Sort by:
Publication Type:
Open access:
Publication Date:
Periodicals:
Search results
Online since: January 2012
Authors: Yoshikazu Nakai, Kenichi Nakagawa, Kohei Mikami
Nakagawa, Advanced Engineering Materials, Vol. 10 (2008), p.1026
Yoshioka, Materials Science Forum, Vol. 561-565 (2007), p.1279
Seki, Key Engineering Materials, Vol. 378-379 (2008), p.3017
Kim, Procedia Engineering, Vol. 2, Issue 1 (2010), p.147
Kawamoto, Transactions of the Japan Society of Mechanical Engineers, Vol. 7 (29-1) (1941), p.85
Yoshioka, Materials Science Forum, Vol. 561-565 (2007), p.1279
Seki, Key Engineering Materials, Vol. 378-379 (2008), p.3017
Kim, Procedia Engineering, Vol. 2, Issue 1 (2010), p.147
Kawamoto, Transactions of the Japan Society of Mechanical Engineers, Vol. 7 (29-1) (1941), p.85
Online since: April 2017
Authors: Sallehuddin Muhammad, Astuty Amrin, Mohd Ariff Azmah Hanim, Ayad Omran Abdalla
Azmah Hanim2, d
1UTM Razak School of Engineering & Advanced Technology, Universiti Teknologi Malaysia,
54100, Kuala Lumpur, Malaysia
2Department of Mechanical and Manufacturing Engineering, Universiti Putra Malaysia,
43300, Serdang, Malaysia
aoaayad2@live.utm.my*, bastuty@utm.my, csallehuddin.kl@utm.my, dazmah@eng.upm.edu.my
Keywords: Ti-Al-Fe alloys, lamellar microstructure, hardness.
Introduction Titanium alloys exhibit extraordinary properties and are thus, increasingly used in many engineering applications, such as the aerospace, marine, automotive and petroleum industries [1-6].
Kutz, Mechanical Engineers' Handbook, Materials and Mechanical Design, Wiley, 2005
Rethwisch, Materials Science and Engineering: An Introduction.
Forum, 747-748 (2013) 919-925
Introduction Titanium alloys exhibit extraordinary properties and are thus, increasingly used in many engineering applications, such as the aerospace, marine, automotive and petroleum industries [1-6].
Kutz, Mechanical Engineers' Handbook, Materials and Mechanical Design, Wiley, 2005
Rethwisch, Materials Science and Engineering: An Introduction.
Forum, 747-748 (2013) 919-925
Online since: July 2011
Authors: Wen Hui Yue, Zi Qiang Han, Xiao Jun Wang
He: Chinese Journal of Mechanical Engineering, Vol. 40 (2004) No.3, pp.26-30.
Duan: Chinese Mechanical Engineering, Vol. 13 (2002) No.20, pp.1760-1764.
Song: Chinese Mechanical Engineering, Vol. 20 (2009) No.16, pp.1942-1946.
Wang: 2010 Chinese machinery equipment advanced manufacturing technology forum ( Guangzhou, China, 2010), pp.275-279.
Du: Chinese Mechanical Engineering, Vol. 17 (2006) No.17, pp.1834-1841.
Duan: Chinese Mechanical Engineering, Vol. 13 (2002) No.20, pp.1760-1764.
Song: Chinese Mechanical Engineering, Vol. 20 (2009) No.16, pp.1942-1946.
Wang: 2010 Chinese machinery equipment advanced manufacturing technology forum ( Guangzhou, China, 2010), pp.275-279.
Du: Chinese Mechanical Engineering, Vol. 17 (2006) No.17, pp.1834-1841.
Online since: February 2014
Authors: Vivek Pancholi, S. Pradeep
The overlapping was always on the advancing side.
McNelley: Material science and engineering, Vol. 96 (1987), p. 253 [2] R.
Forum Vol. 507(2001), p. 357
Mishra: Material science and engineering A, Vol. 464 (2007), p. 255
Liu: Material science and engineering A, Vol. 505 (2009), p. 70.
McNelley: Material science and engineering, Vol. 96 (1987), p. 253 [2] R.
