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Online since: July 2017
Authors: Frank Walther, Daniel Hülsbusch, Michael Jamrozy, Selim Mrzljak
Introduction
The following results have been partially published by the authors in MP Materials Testing [1].
Njuguna: An introduction to lightweight composite materials and their use in transport structures, J.
Reifsnider (Ed.), Fatigue of composite materials, Elsevier Science (1991) [6] D.
Conference on Composite Materials, Montreal (2013), pp. 1 – 9 [11] F.
Walther, Microstructure-oriented fatigue assessment of construction materials and joints using short-time load increase procedure, Materials Testing 56 (2014), pp. 519 – 527 [12] J.
Njuguna: An introduction to lightweight composite materials and their use in transport structures, J.
Reifsnider (Ed.), Fatigue of composite materials, Elsevier Science (1991) [6] D.
Conference on Composite Materials, Montreal (2013), pp. 1 – 9 [11] F.
Walther, Microstructure-oriented fatigue assessment of construction materials and joints using short-time load increase procedure, Materials Testing 56 (2014), pp. 519 – 527 [12] J.
Online since: July 2011
Authors: Hui Huang, Ming Li, Zhen De Cui, Jin Zhang
Either poor-quality raw materials or improper control of heat treatment process may cause nonconforming knife surface hardness and metallographic structure.
Several measures to improve hand-pushing tapping knife’s mechanical properties Strengthen quality inspection of incoming raw materials.
Such defects as crack, fold, scar or hair crack should be checked on incoming raw materials.
Chemical composition analysis should be conducted on raw materials.
Metallographic analysis should be performed on raw materials.
Several measures to improve hand-pushing tapping knife’s mechanical properties Strengthen quality inspection of incoming raw materials.
Such defects as crack, fold, scar or hair crack should be checked on incoming raw materials.
Chemical composition analysis should be conducted on raw materials.
Metallographic analysis should be performed on raw materials.
Online since: May 2011
Authors: Jun Zhao, Zhi Ming Yu, Kun Yu, Liang Jian Chen
Materials and Methods
The matrix composition of experimental composite was Mg-6wt%Zn alloy.
Table 1 Mechanical properties of experimental biomeaterials compared with other materials Materials Density, g/cm3 Brinell hardness Compression strength, MPa Elastic modulus, GPa Mg-6%Zn 1.827 67 310 45 Mg-6%Zn-5%HA 1.862 33.4 324 22 Nature bone [14] 1.8~2.1 20~58 130~180 3~20 Ti alloy [13] 4.4~4.5 70 758~1117 110~117 Fig.2 Weight loss curves of specimens in simulated body fluid The immersion testing of Mg-6%Zn-5%HA MMC in the simulated body fluid is performed to evaluate the corrosion behaviors of such materials in vitro body fluid environment.
Blawert: Advanced Engineering Materials.
Mele: Materials Research, Vol.10, (2007), p.1
Taş: Journal of the American Ceramic Society,Vol. 83, (2004), p.1581 [14] M.
Table 1 Mechanical properties of experimental biomeaterials compared with other materials Materials Density, g/cm3 Brinell hardness Compression strength, MPa Elastic modulus, GPa Mg-6%Zn 1.827 67 310 45 Mg-6%Zn-5%HA 1.862 33.4 324 22 Nature bone [14] 1.8~2.1 20~58 130~180 3~20 Ti alloy [13] 4.4~4.5 70 758~1117 110~117 Fig.2 Weight loss curves of specimens in simulated body fluid The immersion testing of Mg-6%Zn-5%HA MMC in the simulated body fluid is performed to evaluate the corrosion behaviors of such materials in vitro body fluid environment.
Blawert: Advanced Engineering Materials.
Mele: Materials Research, Vol.10, (2007), p.1
Taş: Journal of the American Ceramic Society,Vol. 83, (2004), p.1581 [14] M.
