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Online since: August 2017
Authors: De Hong Huo, Amin Dadgari, David Swailes
Journal of Manufacturing Science and Engineering, Transactions of the ASME, 2004. 126(4): p. 837-844
Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science, 2012. 226(6): p. 1589-1600
Journal of Manufacturing Science and Engineering, Transactions of the ASME, 2008. 130(3): p. 0311211-03112113
International Journal of Impact Engineering, 2001. 25(3): p. 211-231
Journal of Manufacturing Science and Engineering, 2015. 138(5): p. 051010-051010
Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science, 2012. 226(6): p. 1589-1600
Journal of Manufacturing Science and Engineering, Transactions of the ASME, 2008. 130(3): p. 0311211-03112113
International Journal of Impact Engineering, 2001. 25(3): p. 211-231
Journal of Manufacturing Science and Engineering, 2015. 138(5): p. 051010-051010
Online since: July 2007
Authors: Kai Feng Zhang, Guo Feng Wang, S. Ding
Tensile Tests
The tensile tests were performed on an Instron-5500 tensile test machine with a ceramic furnace
heating furnace.
Mukherjee: Materials Science and Engineering A, Vol. 319-321 (2001), p.849 - 853 [8] R.S.
McFadden, et al: Materials Science and Engineering A, Vol. 252 (1998), p.174-178 [9] G.F.
Gong: International Journal of Machine Tools and Manufacture, Vol. 41 (2001), p.1283-1294 [12] A.J.
Mukherjee: Materials Science and Engineering A, Vol. 395 (2005), p. 265-268
Mukherjee: Materials Science and Engineering A, Vol. 319-321 (2001), p.849 - 853 [8] R.S.
McFadden, et al: Materials Science and Engineering A, Vol. 252 (1998), p.174-178 [9] G.F.
Gong: International Journal of Machine Tools and Manufacture, Vol. 41 (2001), p.1283-1294 [12] A.J.
Mukherjee: Materials Science and Engineering A, Vol. 395 (2005), p. 265-268
Online since: February 2022
Authors: Jesada Kaewwichit, Rittichai Phaoniam, Bovornchok Poopat
Interference Phenomena on Infrared Thermography
during a Mushy Solidification Zone
Jesada Kaewwichit1,a*, Rittichai Phaoniam2,b and Bovornchok Poopat3,c
1Industrial and Manufacturing Systems Engineering, Department of Production Engineering,
Faculty of Engineering, King Mongkut's University of Technology Thonburi,
Bangkok 10140, Thailand
2Department of Mechanical and Industrial Engineering, Faculty of Engineering,
Rajamangala University of Technology Krungthep, Bangkok 10120, Thailand
3Department of Production Engineering, Faculty of Engineering,
King Mongkut's University of Technology Thonburi, Bangkok 10140, Thailand
ajesada.kt@mail.kmutt.ac.th, brittichai.p@mail.rmutk.ac.th, cbovornchok.poo@kmutt.ac.th
Keywords: GTAW, Infrared image, Weld mushy zone.
Acknowledgment The authors would like to thank the Industrial and Manufacturing Systems Engineering, Department of Production Engineering, Faculty of Engineering, King Mongkut's University of Technology Thonburi and Department of Mechanical and Industrial Engineering, Faculty of Engineering, Rajamangala University of Technology Krungthep in supporting equipments for this experiment.
Wypych, "Application of thermovision method to welding thermal cycle analysis," Journal of Achievements in Materials and Manufacturing Engineering, vol. 40, 06/01 2010
G. de Souza, "Characterization of “Humping” in the GTA welding process using infrared images," Journal of Materials Processing Technology, vol. 223, pp. 216-224, 2015
Song, "Infrared temperature measurement and interference analysis of magnesium alloys in hybrid laser-TIG welding process," Materials Science and Engineering A-structural Materials Properties Microstructure and Processing - MATER SCI ENG A-STRUCT MATER, vol. 447, pp. 239-243, 2007
Acknowledgment The authors would like to thank the Industrial and Manufacturing Systems Engineering, Department of Production Engineering, Faculty of Engineering, King Mongkut's University of Technology Thonburi and Department of Mechanical and Industrial Engineering, Faculty of Engineering, Rajamangala University of Technology Krungthep in supporting equipments for this experiment.
