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Online since: December 2012
Authors: R. Vinayagamoorthy, Tarun Thomas George, J. Venugopal, Anthony Xavior M
Experimental procedure
The target material used for the experimentation is Ti-6Al-4V.
Ghani ,International Journal of Mechanical and Materials Engineering (IJMME), Vol. 4 (2009), No. 2, 191-196 [2] X.Yang, C.R.
Liu, machining titanium and its alloys, Machining science and Tech 3(1) (1999)107-139 [3].
Liriagrity , M.Armendia , S,Marya,F,Le Maitre Machinability of titanium alloys (Ti-6al-4vand Ti555,3), Journal of Materials Processing Tech,209(5)(2009)2223-2230 [6]Experimental study on turning of TC9 titanium alloy with cold water mist jet cooling Q.L.
K., and Song, Hui. (2004) “Tool nose radius effects on finish precision turning’, Journal of Materials Processing Technology, Vol. 148, pp. 259–268
Ghani ,International Journal of Mechanical and Materials Engineering (IJMME), Vol. 4 (2009), No. 2, 191-196 [2] X.Yang, C.R.
Liu, machining titanium and its alloys, Machining science and Tech 3(1) (1999)107-139 [3].
Liriagrity , M.Armendia , S,Marya,F,Le Maitre Machinability of titanium alloys (Ti-6al-4vand Ti555,3), Journal of Materials Processing Tech,209(5)(2009)2223-2230 [6]Experimental study on turning of TC9 titanium alloy with cold water mist jet cooling Q.L.
K., and Song, Hui. (2004) “Tool nose radius effects on finish precision turning’, Journal of Materials Processing Technology, Vol. 148, pp. 259–268
Online since: October 2015
Authors: Xin Yin, Yuan Peng Liu, Min Wang
The welding material used in the experiment was GH4169 and the inertia friction welding process was employed.
Friction welding of St-Al and Al-Cu materials, Journal of materials Processing Technology, No. 49, pp. 431-443, 1995
Science Technology Publishing House, Beijing, 2003
[5] BEkir S, Yilbas et al, Investigation into the properties of friction-welded aluminium bars, Journal of materials Processing Technology,54 (1995):76-81 [6] Reber K.
Journal of materials processing technology, 2009 [8] Engin Avci, Derya Avci.
Friction welding of St-Al and Al-Cu materials, Journal of materials Processing Technology, No. 49, pp. 431-443, 1995
Science Technology Publishing House, Beijing, 2003
[5] BEkir S, Yilbas et al, Investigation into the properties of friction-welded aluminium bars, Journal of materials Processing Technology,54 (1995):76-81 [6] Reber K.
Journal of materials processing technology, 2009 [8] Engin Avci, Derya Avci.
Experimental Research on Mechanical Properties of Recycled Aggregate Concrete under Uniaxial Loading
Online since: March 2013
Authors: Mei Ling Duan, Xue Yong Zhao
Test Overview
Test Materials.
The materials which the test was used are ordinary Portland cement 42.5R which called camel, nature sand and tap water.
However, with the recycled coarse aggregate replacement increasing ,the slope of ascending curve is more and more decreased, indicating that the elastic modulus of recycled aggregate concrete reduced; the descending curve steepened, indicating that brittle materials.
Journal Of Tongji University(Natural Science), 2004, 32(12):1558 ~1561
Journal of Building Materials, 2007, 10(5):598-603.
The materials which the test was used are ordinary Portland cement 42.5R which called camel, nature sand and tap water.
However, with the recycled coarse aggregate replacement increasing ,the slope of ascending curve is more and more decreased, indicating that the elastic modulus of recycled aggregate concrete reduced; the descending curve steepened, indicating that brittle materials.
Journal Of Tongji University(Natural Science), 2004, 32(12):1558 ~1561
Journal of Building Materials, 2007, 10(5):598-603.
