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Online since: April 2013
Authors: Shailendra Kumar, Vishal Naranje
Choi, A study on the computer-aided process design system of axisymmetric deep drawing products, Journal of Materials Processing Technology, Vol. 75 (1998), p. 17-26
[5] S.
Altan, A knowledge base system for process sequence design in axisymmetric sheet metal forming, Journal of Materials Processing Technology, Vol. 25 (1991), p. 247-271 [6] M.
Tisza, Expert systems for metal forming, Journal of Materials Processing Technology, Vol. 53 (1995), p.423-432 [8] S.
Chung, Application of intelligent design support system for multi-step deep drawing process, Journal of Materials Processing Technology.
Singh, A low cost knowledge base system framework for progressive die design’, Journal of Material Processing Technology, Journal of Materials Processing Technology, Vol. 153-154 (2004), p.958-964 [16] J.
Altan, A knowledge base system for process sequence design in axisymmetric sheet metal forming, Journal of Materials Processing Technology, Vol. 25 (1991), p. 247-271 [6] M.
Tisza, Expert systems for metal forming, Journal of Materials Processing Technology, Vol. 53 (1995), p.423-432 [8] S.
Chung, Application of intelligent design support system for multi-step deep drawing process, Journal of Materials Processing Technology.
Singh, A low cost knowledge base system framework for progressive die design’, Journal of Material Processing Technology, Journal of Materials Processing Technology, Vol. 153-154 (2004), p.958-964 [16] J.
Online since: April 2013
He
has authored more than 400 journal and conference papers.
Eng, MCIRP, MJSPE, MIEE, MSME, MASME, MIES RESEARCH INTERESTS Miniature machine tools for micro/nano machining, Ultra precision/highspeed machining of MEMS, dies and aero-space materials, Nano Finishing of Hard Materials Using ELID Grinding PUBLICATIONS Published 240 papers of which 125 are in international refereed journals, 4 in local refereed journals, 11 are in non-refereed journals and 100 are in conferences.
Mohd Noh Bin Dalimin Vice Chancellor Universiti Tun Hussein Onn Malaysia Contact: +607 4537001 E-mail: noh@uthm.edu.my Professor Dato' Mohd Noh Dalimin is a Professor of Physics (Energy and Materials) and a Vice-Chancellor of Universiti Tun Hussein Onn Malaysia (UTHM), a public university in Malaysia since October, 2008.
QUALIFICATIONS BSc (Gadjah Mada), MSc PhD (London), DIC (Imperial College), DSDK, PGDK, ASDK, RESEARCH INTERESTS His research interest is in experimental solid state physics, materials, renewable energy, environmental sciences, and community engagement.
TRCS is principally an investment holding company while the principal activities of its subsidiary companies are construction, manufacturing of construction materials and property development.
Eng, MCIRP, MJSPE, MIEE, MSME, MASME, MIES RESEARCH INTERESTS Miniature machine tools for micro/nano machining, Ultra precision/highspeed machining of MEMS, dies and aero-space materials, Nano Finishing of Hard Materials Using ELID Grinding PUBLICATIONS Published 240 papers of which 125 are in international refereed journals, 4 in local refereed journals, 11 are in non-refereed journals and 100 are in conferences.
Mohd Noh Bin Dalimin Vice Chancellor Universiti Tun Hussein Onn Malaysia Contact: +607 4537001 E-mail: noh@uthm.edu.my Professor Dato' Mohd Noh Dalimin is a Professor of Physics (Energy and Materials) and a Vice-Chancellor of Universiti Tun Hussein Onn Malaysia (UTHM), a public university in Malaysia since October, 2008.
QUALIFICATIONS BSc (Gadjah Mada), MSc PhD (London), DIC (Imperial College), DSDK, PGDK, ASDK, RESEARCH INTERESTS His research interest is in experimental solid state physics, materials, renewable energy, environmental sciences, and community engagement.
TRCS is principally an investment holding company while the principal activities of its subsidiary companies are construction, manufacturing of construction materials and property development.
