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Online since: August 2013
Authors: Xue Gong Huang, Guang Hui Li, Xiao Yu Gu, Jiong Wang
As a new type of smart materials, the fabrication method of the MRE is still non-unified by now.
Fabrication of MRE Samples Choice of Preparation Materials.
Dynamic Characterization and modeling of magnetorhcological elastomers under compressive loading [J].Smart Materials and Structures.
Journal of Tsinghua University(Natural Science), 2010,50(2):246-249 [7]Wei B, Gong X L, Jiang W Q.
Journal of Functional Materials. 2012,3(43):360-362.References的格式与模板的格式不同,建议按照模板重新排版。
Fabrication of MRE Samples Choice of Preparation Materials.
Dynamic Characterization and modeling of magnetorhcological elastomers under compressive loading [J].Smart Materials and Structures.
Journal of Tsinghua University(Natural Science), 2010,50(2):246-249 [7]Wei B, Gong X L, Jiang W Q.
Journal of Functional Materials. 2012,3(43):360-362.References的格式与模板的格式不同,建议按照模板重新排版。
Online since: December 2012
Authors: D. Shanmugasundaram, L. Poovazhagan, Kalaichelvan Kani
Experimental Set Up and Procedure
Materials for Experiments.
In order to reduce the casting defects; the composite materials were subjected to hot rolling process at 4000C.
Different weight percentage of Al 6061- SiCp composite materials were fabricated by ultrasonic cavitation method and the fabricated materials were subjected to hot rolling process to reduce the casting defects.
References [1] J.Hashim, L.Looney, & M.S.J.Hashmi; Metal Matrix Ccomposites-Production by stir casting method, Journal of material processing technology, Vol. 92-93, p.1-7, (1999) [2] J.Hashim, L.Looney, & M.S.J.Hashmi; The enhancement of wettability of SiC particles in cast Al-matrix composites, Journal of material processing technology, Vol.119, p.329-335, (2001) [3] J.Hashim, L.Looney, & M.S.J.Hashmi; Wettability of SiC particles by molten Al-alloy, Journal of material processing technology, Vol.119, p.324-328, (2001) [4] J.Hashim, L.Looney, & M.S.J.Hashmi; Particle distribution in cast MMC-Part I, Journal of material processing technology, Vol.123, p.251-257, ( 2002) [5] Y.Sahin; Preparation and some properties of SiC particle reinforced aluminium alloy composites, Materials & Design, Vol.24, p.671-679, (2003) [6] Yong Yang, Jie Lan & Xiaochun Li, Study on bulk aluminum matrix nano-composite fabricated by ultrasonic dispersion of nano-sized SiC particles in molten aluminum alloy
, Materials Science and Engineering A, Vol.380, p.378–383, (2004) [7] Yong yang & Xiaochun Li et al; Ultrasonic cavitation based manufacturing of bulk Al matrix nanocomposites, Journal of Manufacturing Science and Engineering, Vol.129, p.497-501, (2007) [8] Yong yang & X.Li; An experimental determination of optimum processing parameters for Al/SiC metal matrix composites made using ultrasonic consolidation, Journal of Engineering materials and technology, Vol.129, p.538-549, (2007) [9] G.Cao, H.Konishi & X.Li; Recent developments on ultrasonic cavitations based solidification processing of bulk magnesium nanocomposites, International journal of metal casting, winter- 08, p.57-68, (2008)
In order to reduce the casting defects; the composite materials were subjected to hot rolling process at 4000C.
Different weight percentage of Al 6061- SiCp composite materials were fabricated by ultrasonic cavitation method and the fabricated materials were subjected to hot rolling process to reduce the casting defects.