Forum Vol. 507(2001), p. 357
Mishra: Material science and engineering A, Vol. 464 (2007), p. 255
Liu: Material science and engineering A, Vol. 505 (2009), p. 70.
Online since: February 2014
Authors: Erry Yulian Triblas Adesta, Muhammad Riza, Irfan Hilmy
Adesta1,b, Muhammad Riza1,c
1Manufacturing and Material Engineering Department, Faculty of Engineering, IIUM,
P.O.
Forum, Vol 331–337, 2000, p 1719–1724 [2] J.H.
Hemanth Vepakomma, Three Dimensional Thermal Modeling Of Friction Stir Processing, Master Thesis, The Florida State University College Of Engineering, 2006 [8] Y.J.
Wong, The Correspondence between Experimental Data and Computer Simulation of Friction Stir Welding (FSW), Master Theses, College of Engineering and Mineral Resources at West Virginia University, 2008 [10] Qasim H.
Abdullah, Evaluation of friction welded bi-material joint strength subjected to impact loads, Advanced Materials Research Vols. 264-265 (2011) pp 719-725
Forum, Vol 331–337, 2000, p 1719–1724 [2] J.H.
Hemanth Vepakomma, Three Dimensional Thermal Modeling Of Friction Stir Processing, Master Thesis, The Florida State University College Of Engineering, 2006 [8] Y.J.
Wong, The Correspondence between Experimental Data and Computer Simulation of Friction Stir Welding (FSW), Master Theses, College of Engineering and Mineral Resources at West Virginia University, 2008 [10] Qasim H.
Abdullah, Evaluation of friction welded bi-material joint strength subjected to impact loads, Advanced Materials Research Vols. 264-265 (2011) pp 719-725
Online since: December 2016
Authors: Xin Cun Zhuang, Zhen Zhao, Kun Zhao, Xin Hua Pei
Introduction
In modern automobile industry, new types of advanced high-strength steels (AHSSs) are developed in order to lighten the body weight.
The engineering stress vs. engineering strain curve of four RVE models are shown in Fig. 4, where a sudden decreasing of stress level can be noticed at a strain range from 0.008 to 0.01.
Fig. 4 Engineering stress vs. engineering strain curve of four models Fig. 5 Formation of initial crack in model A: (a) Local microstructure (b) Equivalent plastic strain (PEEQ) (c) Stress triaxiality (TRIAX) Fig. 6 Formation of initial crack of different models: (a) Model B (c) Model C (c) Model D Crack Propagation.
Bleck, Failure modeling of multiphase steels using representative volume elements based on real microstructures, Procedia Engineering 1 (2009) 171-176
Gutierrez, Unified formulation to predict the tensile curve of steels with different microstructures, Materials Science Forum, 2003, 4525-4530
The engineering stress vs. engineering strain curve of four RVE models are shown in Fig. 4, where a sudden decreasing of stress level can be noticed at a strain range from 0.008 to 0.01.
Fig. 4 Engineering stress vs. engineering strain curve of four models Fig. 5 Formation of initial crack in model A: (a) Local microstructure (b) Equivalent plastic strain (PEEQ) (c) Stress triaxiality (TRIAX) Fig. 6 Formation of initial crack of different models: (a) Model B (c) Model C (c) Model D Crack Propagation.
Bleck, Failure modeling of multiphase steels using representative volume elements based on real microstructures, Procedia Engineering 1 (2009) 171-176
Gutierrez, Unified formulation to predict the tensile curve of steels with different microstructures, Materials Science Forum, 2003, 4525-4530
Online since: September 2011
Authors: Lian Fa Yang, Pan Lei, Chen Guo
Acknowledgements
This work was financially supported by the National Natural Science Foundation of China (51065006) and Guangxi Key Laboratory of manufacturing System & Advanced Manufacturing Technology (09-007-05S007 & 0842006_039_K).
Engrs., Part B: J Engineering Manufacture.
Yang: Mechanical Engineering & Automation.
Chen: Materials Science Forum.
Chen et al: Proceedings of the 3rd ICMEM International Conference on Mechanical Engineering and Mechanics.
Engrs., Part B: J Engineering Manufacture.