Online since: October 2013
Authors: Yuan Dong Li, Ying Ma, Ming Tao He, Jiang Long Suo, Shao Hua Hu
Nafisi, et al: Journal of Materials Processing Technology, vol. 174(2006), p. 371-383
Apelian: Journal of Metals, vol. 32(1980), p. 28-34
Lasa, et al: Materials Science and Engineering A, vol. 363(2003), p.193-202
Prasad, et al: Journal of Materials Science Letters, vol. 15(1996), p. 1773-1776
Sharif: Journal of Materials Processing Technology, vol. 118(2001), p. 69-73
Apelian: Journal of Metals, vol. 32(1980), p. 28-34
Lasa, et al: Materials Science and Engineering A, vol. 363(2003), p.193-202
Prasad, et al: Journal of Materials Science Letters, vol. 15(1996), p. 1773-1776
Sharif: Journal of Materials Processing Technology, vol. 118(2001), p. 69-73
Online since: August 2013
Authors: Ren Jie Dong, Shu Biao Wu, Chang Le Pang, Xiao Qian Zhang, Ying Hua Qu
Among the materials that can be alternatives for peat, solid digestate derived from biogas plants, could be a new and promising choose.
Materials and Methods 1.
Analytical methods The physical properties of the substrate materials were determined using procedures described by Spomer [17].
Journal of the American Society for Horticultural Science, 122(3): 427-432
Procedia Environmental Sciences, 11: 1092-1099
Materials and Methods 1.
Analytical methods The physical properties of the substrate materials were determined using procedures described by Spomer [17].
Journal of the American Society for Horticultural Science, 122(3): 427-432
Procedia Environmental Sciences, 11: 1092-1099
Online since: September 2011
Authors: Si Chen, Zhong Liang Chang, Guang Ping Zou, Liang Chen
The CBF composite materials inevitably occur all kinds of defects during fabrication and using, such as fiber breakage, crack, bubble and delamination.
The internal fibers of materials are fully on elastic stage.
Ordnance Material Science and Engineering,Vol.32 (2009),p.51-53
Journal of Textile Research, Vol.28(2007),p. 52-55
Journal of Harbin Engineering University Vol. 30 (2009),p.357-361.
The internal fibers of materials are fully on elastic stage.
Ordnance Material Science and Engineering,Vol.32 (2009),p.51-53
Journal of Textile Research, Vol.28(2007),p. 52-55
Journal of Harbin Engineering University Vol. 30 (2009),p.357-361.
Online since: March 2018
Authors: Feng Qiang Nan, Yi Liang, Chun Jiu Zhu
Finite element simulation of seven-hole propellant extrusion and the optimization of die compression ratio[J].Advanced materials research , Vol.11 (2014) pp2373-2377
Chinese Journal of Energetic Materials, Vol.18 (2010)pp583-586
Numerical simulation and verification of porous nitroguanidine gun propellant extrusion [J].Chinese Journal of Energetic Materials, Vol. 2(2017) pp106-112
Polymer Engineering & Science, Vol.46(2010) pp1204-1214
Journal of
Chinese Journal of Energetic Materials, Vol.18 (2010)pp583-586
Numerical simulation and verification of porous nitroguanidine gun propellant extrusion [J].Chinese Journal of Energetic Materials, Vol. 2(2017) pp106-112
Polymer Engineering & Science, Vol.46(2010) pp1204-1214
Journal of
Online since: June 2014
Authors: Sharifah Bee Abdul Hamid, Noorhana Yahya, Mohamad Sahban Alnarabiji, Muhammad Kashif, Khairun Azizi Azizli, Saima Qureshi, Bilal Alqasem
This was due to the fact that no organic materials were used in the synthesizing method.
