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Online since: August 2011
Authors: Chuan Zhen Huang, Han Lian Liu, Bin Zou, Ming Hong
Theses tool materials were identified as TA, TA10A5 and TA30A5 respectively in this study.
Experimental Design of Cutting Tool Materials.
The compositions of the designed materials for comparison are shown in Table 1.
Mechanical properties of all tool materials are shown in Table 2.
Cut performance comparison of all four tested materials was shown in Fig.1.
Experimental Design of Cutting Tool Materials.
The compositions of the designed materials for comparison are shown in Table 1.
Mechanical properties of all tool materials are shown in Table 2.
Cut performance comparison of all four tested materials was shown in Fig.1.
Online since: May 2015
Authors: Bachir Glaoui, M'hammed Merbouh
Experimentation
Materials.
Asi : Use of Selected Waste Materials in Concrete Mixes, International Journal Waste Management, Science Direct, Elsevier, Vol.27 2007, 1870- 1878
K.: Fibre Reinforced Concrete Using Domestic Waste Plastics as Fibres, Vol. 6, N°. 3, ISSN 1819-6608 ARPN Journal of Engineering and Applied Sciences Asian Research Publishing Network, March 2011
Rabehi: Strength and Durability of Mortar Made with Plastics Bag Waste (MPBW), International Journal of Concrete Structures and Materials, Vol.6, No.3, September 2012, pp.145–153
Shyam C.: A Study of Sustainable Industrial Waste Materials as Partial Replacement of Cement, IACSIT Coimbatore Conferences IPCSIT, Vol. 28, 2012, IACSIT Press, Singapore.
Asi : Use of Selected Waste Materials in Concrete Mixes, International Journal Waste Management, Science Direct, Elsevier, Vol.27 2007, 1870- 1878
K.: Fibre Reinforced Concrete Using Domestic Waste Plastics as Fibres, Vol. 6, N°. 3, ISSN 1819-6608 ARPN Journal of Engineering and Applied Sciences Asian Research Publishing Network, March 2011
Rabehi: Strength and Durability of Mortar Made with Plastics Bag Waste (MPBW), International Journal of Concrete Structures and Materials, Vol.6, No.3, September 2012, pp.145–153
Shyam C.: A Study of Sustainable Industrial Waste Materials as Partial Replacement of Cement, IACSIT Coimbatore Conferences IPCSIT, Vol. 28, 2012, IACSIT Press, Singapore.
Online since: July 2014
Authors: Nallavelli Ramesh, K. Palaksha Reddy
The heat generated between the contacting surfaces of the tool, in addition to the heat generated by the mechanical mixing process and the adiabatic heat within the material, cause the stirred materials to soften and quickly raises the temperature of the material being joined to its plasticizing temperature.
[4] R.Nandan,T.Debroy,H.K.D.H.Bhadeshia, “Recent advances in friction stir welding—process, weldments structure and properties”, Progress in Materials Science 53(6) 980–1023,2008 [5] Rajakumar S, Muralidharan C, Balasubramanian V.
“Influence of friction stir welding process and tool parameters on strength properties of AA 7075-T6 aluminum alloy joints,2011 [6] Mishra R.S., Ma Z.Y “Friction stir welding and processing”, Materials Science and Engineering R50: pp 1–78. 2005, [7] K.
Kailas, “The role of friction stir welding tools on material flow and weld formation”, Material science and engineering pp 367-374,2008 [8] G.M.Xie, Z.y.Ma.
Z.A.Luo, P.Xue and G.D.Wangm, “Effect of Rotation Rate on microstructures and mechanical properties of FSW Mg-Zn-Y-Zr Alloy Joints”, Journal of Material Science Technology 27(12),1157-1164 ,2011 [9] Pasquale Cavaliere, “Friction stir welding of Al alloys: analysis processing parameters affecting mechanical behavior”, procedia CIRP 11 pp 139-144,2013 [10] L.
[4] R.Nandan,T.Debroy,H.K.D.H.Bhadeshia, “Recent advances in friction stir welding—process, weldments structure and properties”, Progress in Materials Science 53(6) 980–1023,2008 [5] Rajakumar S, Muralidharan C, Balasubramanian V.
“Influence of friction stir welding process and tool parameters on strength properties of AA 7075-T6 aluminum alloy joints,2011 [6] Mishra R.S., Ma Z.Y “Friction stir welding and processing”, Materials Science and Engineering R50: pp 1–78. 2005, [7] K.
Kailas, “The role of friction stir welding tools on material flow and weld formation”, Material science and engineering pp 367-374,2008 [8] G.M.Xie, Z.y.Ma.