References [1] J.Hashim, L.Looney, & M.S.J.Hashmi; Metal Matrix Ccomposites-Production by stir casting method, Journal of material processing technology, Vol. 92-93, p.1-7, (1999) [2] J.Hashim, L.Looney, & M.S.J.Hashmi; The enhancement of wettability of SiC particles in cast Al-matrix composites, Journal of material processing technology, Vol.119, p.329-335, (2001) [3] J.Hashim, L.Looney, & M.S.J.Hashmi; Wettability of SiC particles by molten Al-alloy, Journal of material processing technology, Vol.119, p.324-328, (2001) [4] J.Hashim, L.Looney, & M.S.J.Hashmi; Particle distribution in cast MMC-Part I, Journal of material processing technology, Vol.123, p.251-257, ( 2002) [5] Y.Sahin; Preparation and some properties of SiC particle reinforced aluminium alloy composites, Materials & Design, Vol.24, p.671-679, (2003) [6] Yong Yang, Jie Lan & Xiaochun Li, Study on bulk aluminum matrix nano-composite fabricated by ultrasonic dispersion of nano-sized SiC particles in molten aluminum alloy
, Materials Science and Engineering A, Vol.380, p.378–383, (2004) [7] Yong yang & Xiaochun Li et al; Ultrasonic cavitation based manufacturing of bulk Al matrix nanocomposites, Journal of Manufacturing Science and Engineering, Vol.129, p.497-501, (2007) [8] Yong yang & X.Li; An experimental determination of optimum processing parameters for Al/SiC metal matrix composites made using ultrasonic consolidation, Journal of Engineering materials and technology, Vol.129, p.538-549, (2007) [9] G.Cao, H.Konishi & X.Li; Recent developments on ultrasonic cavitations based solidification processing of bulk magnesium nanocomposites, International journal of metal casting, winter- 08, p.57-68, (2008)
Online since: January 2013
Authors: Shu De Luo, Yu Jiao Xu
On one hand, it greatly reduces the conditions water pressure, on the other hand, it offsets the cutting shortage of pure water jet, and it is mainly used in cutting hard materials.
Some related studies indicate that it can cut more than 500 kinds of materials.
It can be used to cut marble, granite, ceramic, glass, cement component, etc, in the construction industry; to cut special materials (such as titanium alloy, carbon fire composite, laminated metal or reinforced plastic glass), plane blades, etc, in the aerospace industry; to cut a variety of non-metallic materials and composite materials, such as car glass, internal decoration board, rubber, plastic gas box, instrument panels, carpet, asbestos brake linings, etc, in the automobile manufacturing industry; to cut a variety of tank armor plate, crawler, bulletproof glass, car body, turret, firearms, etc, in ordnance industry; to cut something that hard to be cut such as abrasion resistant white iron castings [6].
J. (1963) [3] Stoff H: submitted to Journal of Fluid Mechanics (1980) [4] G.S.
Wang etc: submitted to Journal of PLA University of Science and Technology (2006) [5] B.
Some related studies indicate that it can cut more than 500 kinds of materials.
It can be used to cut marble, granite, ceramic, glass, cement component, etc, in the construction industry; to cut special materials (such as titanium alloy, carbon fire composite, laminated metal or reinforced plastic glass), plane blades, etc, in the aerospace industry; to cut a variety of non-metallic materials and composite materials, such as car glass, internal decoration board, rubber, plastic gas box, instrument panels, carpet, asbestos brake linings, etc, in the automobile manufacturing industry; to cut a variety of tank armor plate, crawler, bulletproof glass, car body, turret, firearms, etc, in ordnance industry; to cut something that hard to be cut such as abrasion resistant white iron castings [6].
J. (1963) [3] Stoff H: submitted to Journal of Fluid Mechanics (1980) [4] G.S.
Wang etc: submitted to Journal of PLA University of Science and Technology (2006) [5] B.
Online since: July 2014
Authors: N. Rajesh Jesudoss Hynes, P. Thanga Kumar, P. Nagaraj
Abstract: Friction plug welding, a recent variation of friction welding is a process of joining of two similar or dissimilar materials.
Heat flux generation at intermediate surface is computed due to friction between the materials considering the co-efficient of friction.
Pre-heating of materials is varied in the certain range to find its effect on the temperature profile in the work piece.