Online since: August 2014
Authors: Takeshi Uemori, Fusahito Yoshida, Michihiro Takiguchi, Taro Tokuda, Tetsuya Yoshida
Materials Processing Technology, 113 (2001) 743-748
Materials Processing Technology, 140 (2003) 441-446
Mechanical Engineering Science, 218, Part C (2004) 623-629
Yoshida, Strength of highly ductile acrylic adhesive in butt-joint under combined tension and torsion, Key Engineering Materials, 274-276 (2004) 993-998
Yoshida, Plastic-bending of adhesively bonded dissimilar sheet metals, Key Engineering Materials, 535-536 (2013) 418-421
Materials Processing Technology, 140 (2003) 441-446
Mechanical Engineering Science, 218, Part C (2004) 623-629
Yoshida, Strength of highly ductile acrylic adhesive in butt-joint under combined tension and torsion, Key Engineering Materials, 274-276 (2004) 993-998
Yoshida, Plastic-bending of adhesively bonded dissimilar sheet metals, Key Engineering Materials, 535-536 (2013) 418-421
Online since: February 2015
Authors: Emee Marina Salleh, Zuhailawati Hussain, Sivakumar Ramakrishan
Characterization of Binary Mg-Mn Alloy Synthesized Through Mechanical Alloying: Effect of Milling Speed
EMEE MARINA Salleha, SIVAKUMAR Ramakrishnanb
and ZUHAILAWATI Hussainc*
Structural Materials Niche Area, School of Materials and Mineral Resources Engineering,
Engineering Campus, Universiti Sains Malaysia, 14300 Nibong Tebal, Penang, Malaysia.
Introduction Magnesium (Mg) alloys are potentially useful as structural materials in the aerospace and automobile industries.
Tsakiris, Effects of mechanical alloying on the hydrogen storage properties of the Mg76Ti12Fe12-xNix (x= 4,8) materials, J.
Suryanarayana, Mechanical alloying and milling, Prog. in Materials Science 46 (2001) 1-184 [10] M.T.
Journal of Alloys and Compounds, 365 (2004) 157–163 [12] S.
Introduction Magnesium (Mg) alloys are potentially useful as structural materials in the aerospace and automobile industries.
Tsakiris, Effects of mechanical alloying on the hydrogen storage properties of the Mg76Ti12Fe12-xNix (x= 4,8) materials, J.
Suryanarayana, Mechanical alloying and milling, Prog. in Materials Science 46 (2001) 1-184 [10] M.T.
Journal of Alloys and Compounds, 365 (2004) 157–163 [12] S.
Online since: January 2009
Authors: Xiao Jing Xu, H. Wang, Xiao Nong Cheng
Alexandrov: Progress in Materials Science Vol. 45(2)
(2000), p. 102
[2] Y.T.
Qazi: Materials Science and Engineering C Vol. 26(8) (2006), p. 1269 [5] P.Q.
Zhu: Materials Science and Engineering A Vol. 371(1-2) (2004) , p. 313 [7] J.
Wang: Materials Science and Engineering A Vol. 488(1-2) (2008), p. 569 [18] T.
Yamamuro: Journal of Biomedical Materials Research Vol. 24(6) (1990), p. 721 [19] J.
Qazi: Materials Science and Engineering C Vol. 26(8) (2006), p. 1269 [5] P.Q.
Zhu: Materials Science and Engineering A Vol. 371(1-2) (2004) , p. 313 [7] J.
Wang: Materials Science and Engineering A Vol. 488(1-2) (2008), p. 569 [18] T.
Yamamuro: Journal of Biomedical Materials Research Vol. 24(6) (1990), p. 721 [19] J.
Online since: March 2017
Authors: Bai Ming Chen, Zheng Yu Zhang, Jun Xi Zhang, Ze Fen Liang, Xiang Bin Yi
Those soft particles were used as solid lubricant in friction materials.