Z.A.Luo, P.Xue and G.D.Wangm, “Effect of Rotation Rate on microstructures and mechanical properties of FSW Mg-Zn-Y-Zr Alloy Joints”, Journal of Material Science Technology 27(12),1157-1164 ,2011 [9] Pasquale Cavaliere, “Friction stir welding of Al alloys: analysis processing parameters affecting mechanical behavior”, procedia CIRP 11 pp 139-144,2013 [10] L.
Online since: September 2013
Authors: Johny Wahyuadi Soedarsono, R.I. Pramana, R. Kusumastuti, A. Rustandi
Materials
The chemical composition of LCS is as followed (wt%): 0.06% C, 0.004% Si, 0.289% Mn, 0.017% Cr, 0.055% Cu, 0.024% Ni, 0.017% S, 0.008% P.
Advanced Materials Research 383-390(2012): 5418-5425
Sethuraman, Natural Products as Corrosion Inhibitor for Metals in Corrosive Media - a Review, Materials Letters 62(2008): 113-116
El-Etre, Inhibition of Acid Corrosion of Carbon Steel Using Aqueous Extract of Olive Leaves, Journal of Colloid and Interface Science 314(2007): 578-583
Priadi, Sulistijono, Corrosion Behaviour of API-5L in Various Green Inhibitor, Advanced Materials Research 634-638(2013): 680-695
Advanced Materials Research 383-390(2012): 5418-5425
Sethuraman, Natural Products as Corrosion Inhibitor for Metals in Corrosive Media - a Review, Materials Letters 62(2008): 113-116
El-Etre, Inhibition of Acid Corrosion of Carbon Steel Using Aqueous Extract of Olive Leaves, Journal of Colloid and Interface Science 314(2007): 578-583
Priadi, Sulistijono, Corrosion Behaviour of API-5L in Various Green Inhibitor, Advanced Materials Research 634-638(2013): 680-695
Online since: June 2015
Authors: V. Anusha Roseline, N.T. Jeeva, R. Ramesh, D. Purushothaman
These materials have the combination of properties, like strength, corrosive resistance, light weight, etc., which is not easy to obtain general [3].
References [1] Sanjeev Kumar, Uma Batra, "Surface modification of die steel materials by EDM method using tungsten powder-mixed dielectric" Journal of Manufacturing Processes 14 (2012) 35–40
Tee, Near-mirror-finish phenomenon in EDM using powder-mixed dielectric, Journal of Materials Processing Technology 79 (1998) 30–40
Journal of Materials Processing Technology 79 (1998) 30-40
Journal of Applied Sciences 12 (10) (2012) 999-1005.
References [1] Sanjeev Kumar, Uma Batra, "Surface modification of die steel materials by EDM method using tungsten powder-mixed dielectric" Journal of Manufacturing Processes 14 (2012) 35–40
Tee, Near-mirror-finish phenomenon in EDM using powder-mixed dielectric, Journal of Materials Processing Technology 79 (1998) 30–40
Journal of Materials Processing Technology 79 (1998) 30-40
Journal of Applied Sciences 12 (10) (2012) 999-1005.
Online since: June 2015
Authors: Li Yuan Chai, Xiao Bo Min, Yan Jie Liang, Jian Qiang Zhang, Chun Zhang, Mi Wang
Materials and methods
Materials
Smelting ash was collected from the Zhu zhou Smelter Group, China.
Journal of Basic Science and Engineering, 2005, 13: 43-50.
Review of As-containing materials treatment and utilization in nonferrous metallurgy industry [J].
Progress in Materials Science, 2002, 47(4): 355-414
Journal of Hazardous Materials, 2010, 174(1–3): 586-91
Journal of Basic Science and Engineering, 2005, 13: 43-50.
Review of As-containing materials treatment and utilization in nonferrous metallurgy industry [J].
Progress in Materials Science, 2002, 47(4): 355-414
Journal of Hazardous Materials, 2010, 174(1–3): 586-91
Online since: January 2009
Authors: Zhong Zi Xu, Chun Hua Lu, Hai Rong Huang, Jun Kai Xue, Ya Ru Ni
Luk: Journal of Biomedical Materials Research
Part A Vol. 79 (2006), p. 139-146
Huang: Journal of Biomedical Materials Research Part A Vol. 83 (2007), p. 235-240
Yahia: Journal of Biomedical Materials Research Vol. 51, No. 4 (2000), p. 685-693
Nguyen: Journal of Biomedical Materials Research Part A.
Grant: Journal of Biomedical Materials Research Part A Vol. 66 (2003), p. 129-137
Huang: Journal of Biomedical Materials Research Part A Vol. 83 (2007), p. 235-240
Yahia: Journal of Biomedical Materials Research Vol. 51, No. 4 (2000), p. 685-693
Nguyen: Journal of Biomedical Materials Research Part A.