Xue, Formation of Nb2O5 Nanotube Arrays Through Phase Transformation, Advanced Materials. 20 (2008) 1055-1058
Ristic, Evolution of the microstructure of disperse Zinc-oxide during tribophysical activation, Journal of materials science. 34 (1999) 1691-1697
Imai, Growth conditions for wurtzite zinc oxide films in aqueous solutions, Journal of materials chemistry. 12 (2002) 3773-3778
Maffeis, The effect of metal layers on the morphology and optical properties of hydrothermally grown zinc oxide nanowires, Journal of Materials Science. (2013) 1-6
Xue, Formation of Nb2O5 Nanotube Arrays Through Phase Transformation, Advanced Materials. 20 (2008) 1055-1058
Ristic, Evolution of the microstructure of disperse Zinc-oxide during tribophysical activation, Journal of materials science. 34 (1999) 1691-1697
Imai, Growth conditions for wurtzite zinc oxide films in aqueous solutions, Journal of materials chemistry. 12 (2002) 3773-3778
Maffeis, The effect of metal layers on the morphology and optical properties of hydrothermally grown zinc oxide nanowires, Journal of Materials Science. (2013) 1-6
Online since: July 2015
Authors: Lan Fang Jiang, Jie Gang Mou, Shui Hua Zheng, Deng Hao Wu, Tian Xing Fan, Yunqing Gu
Bushnell etc [48] found that using intelligent materials and flow control technology can effectively realize drag reduction method of shock wave interference.
Acknowledge Project supported by the National Natural Science Foundation of China (Grant No. 51476144), and supported by the Zhejiang Provincial Natural Science Foundation of China (Grant No.
Science in China Ser.
Aerospace Science and Technology, 2006, 10(5), p 385-393
AIAA Journal, 1999, 37(4), p 460-467
Acknowledge Project supported by the National Natural Science Foundation of China (Grant No. 51476144), and supported by the Zhejiang Provincial Natural Science Foundation of China (Grant No.
Science in China Ser.
Aerospace Science and Technology, 2006, 10(5), p 385-393
AIAA Journal, 1999, 37(4), p 460-467
Online since: March 2012
Authors: Xi Sheng Li, Xiao Juan Zhang, Yi Bo Feng
Hard magnetic materials and soft magnetic materials which are distinguished by the material and the relative position to the DMC compose the ferromagnetic materials.
Hard magnetic materials are always the electric equipments or ferromagnetic materials with high coercivity, whose strength and relative position to the DMC are invariable.
Soft magnetic materials have low coercivity, and their strength and relative position to the DMC are variable.
The research on ferromagnetic materials indicates that hard magnetic materials make the centre of the circle move a constant value from the origin; soft magnetic materials change the circle to an ellipse whose axis has an included angle to the circle’s, and this included angle is related to the strength of soft magnetic materials.
After analysis, the interference caused by hard magnetic materials has a sine relationship with: The interference caused by soft magnetic materials has a sine relationship withand a constant error: So compass error is known as .
Hard magnetic materials are always the electric equipments or ferromagnetic materials with high coercivity, whose strength and relative position to the DMC are invariable.
Soft magnetic materials have low coercivity, and their strength and relative position to the DMC are variable.
The research on ferromagnetic materials indicates that hard magnetic materials make the centre of the circle move a constant value from the origin; soft magnetic materials change the circle to an ellipse whose axis has an included angle to the circle’s, and this included angle is related to the strength of soft magnetic materials.
After analysis, the interference caused by hard magnetic materials has a sine relationship with: The interference caused by soft magnetic materials has a sine relationship withand a constant error: So compass error is known as .
Online since: November 2012
Authors: Eszter Bognár, Anna Kertész, Tamás Micsik, László Dévényi
Stent fracture analysis
Anna Kertész1,a, Eszter Bognár1,b, Tamás Micsik2,c, László Dévényi1,d
1BME, Dept. of Materials Science and Engineering.
- X-ray microscope investigations: to identify inner material failures
All three base materials were 316L type austenitic stainless steel.
Journal of the American College of Cardiology. 2009; 54:1949-1959
Journal of the American College of Cardiology. 2009; 54:1924-1931
- X-ray microscope investigations: to identify inner material failures
All three base materials were 316L type austenitic stainless steel.
Journal of the American College of Cardiology. 2009; 54:1949-1959
Journal of the American College of Cardiology. 2009; 54:1924-1931