Angela Jennifa Sujana, Numerical Simulation of Heat Flow in Friction Stud Welding of Dissimilar Metals, Arabian Journal for Science and Engineering, DOI 10.1007/s13369-013-0932-3
Meby Selvaraj, Finite element based thermal modelling of friction welding of dissimilar materials, International Journal of Modern Physics. 22 (2013) 196–202
Heat flux generation at intermediate surface is computed due to friction between the materials considering the co-efficient of friction.
Pre-heating of materials is varied in the certain range to find its effect on the temperature profile in the work piece.
Angela Jennifa Sujana, Numerical Simulation of Heat Flow in Friction Stud Welding of Dissimilar Metals, Arabian Journal for Science and Engineering, DOI 10.1007/s13369-013-0932-3
Meby Selvaraj, Finite element based thermal modelling of friction welding of dissimilar materials, International Journal of Modern Physics. 22 (2013) 196–202
Online since: September 2014
Authors: Janusz Porzycki, Roman Wdowik, Marek Magdziak
Introduction
Hybrid machining processes are applied for machining of hard to machine materials, e.g. ceramic materials.
[4] Ultrasonic Assisted Grinding of brittle hard materials.
Loenders: Investigation of the Process-Material Interaction in Ultrasonic Assisted Grinding of ZrO2 based Ceramic Materials.
World Academy of Science, Engineering and Technology, 41, 2008, 785-789
Journal of Materials Processing Technology, 209, 2009, 32-37.
[4] Ultrasonic Assisted Grinding of brittle hard materials.
Loenders: Investigation of the Process-Material Interaction in Ultrasonic Assisted Grinding of ZrO2 based Ceramic Materials.
World Academy of Science, Engineering and Technology, 41, 2008, 785-789
Journal of Materials Processing Technology, 209, 2009, 32-37.
Online since: November 2015
Authors: Mohd Mustafa Al Bakri Abdullah, Yun Ming Liew, Kamarudin Hussin, Muhammad Faheem Mohd Tahir, Alida Abdullah, Che Mohd Ruzaidi Ghazali
Experimental Method
Materials.
Journal of Material Education, 1994. 16: p. 91-139
Advanced Materials Research, 2012. 341-342: p. 189-193
Construction and Building Materials, 2012. 30: p. 794-802
Construction and Building Materials, 2012. 35: p. 912-992
Journal of Material Education, 1994. 16: p. 91-139
Advanced Materials Research, 2012. 341-342: p. 189-193
Construction and Building Materials, 2012. 30: p. 794-802
Construction and Building Materials, 2012. 35: p. 912-992
Online since: May 2012
Authors: Naseer Ahmed, Yasir Maqbool Shariff, Riaz Muhammad, Vadim V. Silberschmidt
However, those materials are extremely difficult to machine with conventional machining methods.
Silberschmidt, Analysis of material response to ultrasonic vibration loading in turning Inconel 718, Materials Science and Engineering A. 424 (2006) 318-325
Dargusch, Thermally enhanced machining of hard-to-machine materials-A review, International Journal of Machine Tools and Manufacture. 50 (2010) 663-680
Ni, A model for predicting the heat flow into the workpiece in dry drilling, Journal of Manufacturing Science and Engineering. 124 (2002) 773-777
Elharif, Numerical simulation of orthogonal cutting by incremental elsto-plastic analysis and finite element methods, Journal of Materials Processing Technology. 141 (2003) 181-188
Silberschmidt, Analysis of material response to ultrasonic vibration loading in turning Inconel 718, Materials Science and Engineering A. 424 (2006) 318-325
Dargusch, Thermally enhanced machining of hard-to-machine materials-A review, International Journal of Machine Tools and Manufacture. 50 (2010) 663-680
Ni, A model for predicting the heat flow into the workpiece in dry drilling, Journal of Manufacturing Science and Engineering. 124 (2002) 773-777
Elharif, Numerical simulation of orthogonal cutting by incremental elsto-plastic analysis and finite element methods, Journal of Materials Processing Technology. 141 (2003) 181-188
Online since: August 2011
Authors: Shang Qi Zhou, Ji Lan Kong, Hui Li
:Welding Journal (Miami, Fla) Vol. 86(2007),p. 205
,Celikyurek I.: Kovove Materialy-Metallic Materials Vol. 47(2009),p. 263
[6] Shiquan Zhou,Hong Zhao,Qiang Dong:Materials Science Forum Vol. 539-543(2007), p. 4042
:Materials Science Forum Vol. 514-516 (2006), p. 1526
:Journal of Materials Science Vol. 42(2009), p. 5692
,Celikyurek I.: Kovove Materialy-Metallic Materials Vol. 47(2009),p. 263
[6] Shiquan Zhou,Hong Zhao,Qiang Dong:Materials Science Forum Vol. 539-543(2007), p. 4042
:Materials Science Forum Vol. 514-516 (2006), p. 1526
:Journal of Materials Science Vol. 42(2009), p. 5692
Online since: September 2023
Authors: A. Karpagaraj, D. Vinoth Kumar, S. Gejendhiran
Journal of Materials Science and Technology, 96, 248–261. https://doi.org/10.1016/j.jmst.2021.03.086
[7] Hung Tra, T., & Sakaguchi, M. (2016).
