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Online since: August 2019
Authors: Mohamad Ashry Jusoh, Rodziah Nazlan, Fahmiruddin Esa
Materials preparation and process methods are discussed in the following subsections.
Materials Preparation.
All materials used in this work are economically available and are of highest purity.
Journal of Nanomaterials, 2012. 2012: p. 121
Materials Science in Semiconductor Processing, 2014. 24: p. 272-277
Materials Preparation.
All materials used in this work are economically available and are of highest purity.
Journal of Nanomaterials, 2012. 2012: p. 121
Materials Science in Semiconductor Processing, 2014. 24: p. 272-277
Online since: December 2010
Authors: Xue Zhi Zhao, Bang Yan Ye, Meng Yang Qin, Jian Ping Liu, Cheng Zhong Zhang
Acknowledgment
This paper is supported by National Natural Science Foundation of P.R.
Liu: Key Engineering Materials, Vol. 315-316 (2006), p.526-530
Li et al: Journal of Materials Processing Technology, Vol.129 (2002), p.218-224
Berry: Journal of Materials Processing Technology, Vol.191 (2007), p.170-178 [7] Z.H.
Liu: Materials Science Forum, Vol. 532-533 (2006), p.528-531.
Liu: Key Engineering Materials, Vol. 315-316 (2006), p.526-530
Li et al: Journal of Materials Processing Technology, Vol.129 (2002), p.218-224
Berry: Journal of Materials Processing Technology, Vol.191 (2007), p.170-178 [7] Z.H.
Liu: Materials Science Forum, Vol. 532-533 (2006), p.528-531.
Online since: January 2010
Authors: Chakkingal Uday, Ganesh Niranjan
Introduction
There is currently considerable interest in replacing heavier steel bodies with lighter materials such
as aluminum alloys for automobile applications.
Experimental Materials and Procedure Aluminum alloy AA 6061 sheets of 1mm thickness were chosen for this study.
Suzuki: Journal of Mechanical Working Technology Vol. 15 (1987), p. 131
Lee: International Journal of Mechanical Sciences Vol. 50 (2008), p. 869
Woo: International Journal of Mechanical Sciences Vol. 10 (1968), P.83.
Experimental Materials and Procedure Aluminum alloy AA 6061 sheets of 1mm thickness were chosen for this study.
Suzuki: Journal of Mechanical Working Technology Vol. 15 (1987), p. 131
Lee: International Journal of Mechanical Sciences Vol. 50 (2008), p. 869
Woo: International Journal of Mechanical Sciences Vol. 10 (1968), P.83.
Online since: March 2023
Authors: Tjandra Setiadi, Rendy Mukti, Made Tri Ari Penia Kresnowati
Raw materials in the manufacture of bioethanol can be sourced from the first-generation (starch-based raw materials), second-generation (lignocellulosic biomass), or third-generation (algae raw materials) [10–12].
Agricultural biomass based potential materials.
Agricultural Biomass Based Potential Materials. 2015;1–505
Materials Sci.
Materials science. 2005;9–25
Agricultural biomass based potential materials.
Agricultural Biomass Based Potential Materials. 2015;1–505
Materials Sci.
Materials science. 2005;9–25
Online since: November 2005
Authors: Yu Kui Gao, Mei Yao, Qingxian Yan
Yao: Wang Renzhi: Chinese Journal of Materials Reaserch Vol. 11 (in Chinese)
(1997), p. 191
[5] P.
Wang: Jourmal of Materials Processing Technology Vol. 73 (1998), p. 57 [7] M.
Yao: Journal of Aeronautical Materials (in Chinese) Vol. 22 (2002), p. 21 [10] Y.
Yao: Materials Science and Technology Vol. 19 (2003), p. 1 [12] Y.
Shao: Journal of Materials Engineering and Performance Vol. 12 (2003), p. 507 [13] Z.
Wang: Jourmal of Materials Processing Technology Vol. 73 (1998), p. 57 [7] M.
Yao: Journal of Aeronautical Materials (in Chinese) Vol. 22 (2002), p. 21 [10] Y.
Yao: Materials Science and Technology Vol. 19 (2003), p. 1 [12] Y.
Shao: Journal of Materials Engineering and Performance Vol. 12 (2003), p. 507 [13] Z.
Online since: September 2011
Authors: Hai Tao Zhang, Jian Zhong Cui, Bao Mian Li
Effect of Electromagnetic Field on the As-cast Structure of HMn084 Brass
Haitao Zhang, Baomian Li and Jianzhong Cui
Key Laboratory of Electromagnetic Processing of Materials, Ministry of Education,Northeastern University, Shenyang, Liaoning, 110819, China
haitao_zhang@epm.neu.edu.cn
Keywords: manganese brass, electromagnetic field, as-cast structure, silicide.