Wypych, "Application of thermovision method to welding thermal cycle analysis," Journal of Achievements in Materials and Manufacturing Engineering, vol. 40, 06/01 2010
G. de Souza, "Characterization of “Humping” in the GTA welding process using infrared images," Journal of Materials Processing Technology, vol. 223, pp. 216-224, 2015
Song, "Infrared temperature measurement and interference analysis of magnesium alloys in hybrid laser-TIG welding process," Materials Science and Engineering A-structural Materials Properties Microstructure and Processing - MATER SCI ENG A-STRUCT MATER, vol. 447, pp. 239-243, 2007
Online since: April 2016
Authors: Man Li Gou, Zhen Hua Wang, Guo Quan Yang, Wang Sun, Jin Shuo Qiao, Ke Ning Sun
:Journal of Power Sources, (2007) No.164, p.203
Z: Journal of Power Sources, (2007) No.167,p.288
HYUN: Journal of Materials Science, (2002) No.37, p.2535
M. and Munder, B.: Industrial & Engineering Chemistry Research, (2004) No.43, p.4551
Caldes: International Journal of Hydrogen Energy, (2012) No.37, p.4346
Z: Journal of Power Sources, (2007) No.167,p.288
HYUN: Journal of Materials Science, (2002) No.37, p.2535
M. and Munder, B.: Industrial & Engineering Chemistry Research, (2004) No.43, p.4551
Caldes: International Journal of Hydrogen Energy, (2012) No.37, p.4346
Online since: June 2009
Authors: C.A. Featherston, Karen M. Holford, Bea Greaves
Greaves1,c
1
Cardiff School of Engineering, Cardiff University, Queen's Buildings,
The Parade, Cardiff, CF24 3AA, UK.
Hagood: Journal of Intelligent Material Systems and Structures, Vol. 8 (1997).
SPIE International Symposium on Smart Structures and Materials, Newport Beach, California, (2000)
Microelectronics Journal, (2008) in press
Engineering smart technologies.
Hagood: Journal of Intelligent Material Systems and Structures, Vol. 8 (1997).
SPIE International Symposium on Smart Structures and Materials, Newport Beach, California, (2000)
Microelectronics Journal, (2008) in press
Engineering smart technologies.
Online since: October 2023
Authors: Shou Rui Wang, Zhi Kai Zhou, Wu Yin Jin, Xia Zhang, Wen Ke Chen
Journal of Iron & Steel Research International 2010;
17: 40-45,52
Key Engineering Materials 2020; 846: 122-127
Key Engineering Materials 2022; 923: 75-83
International Journal of Machine Tools & Manufacture 2008; 48: 236-248
Journal of Materials Engineering and Performance 2016; 25: 5076-5086
Key Engineering Materials 2020; 846: 122-127
Key Engineering Materials 2022; 923: 75-83
International Journal of Machine Tools & Manufacture 2008; 48: 236-248
Journal of Materials Engineering and Performance 2016; 25: 5076-5086
Online since: September 2019
Authors: B.V. Farmakovsky, M.A. Markov, A.M. Makarov, A.D. Bykova, A.N. Belyakov, Dmitry A. Gerashchenkov, Sergei N. Perevislov
Heat-resistant electrovacuum glasses of type TU and C48-3, quartz and radio-technical ceramics of type 22ХС were used as substrates.
The achieved high characteristics show that the developed precision alloy based on silver for nanostructured coatings is promising for use as a contact material in power electronics and power engineering and for the manufacture of bimetallic electrical contacts of low-voltage switching equipment operating at low temperatures.
Coatings have a high level of performance properties and are recommended for practical use in power electronics and power engineering for the manufacture of electrical contacts operating in a wide range of operating temperatures (-60 to 250°C).
[16] Klubnikina V.S., Proceedings of the 5th International Conference "Films and Coatings 2008", 2008
[18] Alexandrov S.E., Tyurikov K.S., Breki A.D., Low-Temperature Plasma-Chemical Deposition of Nanocomposite Antifriction Molybdenum Disulfide (Filler)–Silicon Oxide (Matrix) Coatings, Russian Journal of Applied Chemistry. 90 (2017) 1753-1759
The achieved high characteristics show that the developed precision alloy based on silver for nanostructured coatings is promising for use as a contact material in power electronics and power engineering and for the manufacture of bimetallic electrical contacts of low-voltage switching equipment operating at low temperatures.