Online since: October 2014
Authors: Shamsuddin Sulaiman, Sai Hong Tang, Mona Kiaee, Mohammad Ali Mohammadi
The alloy which is chosen for this study is Al-Si12Fe aluminium alloy or LM6 alloy with high corrosion resistance, good hot tear resistance, good machinability, excellent pressure tightness, poor weld ability [5] specifications and Material properties (Table 1):
Table 1 Composition of LM6 Aluminium alloy
Alloy
Cu
Mg
Si
Fe
Mn
Ni
Zn
Pb
Sn
Ti
Additional
Elements
Others
LM 6
0.1
0.1
10.0 - 13.0
0.6
0.5
0.1
0.1
0.1
0.05
0.2
0.2
Simulation of Squeeze Casting Processes
The goal of simulations is to achieve an accurate model of the process so that important process variables may be identified and effectively controlled.
Journal of materials science, 1998. 33(6): p. 1579-1589
Journal of Materials Processing Technology, 2006. 180(1): p. 161-166
Niroumand, Effects of squeeze casting parameters on the microstructure of LM13 alloy. journal of materials processing technology, 2009. 209(8): p. 3790-3797
Materials & Design, 2010. 31: p.
Journal of materials science, 1998. 33(6): p. 1579-1589
Journal of Materials Processing Technology, 2006. 180(1): p. 161-166
Niroumand, Effects of squeeze casting parameters on the microstructure of LM13 alloy. journal of materials processing technology, 2009. 209(8): p. 3790-3797
Materials & Design, 2010. 31: p.
Online since: November 2012
Authors: Shuang Cheng Wei, Jia Hao Deng, Chao Han, Yu Ying Yang, Jing Cui
Co-base amorphous wire with nearly zero magnetostriction of -10-7 is one of the most typical soft magnetic materials.
The more MI ratio the stronger GMI effect of the material.
Acknowledgements This work is supported by the project of National Natural Science Foundation of China (60874100) Reference [1] Wano-Wari, Arao-Machi and Tokai-Shi;Journal of Magnetism and Magnetic Materials.
Mitra;Journal of materials processing technologh.
[5] M Ghanaatshoar, MM Yehranchi and SM Mohseni: journal of magnetism and magnetic materials.
The more MI ratio the stronger GMI effect of the material.
Acknowledgements This work is supported by the project of National Natural Science Foundation of China (60874100) Reference [1] Wano-Wari, Arao-Machi and Tokai-Shi;Journal of Magnetism and Magnetic Materials.
Mitra;Journal of materials processing technologh.
[5] M Ghanaatshoar, MM Yehranchi and SM Mohseni: journal of magnetism and magnetic materials.
Online since: July 2014
Authors: Konteti V.N.V.N. Rao, Ginka Ranga Janardhana
Supply chain management is a coordinated activity which ensures buying right material, manufacture right quantity and supply the end product in right time.
Figure.1 Categorization of disruption Disruption from the Supplier-Customer-Manufacturer J.Palombarini and E.Martinez (2012) [3]developed a repair policy for rescheduling problem due to unplanned events like arrival of rush order, raw material delay and machine break down using relational abstraction method.
Demirli (2010) [13] proposed a two phase mixed integer linear programming (MILP) model for material procurement, components fabrication product assembly and distribution scheduling of a build to order supply chain.
The second phase deals with fabrication and procurement planning of companies and raw materials.
Meixell:The impact of setup costs, commonality, and capacity on schedule stability: An Exploratory study:International Journal of Production Economics,Vol 95,(2005),p.95-107 [17]L.Liu and H.
Figure.1 Categorization of disruption Disruption from the Supplier-Customer-Manufacturer J.Palombarini and E.Martinez (2012) [3]developed a repair policy for rescheduling problem due to unplanned events like arrival of rush order, raw material delay and machine break down using relational abstraction method.
Demirli (2010) [13] proposed a two phase mixed integer linear programming (MILP) model for material procurement, components fabrication product assembly and distribution scheduling of a build to order supply chain.
The second phase deals with fabrication and procurement planning of companies and raw materials.
Meixell:The impact of setup costs, commonality, and capacity on schedule stability: An Exploratory study:International Journal of Production Economics,Vol 95,(2005),p.95-107 [17]L.Liu and H.
Online since: April 2016
Authors: K.M. Gupta, Nishu Gupta, Preeti Taivatiya, Ritu Garg
Both compounds are optically active materials.