Journal of Materials Science Vol. 29 (1994), P. 1692
Journal of Achievements in Materials and manufacturing Engineering Vol. 34 (2009), P. 95
Journal of Phase Equilibria Vol. 15 (1994), P. 619
Journal of Materials Science Vol. 29 (1994), P. 1692
Journal of Achievements in Materials and manufacturing Engineering Vol. 34 (2009), P. 95
Journal of Phase Equilibria Vol. 15 (1994), P. 619
Online since: November 2016
Authors: Kurt Steinhoff, Michael Rethmeier, Kai Hilgenberg
This has been successfully used for steel substrates [5] and also for light-weight and less wear resistant materials like aluminum [6].
Results and discussion Microstructure and hardness: Fig. 2 shows results of the laser implantation in cross section views for all three implant materials.
Applications: The laser implantation technique combines the creation of a surface topology with a simultaneous adjustment of materials properties.
Engel, Microtexturing of Cold-forging Tools - Influence on Tool Life, Journal of the Engineering Manufacture, 220 (2006) 27–33
Steinhoff, Localized dispersing of ceramic particles in tool steel surfaces by pulsed laser radiation, Applied Surface Science, 305 (2014) 575-580
Results and discussion Microstructure and hardness: Fig. 2 shows results of the laser implantation in cross section views for all three implant materials.
Applications: The laser implantation technique combines the creation of a surface topology with a simultaneous adjustment of materials properties.
Engel, Microtexturing of Cold-forging Tools - Influence on Tool Life, Journal of the Engineering Manufacture, 220 (2006) 27–33
Steinhoff, Localized dispersing of ceramic particles in tool steel surfaces by pulsed laser radiation, Applied Surface Science, 305 (2014) 575-580
Online since: June 2021
Authors: Lia-Nicoleta Botila, Cristian Ciucă, Victor Verbiţchi, Radu Cojocaru
Depending on the nature of the application, the FSW welding behavior of similar materials and couples of dissimilar materials, was researched and analyzed.
Friction stir welding of similar materials.
EN AW 6082 EN AW 1200 EN AW 6082 Friction stir welding of dissimilar materials.
Munitz, Laser-assisted friction stir welding, Welding Journal 81(2): 46-48, (2002)
Puicea, Pulsed LASER-(micro) TIG hybrid welding: Process characteristics, Journal of Materials Processing Technology, Volume 212, Issue 4, Pages 890-902, ISSN 0924-0136, https://doi.org/10.1016/j.jmatprotec.2011.11.014.
Friction stir welding of similar materials.
EN AW 6082 EN AW 1200 EN AW 6082 Friction stir welding of dissimilar materials.
Munitz, Laser-assisted friction stir welding, Welding Journal 81(2): 46-48, (2002)
Puicea, Pulsed LASER-(micro) TIG hybrid welding: Process characteristics, Journal of Materials Processing Technology, Volume 212, Issue 4, Pages 890-902, ISSN 0924-0136, https://doi.org/10.1016/j.jmatprotec.2011.11.014.
Online since: June 2014
Authors: Marioara Moldovan, Alexandrina Muntean, Codruta Sarosi, Ovidiu Cristian Pastrav, Ada Gabriela Delean, Laura Silaghi Dumitrescu, Marius Gociu
The analysis shows that these materials have more or less translucence.
Translucence parameters may vary according to specific applications of composite materials.
Lim, Variation in instrument-based color coordinates of esthetic restorative materials by measurement method—A review, Dental Materials, 26 (2010), 1098-1105 [11] M, Schmeling, DE Andrada MA, H.P.
Dental Materials, 24 (2008), 1236–42
Chengdong, Preparation and biological properties of a novel composite scaffold of nano-hydroxyapatite / chitosan/carboxymethyl cellulose for bone tissue engineering, Journal of Biomedical Science, 16 (2009), 65
Translucence parameters may vary according to specific applications of composite materials.
Lim, Variation in instrument-based color coordinates of esthetic restorative materials by measurement method—A review, Dental Materials, 26 (2010), 1098-1105 [11] M, Schmeling, DE Andrada MA, H.P.
Dental Materials, 24 (2008), 1236–42
Chengdong, Preparation and biological properties of a novel composite scaffold of nano-hydroxyapatite / chitosan/carboxymethyl cellulose for bone tissue engineering, Journal of Biomedical Science, 16 (2009), 65
Online since: August 2013
Authors: De Min Yang, Jian Mei Yuan
Journal of Hazardous Materials, 186: 1788 - 1793 (2011)
Journal of Hazardous Materials, 168: 843 - 847 (2009)
Journal of Hazardous Materials, 147: 232 - 239 (2007)
Journal of Hazardous Materials, 152: 1325 - 1331 (2008)
Journal of Hazardous Materials, 168: 246 - 252 (2009)
Journal of Hazardous Materials, 168: 843 - 847 (2009)
Journal of Hazardous Materials, 147: 232 - 239 (2007)
Journal of Hazardous Materials, 152: 1325 - 1331 (2008)
Journal of Hazardous Materials, 168: 246 - 252 (2009)