Yang: Mechanical Engineering & Automation.
Chen: Materials Science Forum.
Chen et al: Proceedings of the 3rd ICMEM International Conference on Mechanical Engineering and Mechanics.
Online since: June 2015
Authors: E.A. Ibragimov, E.V. Babakova, Alexandr Saprykin, D.V. Dudikhin
The company offers advanced solutions and tools for developing 3D models and their creation.
Prototypes for project evaluation and performance products by function are divided into three types: sketch, cosmetic and engineering.
Engineering prototypes are used to assess the functional suitability of the new development.
IOP Conference Series: Materials Science and Engineering. 1 (2014) 1-4
Engineering and technology. 5 (2006) 73-79 [6] S.N.
Prototypes for project evaluation and performance products by function are divided into three types: sketch, cosmetic and engineering.
Engineering prototypes are used to assess the functional suitability of the new development.
IOP Conference Series: Materials Science and Engineering. 1 (2014) 1-4
Engineering and technology. 5 (2006) 73-79 [6] S.N.
Online since: August 2018
Authors: Mohd Sobri Idris, F. A. Ismail, N.A.M. Ahmad Hambali, Rozana Aina Maulat Osman
Ahmad Hambali2,d
1CoE Frontier Materials Research, School of Material Engineering, Universiti Malaysia Perlis, 01000 Kangar, Perlis, Malaysia
2School of Microelectronic Engineering, Universiti Malaysia Perlis, 02600 Arau, Perlis, Malaysia
3School of Material Engineering, Universiti Malaysia Perlis, 02600 Arau, Perlis, Malaysia
aCorresponding author: fatinadilaismail@gmail.com, brozana@unimap.edu.my, csobri@unimap.edu.my, dazura@unimap.edu.my
Keywords: Solid State Reaction, Electrical Properties, Microstructure, Rietveld refinement analysis
Abstract.
INTRODUCTION The miniaturization of electronic devices especially the storage devices becomes important for the sake of advanced microelectronic and communication.
REFERENCES [1] Ertuğ, B, American Journal of Engineering Research, Vol. 2(8) (2013), p. 1–7 [2] Kim, Y.
Cruz, Materials Science and Engineering: B, Vol. 177(11) (2012), p. 832-837 [7] N.
Tan, Materials Science Forum, Vol. 819 (2015) [8] J.
INTRODUCTION The miniaturization of electronic devices especially the storage devices becomes important for the sake of advanced microelectronic and communication.
REFERENCES [1] Ertuğ, B, American Journal of Engineering Research, Vol. 2(8) (2013), p. 1–7 [2] Kim, Y.
Cruz, Materials Science and Engineering: B, Vol. 177(11) (2012), p. 832-837 [7] N.
Tan, Materials Science Forum, Vol. 819 (2015) [8] J.
Online since: June 2011
Authors: Ban Quan Yang, Fa Xin Li
An analytic solution for characterizing the fracture toughness of the inhomogenous coatings on substrates
Ban-Quan Yang1, 2,a and Fa-Xin Li1
1 LTCS and College of Engineering, Peking University, No. 5 Yi-He-Yuan Road, Beijing 100871, P.R.
China 2 Division of Engineering Mechanics, Department of Mechanical Engineering, Academy of Armored Force Engineering , No. 21, Du Jia Kan, Chang Xin Dian, Beijing 100072, P.R.
Introduction Coating technology in combination with the surface heat treatment is widely used in surface science and engineering [1-5].
(1) Now a thought experiment is performed: first, let the crack in the body advance by an increment Da, while the other parameters in Eq. (1) remain constant during the crack extension.
Forum Vol. 308-311(1999), p. 963
China 2 Division of Engineering Mechanics, Department of Mechanical Engineering, Academy of Armored Force Engineering , No. 21, Du Jia Kan, Chang Xin Dian, Beijing 100072, P.R.
Introduction Coating technology in combination with the surface heat treatment is widely used in surface science and engineering [1-5].
(1) Now a thought experiment is performed: first, let the crack in the body advance by an increment Da, while the other parameters in Eq. (1) remain constant during the crack extension.
Forum Vol. 308-311(1999), p. 963