Coatings have a high level of performance properties and are recommended for practical use in power electronics and power engineering for the manufacture of electrical contacts operating in a wide range of operating temperatures (-60 to 250°C).
[16] Klubnikina V.S., Proceedings of the 5th International Conference "Films and Coatings 2008", 2008
[18] Alexandrov S.E., Tyurikov K.S., Breki A.D., Low-Temperature Plasma-Chemical Deposition of Nanocomposite Antifriction Molybdenum Disulfide (Filler)–Silicon Oxide (Matrix) Coatings, Russian Journal of Applied Chemistry. 90 (2017) 1753-1759
Online since: December 2013
Authors: Mohd Arif Anuar Mohd Salleh, Muhammad Hafiz Zan Hazizi, Zainal Ariffin Ahmad
Mohd Salleh1,b
and Zainal Ariffin Ahmad2
1Nihon Superior Electronic Materials Research Lab, Centre of Excellence Geopolymer & Green Technology, School of Materials Engineering, Universiti Malaysia Perlis (UniMAP), Perlis, Malaysia.
2School of Materials and Mineral Resources Engineering, Universiti Sains Malaysia (USM), Penang, Malaysia
ahafizhazizi@unimap.edu.my, barifanuar@unimap.edu.my
Keywords: Powder Metallurgy, Lead-free Solder, Sn-0.7Cu, Silicon Nitride, Composite.
Materials Science and Engineering: A, 2006. 423(1-2): p. 166-169
Gupta, Influence of ceramic reinforcements on the wettability and mechanical properties of novel lead-free solder composites.
International Conference on. 2009
Journal of Materials Engineering and Performance, 2010. 19(3): p. 335-341
Materials Science and Engineering: A, 2006. 423(1-2): p. 166-169
Gupta, Influence of ceramic reinforcements on the wettability and mechanical properties of novel lead-free solder composites.
International Conference on. 2009
Journal of Materials Engineering and Performance, 2010. 19(3): p. 335-341
Online since: January 2012
Authors: Dermot Brabazon, Sumsun Naher, Marcin Lipowiecki, Marketa Ryvolova, Akos Tottosi
Nowadays, there is a wide range of biocompatible materials available for tissue engineering.
Models were also produced in polyurethane via the micro-stereolithography technique, which allows for components of smaller dimension and higher accuracy, supplied by Hordler Rapid Engineering GmbH, Germany.
Hui, Composites Part B-Engineering 2007, 38, 291
Krause, Journal of Biomechanics 1991, 24, 127
Williams, Journal of Biomechanics 1997, 30, 743-745
Models were also produced in polyurethane via the micro-stereolithography technique, which allows for components of smaller dimension and higher accuracy, supplied by Hordler Rapid Engineering GmbH, Germany.
Hui, Composites Part B-Engineering 2007, 38, 291
Krause, Journal of Biomechanics 1991, 24, 127
Williams, Journal of Biomechanics 1997, 30, 743-745
Online since: February 2011
Authors: Mazatusziha Ahmad, Khairul Zaman Mohd Dahlan, Mat Uzir Wahit, Mohammed Rafiq Abdul Kadir
Due to that, much attention has been paid towards the development of polymer composites with HA as bioactive material in bone tissue engineering [2,3].
PEG (Mw=8000) and HA is a calcium phosphate ceramic (Ca10(PO)6(OH)2), grade 21223 (Fluka) were supplied by Sigma Aldrich, Malaysia.
Journal of Applied Polymer Science.
Tribology International, Vol. 31, Nos 1-3. (1998), p. 17-33
Journal of Applied Polymer Science.
PEG (Mw=8000) and HA is a calcium phosphate ceramic (Ca10(PO)6(OH)2), grade 21223 (Fluka) were supplied by Sigma Aldrich, Malaysia.
Journal of Applied Polymer Science.
Tribology International, Vol. 31, Nos 1-3. (1998), p. 17-33
Journal of Applied Polymer Science.