) p. 675
Ocana: Materials Science and Engineering Vol. 386 (2004) p. 291
Wang: Advanced Fracture Mechanics (Science Publications, China 2009).
Ochi: Materials Science and Engineering Vol. 468 (2007) p. 171
Hackel: Materials Science Forum Vol. 580-582 (2008) p. 675
Ocana: Materials Science and Engineering Vol. 386 (2004) p. 291
Wang: Advanced Fracture Mechanics (Science Publications, China 2009).
Online since: October 2024
Authors: Chung Hsin Lu, Karan Kumar Gupta, Chun Wei Yu, Achmad Chafidz
Effects of the Solid Concentration of Ceria Slurry on the Removal Rate and Selectivity of Si Wafer During Chemical Mechanical Polishing
Achmad Chafidz1,2,a*, Karan Kumar Gupta1,b, Chun-Wei Yu1,c, Chung-Hsin Lu1,d
1Department of Chemical Engineering, National Taiwan University, Taipei, 10617, Taiwan
2Chemical Engineering Department, Universitas Islam Indonesia, Yogyakarta 55584, Indonesia
*Corresponding author: ad09524011@ntu.edu.tw, bguptakarankumar3@gmail.com, cr11524123@ntu.edu.tw, dchlu@ntu.edu.tw
Keywords: Shallow Trench Isolation, Chemical Mechanical Polishing, CeO2 abrasive, dispersant, removal rate
Abstract.
V Babu, Perspective—Recent Advances and Thoughts on Ceria Particle Applications in Chemical Mechanical Planarization, ECS J.
Forum. 449–452 (2004) 1105–1108
Forum. 1067 (2022) 131–137
V Babu, Perspective—Recent Advances and Thoughts on Ceria Particle Applications in Chemical Mechanical Planarization, ECS J.
Forum. 449–452 (2004) 1105–1108
Forum. 1067 (2022) 131–137
Online since: August 2013
Authors: Yi Zi Wang, Wen Hua Liu, Li Hong Juang
The plan(standard floor) of “Engineering Institute, CDIO innovation center”
Fig. 3.
The elevation of “Engineering Institute, CDIO innovation center” Fig. 4.
The section of “Engineering Institute, CDIO innovation center” Fig. 5.
Meanwhile, we can also imitate the management of construction site in advance.
[2] Zhen-Ning Song: Journal of Science &Technology Association Forum vol. 9 (2012), p.131 in Chinese
The elevation of “Engineering Institute, CDIO innovation center” Fig. 4.
The section of “Engineering Institute, CDIO innovation center” Fig. 5.
Meanwhile, we can also imitate the management of construction site in advance.
[2] Zhen-Ning Song: Journal of Science &Technology Association Forum vol. 9 (2012), p.131 in Chinese
Online since: May 2023
Authors: Yafei Liu, Hong Yu Peng, Stephen Sampayan, Kristin Sampayan, Michael Dudley, Balaji Raghothamachar, Ze Yu Chen, Shanshan Hu, Qian Yu Cheng, James Watson
The experiments were carried out at 1-BM station, Advanced Photon Source in Argonne National Laboratory.
Acknowledgement The information, data, or work presented herein was funded in part by the Advanced Research Projects Agency-Energy (ARPA-E), U.S.
This research used resources of the Advanced Photon Source (Beamline 1-BM).
The Joint Photon Sciences Institute at Stony Brook University provided partial support for travel and subsistence at the Advanced Photon Source.
Forum, 821–823, 871 (2015)
Acknowledgement The information, data, or work presented herein was funded in part by the Advanced Research Projects Agency-Energy (ARPA-E), U.S.
This research used resources of the Advanced Photon Source (Beamline 1-BM).
The Joint Photon Sciences Institute at Stony Brook University provided partial support for travel and subsistence at the Advanced Photon Source.
Forum, 821–823, 871 (2015)
Online since: October 2007
Authors: Michael Ferry, N. Burhan
Burhan
b
ARC Centre of Excellence for Design in Light Metals
School of Materials Science and Engineering, University of New South Wales
UNSW, Sydney, 2052, Australia
a
m.ferry@unsw.edu.au
b
nanang@materials.unsw.edu.au
Keywords: aluminium; continuous recrystallization; ECAP; grain coarsening.
The homogeneous evolution of the microstructure during annealing, coupled with no appreciable change in texture, is also consistent with the advanced stages of continuous recrystallization.
Mater Sci Forum 1993;113-115;177
[20] Barmak, K, Archibald WE, Rollett AD. in Interfacial Engineering for Optimized Properties III.
The homogeneous evolution of the microstructure during annealing, coupled with no appreciable change in texture, is also consistent with the advanced stages of continuous recrystallization.
Mater Sci Forum 1993;113-115;177
[20] Barmak, K, Archibald WE, Rollett AD. in Interfacial Engineering for Optimized Properties III.
Online since: April 2020
Authors: Kristýna Hrabová
Elvin, Nanotechnology for Green Building, Green Technology Forum, (2007).
Leklou, Optimal Carbon Nanotubes Concentration Incorporated in Mortar and Concrete, Advanced Materials Research, ISSN 1662-8985, (2012),. 107-110
Hrabová, Nanomaterials in the construction industry, Junior Forensic Science Brno, Brno University of Technology, Institute of Forensic Engineering, (2018), ISBN: 978-80-214-5621-1. 179-184
Hrabová, Carbon nanotubes, Expert Forensic Science Brno, Brno University of Technology, Institute of Forensic Engineering, (2019), ISBN: 978-80-214-5708-9. 322-329
Advanced in Cement Research (2008), Vol. 20,. 65-73
Leklou, Optimal Carbon Nanotubes Concentration Incorporated in Mortar and Concrete, Advanced Materials Research, ISSN 1662-8985, (2012),. 107-110
Hrabová, Nanomaterials in the construction industry, Junior Forensic Science Brno, Brno University of Technology, Institute of Forensic Engineering, (2018), ISBN: 978-80-214-5621-1. 179-184
Hrabová, Carbon nanotubes, Expert Forensic Science Brno, Brno University of Technology, Institute of Forensic Engineering, (2019), ISBN: 978-80-214-5708-9. 322-329
Advanced in Cement Research (2008), Vol. 20,. 65-73
Online since: July 2015
Authors: Edson Paulo da Silva, Tadeu Castro da Silva, Daniel Monteiro Rosa
Alloy
Tadeu Castro da Silva1,a, Daniel Monteiro Rosa,1,b and Edson Paulo da Silva1,c
1,2,3 Mechanical Engineering Department of University of Brasilia, Brasilia, DF, Brazil.
Otsuka, Engineering aspects of shape memory alloys, Edited by T W Duerig, Butterworth-Heinemann Ltd., England, 1990
Advanced Materials Research (Online), 936 (2014) 1216-1223
Yao, Annealing Effect on the Shape Memory Properties of Amorphous NiTi Thin Films, Journal of Manufacturing Science and Engineering, 132 (2010), 051004-1- 051004-9
Materials Science and Engineering A, 378 (2004), 191-199.
Otsuka, Engineering aspects of shape memory alloys, Edited by T W Duerig, Butterworth-Heinemann Ltd., England, 1990
Advanced Materials Research (Online), 936 (2014) 1216-1223
Yao, Annealing Effect on the Shape Memory Properties of Amorphous NiTi Thin Films, Journal of Manufacturing Science and Engineering, 132 (2010), 051004-1- 051004-9
Materials Science and Engineering A, 378 (2004), 191-199.