Journal of Science: Advanced Materials and Devices, 1(4), 501–506. https://doi.org/10.1016/j.jsamd.2016.08.009 [8] Anandaraj, J.
Materials Science and Engineering A, 799 (August 2020), 140262. https://doi.org/10.1016/j.msea.2020.140262 [12] Hu, Y., Wu, L., Zhou, P., Ye, Y., & Wang, B. (2021).
Journal of Materials Research and Technology, 11, 1206–1219. https://doi.org/10.1016/j.jmrt.2021.01.115 [16] Xu, X., Ganguly, S., Ding, J., Seow, C.
Journal of Materials Research and Technology, 9(6), 15023–15033. https://doi.org/10.1016/j.jmrt.2020.10.098 [20] Kumar, S., Pandey, C., & Goyal, A. (2021).
Journal of Science: Advanced Materials and Devices, 1(4), 501–506. https://doi.org/10.1016/j.jsamd.2016.08.009 [8] Anandaraj, J.
Materials Science and Engineering A, 799 (August 2020), 140262. https://doi.org/10.1016/j.msea.2020.140262 [12] Hu, Y., Wu, L., Zhou, P., Ye, Y., & Wang, B. (2021).
Journal of Materials Research and Technology, 11, 1206–1219. https://doi.org/10.1016/j.jmrt.2021.01.115 [16] Xu, X., Ganguly, S., Ding, J., Seow, C.
Journal of Materials Research and Technology, 9(6), 15023–15033. https://doi.org/10.1016/j.jmrt.2020.10.098 [20] Kumar, S., Pandey, C., & Goyal, A. (2021).
Online since: May 2020
Authors: S.M. Rakhimbaev, A.A. Logvinenko, M.I. Logvinenko
Ahmad, Production of High-Performance Silica Fume Concrete, American Journal of Applied Sciences. 14 (11) (2017) 1031-1038
Zajcevet, Effective Fine-Grained Concrete with High-Dispersed Additive Based on the Natural Mineral Wollastonite, Materials Science Forum. 945 (2019) 85-90
Nehdi, Effect of Natural Wollastonite Microfibers on Early-Age Behavior of UHPC, Journal of Materials in Civil Engineering. 24(7) (2012) 816-824
Kaftaeva, On the influence of the shape of a cement ring on its own deformations and stresses, Journal Building Materials. 9 (2009) 91-92
Materials Science Forum. 945 (2019) 771-775.
Zajcevet, Effective Fine-Grained Concrete with High-Dispersed Additive Based on the Natural Mineral Wollastonite, Materials Science Forum. 945 (2019) 85-90
Nehdi, Effect of Natural Wollastonite Microfibers on Early-Age Behavior of UHPC, Journal of Materials in Civil Engineering. 24(7) (2012) 816-824
Kaftaeva, On the influence of the shape of a cement ring on its own deformations and stresses, Journal Building Materials. 9 (2009) 91-92
Materials Science Forum. 945 (2019) 771-775.