In making pentanary alloy semiconducting materials by changing the composition of materials, the energy band gaps and lattice parameters can also be varied independently.
El Haj Hassan: First-principles calculations of the structural, electronic and optical properties of In1-xBxAsyP1-y quaternary alloys lattice matched to InP and BeS, Materials Science in Semiconductor Processing 36, (2015), 27-35
[5] Sikander Azam, Saleem Ayaz Khan, Souraya Goumri-Said in: Modified Becke–Johnson (mBJ) exchange potential investigations of the optoelectronic structure of the quaternary diamond-like semiconductors Li2CdGeS4 and Li2CdSnS4, Materials Science in Semiconductor Processing 39, (2015), 606-613
Journal of Crystal Growth, 310, (15), 3453-3458.
In making pentanary alloy semiconducting materials by changing the composition of materials, the energy band gaps and lattice parameters can also be varied independently.
El Haj Hassan: First-principles calculations of the structural, electronic and optical properties of In1-xBxAsyP1-y quaternary alloys lattice matched to InP and BeS, Materials Science in Semiconductor Processing 36, (2015), 27-35
[5] Sikander Azam, Saleem Ayaz Khan, Souraya Goumri-Said in: Modified Becke–Johnson (mBJ) exchange potential investigations of the optoelectronic structure of the quaternary diamond-like semiconductors Li2CdGeS4 and Li2CdSnS4, Materials Science in Semiconductor Processing 39, (2015), 606-613
Journal of Crystal Growth, 310, (15), 3453-3458.
Online since: May 2020
Authors: Xiao Li Xi, Li Wen Ma, Zi Jie Yang, Hui Yu, Yun He Zhang
The raw materials of this study were spent hydroprocessing catalysts provided by a certain petrochemical manufacturer in China.
μ=C·Vm·M·100% (1) where C is the ion concentration in solution, V is the solution volume, m is the raw material quality, M is the ratio of raw materials to calculated materials.
Journal of Cleaner Production, 2015, 90:388-396
Journal of Metals, 1989,41(1):54-55 [11] Marcantonio J P.
Journal of Hazardous Materials,2008,154(1-3):588-594.
μ=C·Vm·M·100% (1) where C is the ion concentration in solution, V is the solution volume, m is the raw material quality, M is the ratio of raw materials to calculated materials.
Journal of Cleaner Production, 2015, 90:388-396
Journal of Metals, 1989,41(1):54-55 [11] Marcantonio J P.
Journal of Hazardous Materials,2008,154(1-3):588-594.
Online since: March 2013
Authors: Shuang Ying Zuo, Hua Long Cai
Assume that the specification and quality characteristics of concrete materials remain unchanged.
Reference to Chen Bin’s program of Zhejiang University [3,4], a model is built and solved combined with the performance and parameter of engineering materials.
The equation is listed as follows: (4) Where, y is the performance of concrete, xi is the amount of raw materials, bi is a certain coefficient.
Journal of hydroelectric Engineering (2003,4),p. 45 (in Chinese) [4] Bin Chen, Fuqiang Li, Guohua Liu et al.
Journal of Zhejiang University (Engineering Science), Vol.39(2005,1),p. 16 (in Chinese) [5] JGJ55-2000.
Reference to Chen Bin’s program of Zhejiang University [3,4], a model is built and solved combined with the performance and parameter of engineering materials.
The equation is listed as follows: (4) Where, y is the performance of concrete, xi is the amount of raw materials, bi is a certain coefficient.
Journal of hydroelectric Engineering (2003,4),p. 45 (in Chinese) [4] Bin Chen, Fuqiang Li, Guohua Liu et al.
Journal of Zhejiang University (Engineering Science), Vol.39(2005,1),p. 16 (in Chinese) [5] JGJ55-2000.