Grant: Journal of Biomedical Materials Research Part A Vol. 66 (2003), p. 129-137
Online since: March 2016
Authors: Miriam Kupková, Martin Kupka, Monika Hrubovčáková
What remains is to seek metallic materials which can do the job well.
Composition Porosity [%] CIP-based materials WAIP-based materials Fe 11.6 17.1 Fe-25Mn 20.9 28.4 Fe-30Mn 25.1 28.5 Fe-35Mn 25.5 31.9 Obtained sintered materials were inherently inhomogeneous, their properties varied significantly from point to point within a micro-length scale.
Morovská Turoňová, Sintering behaviour, graded microstructure and corrosion performance of sintered Fe-Mn biomaterials, International Journal of Electrochemical Science, 10 (2015) 9256-9268
Soboyejo, Mechanical Properties of Engineered Materials, Marcel Dekker, New York, 2003
Conference on Information Science, Machinery, Materials and Energy, Atlantis Press, Curran Associates, Inc, Chongquing, 2015, 1840-1850
Composition Porosity [%] CIP-based materials WAIP-based materials Fe 11.6 17.1 Fe-25Mn 20.9 28.4 Fe-30Mn 25.1 28.5 Fe-35Mn 25.5 31.9 Obtained sintered materials were inherently inhomogeneous, their properties varied significantly from point to point within a micro-length scale.
Morovská Turoňová, Sintering behaviour, graded microstructure and corrosion performance of sintered Fe-Mn biomaterials, International Journal of Electrochemical Science, 10 (2015) 9256-9268
Soboyejo, Mechanical Properties of Engineered Materials, Marcel Dekker, New York, 2003
Conference on Information Science, Machinery, Materials and Energy, Atlantis Press, Curran Associates, Inc, Chongquing, 2015, 1840-1850
Online since: February 2012
Authors: Peng Wang, Nahiene Hamila, Philippe Boisse
Intraply shearing characterization of thermoplastic composite materials in thermoforming processes
Peng Wang1, a, Nahiène Hamila1, b and Philippe Boisse1, c
1University of Lyon, INSA-Lyon, LaMCos, CNRS UMR 5259, F-69621, France
a peng.wang@insa-lyon.fr, b nahiene.hamila@insa-lyon.fr, c philippe.boisse@insa-lyon.fr
Keywords: In-plan shear; thermoplastic composite; thermoforming; bias-extension test; numerical simulation
Abstract.
In order to improve and complete the understanding about the in-plane shear behavior of thermoplastic composite materials in their forming processes, the thermo-mechanical analysis of PPS/carbon and PEEK/carbon commingled fabrics at different forming temperatures are performed by using the bias-extension tests.
Composites Science and Technology. 71 (2011) 683-692
International journal for numerical methods in engineering. 79 (2009) 1443-1466
Journal of Non-Newtonian Fluid Mechanics.73 (1997) 1-28
In order to improve and complete the understanding about the in-plane shear behavior of thermoplastic composite materials in their forming processes, the thermo-mechanical analysis of PPS/carbon and PEEK/carbon commingled fabrics at different forming temperatures are performed by using the bias-extension tests.
Composites Science and Technology. 71 (2011) 683-692
International journal for numerical methods in engineering. 79 (2009) 1443-1466
Journal of Non-Newtonian Fluid Mechanics.73 (1997) 1-28
Online since: April 2011
Authors: Shuang Shii Lian, W.C. Luo, Y.L. Ke, F.M. Chu
However, melting in such an atmosphere will bring some surface impurities, like sulfur and oxygen, into the stainless steel through the refractories or the materials themselves.
Besides, it is often accompanied by contamination of some surface active impurities, such as oxygen and sulfur from charge materials or refractories.
Grujicic, Materials Science and Engineering A, Volume 207, Issue 2, 30 March 1996, Pages 188-194 [5] Z.Z.
Wang, Materials Characterization, Volume 56, Issue 1, January 2006, Pages 79-83 [6] T.
Gupta, ISIJ International, 33 (1993) 567-576 [17] Yuzhen Zhao, Heping Zhou and Yaowu Shi, Modelling and Simulation in Materials Science and Engineering, 14 (2006) 331–349
Besides, it is often accompanied by contamination of some surface active impurities, such as oxygen and sulfur from charge materials or refractories.
Grujicic, Materials Science and Engineering A, Volume 207, Issue 2, 30 March 1996, Pages 188-194 [5] Z.Z.
Wang, Materials Characterization, Volume 56, Issue 1, January 2006, Pages 79-83 [6] T.
Gupta, ISIJ International, 33 (1993) 567-576 [17] Yuzhen Zhao, Heping Zhou and Yaowu Shi, Modelling and Simulation in Materials Science and Engineering, 14 (2006) 331–349