Online since: March 2019
Authors: Hassan Mas Ayu, Wan Sharuzi Wan Harun, Juliawati Alias
Mas Ayu3,c
1Structural Materials and Degradation Focus Group, Faculty of Mechanical Engineering, Universiti Malaysia Pahang, 26600, PEKAN, PAHANG, MALAYSIA
2Green Research for Advanced Materials Laboratory, Human Engineering Group, Faculty of Mechanical Engineering, Universiti Malaysia Pahang, 26600, PEKAN, PAHANG, MALAYSIA
3Manufacturing Focus Group, Faculty of Mechanical Engineering, Universiti Malaysia Pahang, 26600, PEKAN, PAHANG, MALAYSIA
ajuliawati@ump.edu.my, bsharuzi@ump.edu.my, cmasszee@ump.edu.my
Keywords: Powder metallurgy; Magnesium alloys; Sintering; Mechanical properties; Grain refinement
Abstract.
Porous PM materials are commonly sintered to densities between 25 and 85% of theoretical mean density (TMD), while structural PM parts are typically 85–99.9% of TMD.
Author Year Journals Alloys Powder Metallurgy Route Finding References Garces et al. 2006 Journal of Alloys and Compound AZ92 Milling – cold compacted up to 340 MPa – extrusion · Increase extrusion temperature, increase the yield stress and distribution of particles [9] Xie et al. 2007 Journal of Alloys and Compound Mg–9Al and SiC composite Mixing – press at 400 MPa – liquid phase sintering (470°C) and solid phase sintering (427°C) · Composite produced by solid phase sintering has higher strength than produced by liquid phase sintering associated with the existence of second phase particle, Mg17Al12 [10] Sheng et al. 2009 Journal of Alloys and Compounds AZ91 Rapid solidification (800°C)-press (300°C) - extrusion (400°C) · Si increase elevated temperature and tensile properties [11] Aghion et al. 2014 Materials Characterization Mg-Zr-Nd-Y (MRI 201S) High speed milling – press up to 25T – sintering (150°C, 500°C ~ 640°C) · Greater porosity
Judson Durai et al. 2017 International Journal of Mechanical and Production Engineering Research and Development Mg-Zr Milling - compacting press (690 MPa) - sintering (450°C, 500°C, 550°C) · Increase sintering temperature led to reduction in porosity form and increase in tensile strength [15] Legan Houa et al. 2017 Journal of Materials Science & Technology Mg-Al-Ni Mixing - pressing (25 MPa, 450°C, 30 min)-sintering (600°C for 20 min) · Formation of Al3Ni2 particle at grain boundary, nano-precipitate AlNi · Strength improve with Ni [16] D.
(Sciences Eng. 59, (2012) 159–168
Porous PM materials are commonly sintered to densities between 25 and 85% of theoretical mean density (TMD), while structural PM parts are typically 85–99.9% of TMD.
Author Year Journals Alloys Powder Metallurgy Route Finding References Garces et al. 2006 Journal of Alloys and Compound AZ92 Milling – cold compacted up to 340 MPa – extrusion · Increase extrusion temperature, increase the yield stress and distribution of particles [9] Xie et al. 2007 Journal of Alloys and Compound Mg–9Al and SiC composite Mixing – press at 400 MPa – liquid phase sintering (470°C) and solid phase sintering (427°C) · Composite produced by solid phase sintering has higher strength than produced by liquid phase sintering associated with the existence of second phase particle, Mg17Al12 [10] Sheng et al. 2009 Journal of Alloys and Compounds AZ91 Rapid solidification (800°C)-press (300°C) - extrusion (400°C) · Si increase elevated temperature and tensile properties [11] Aghion et al. 2014 Materials Characterization Mg-Zr-Nd-Y (MRI 201S) High speed milling – press up to 25T – sintering (150°C, 500°C ~ 640°C) · Greater porosity
Judson Durai et al. 2017 International Journal of Mechanical and Production Engineering Research and Development Mg-Zr Milling - compacting press (690 MPa) - sintering (450°C, 500°C, 550°C) · Increase sintering temperature led to reduction in porosity form and increase in tensile strength [15] Legan Houa et al. 2017 Journal of Materials Science & Technology Mg-Al-Ni Mixing - pressing (25 MPa, 450°C, 30 min)-sintering (600°C for 20 min) · Formation of Al3Ni2 particle at grain boundary, nano-precipitate AlNi · Strength improve with Ni [16] D.
(Sciences Eng. 59, (2012) 159–168