Journal of Material Processing Technology. 182 (2007) 122-127
Composites Science and Technology. 64 (2004) 1959-1970
International Materials Reviews. 37 (1992) 129-149
The effet of matrix composition on the properties of copper-based friction materials.
Journal of Material Processing Technology. 182 (2007) 122-127
Composites Science and Technology. 64 (2004) 1959-1970
International Materials Reviews. 37 (1992) 129-149
The effet of matrix composition on the properties of copper-based friction materials.
Online since: March 2013
Authors: Tan Winie, Ri Hanum Yahaya Subban, Nurul Hazwani Aminuddin Rosli, Nur Shazlinda Muhammad Hanif
Kannan, Lithium ion conduction in plasticized PMMA-PVdF polymer blend electrolytes, Materials Chemistry and Physics 74 (2002) 52-57
Wang, PAN-PEO solid polymer electrolytes with high ionic conductivity, Materials Chemistry and Physics 89 (2005) 390-394
Uma, Effect of ZrO2 on conductivity of PVC-LiBF4-DBP polymer electrolyte, Materials Letters 44 (2000) 208-214
Journal 34 (1998) 435-438
George, Ac conductivity and its scaling behavior in lithium and sodium bismuthate glasses, Materials Letters 57 (2003) 1656-1661
Wang, PAN-PEO solid polymer electrolytes with high ionic conductivity, Materials Chemistry and Physics 89 (2005) 390-394
Uma, Effect of ZrO2 on conductivity of PVC-LiBF4-DBP polymer electrolyte, Materials Letters 44 (2000) 208-214
Journal 34 (1998) 435-438
George, Ac conductivity and its scaling behavior in lithium and sodium bismuthate glasses, Materials Letters 57 (2003) 1656-1661
Online since: July 2017
Authors: Roland Haubner, Alexander Jarosik, Gerhard Angeli, Magdalena Maderthaner
Metallurgical and Materials Transactions A 41.6 (2010) 1460-1473
Progress in materials science 45.3 (2000) 191-271
Angeli, The role of surface oxides on annealed high-strength steels in hot-dip galvanizing, Corrosion Science 70 (2013) 268-275
Haubner, Effect of dew point on the selective oxidation of advanced high strength steels, Materials Science Forum 891 (2017) 292-297
Wagner, Theoretical analysis of the diffusion processes determining the oxidation rate of alloys, Journal of the Electrochemical Society 99.10 (1952) 369-380.
Progress in materials science 45.3 (2000) 191-271
Angeli, The role of surface oxides on annealed high-strength steels in hot-dip galvanizing, Corrosion Science 70 (2013) 268-275
Haubner, Effect of dew point on the selective oxidation of advanced high strength steels, Materials Science Forum 891 (2017) 292-297
Wagner, Theoretical analysis of the diffusion processes determining the oxidation rate of alloys, Journal of the Electrochemical Society 99.10 (1952) 369-380.
Online since: December 2013
Authors: Kazimierz J. Ducki, Jacek Mendala, Lilianna Wojtynek
The chemical composition of the material is given in Table 1.
Ducki, Research of the microstructure and precipitation strengthening in a high-temperature Fe-Ni superalloy, IOP Conference Series – Materials Science and Engineering 35 (2012) 012007
Pickering, Some aspects of the precipitation of nickel-aluminium-titanium intermetallic compounds in ferrous materials, Proc.
Kuc, Analysis of precipitation process of the intermetallic phases in a high-temperature Fe-Ni austenitic alloy, Materials Chemistry and Physics 81 (2003) 490-492
Abbasi, The precipitation of eta phase in an Fe-Ni-based superalloy with different Ti/Al ratios, International Journal of Materials Research 104 4 (2013) 344-350
Ducki, Research of the microstructure and precipitation strengthening in a high-temperature Fe-Ni superalloy, IOP Conference Series – Materials Science and Engineering 35 (2012) 012007
Pickering, Some aspects of the precipitation of nickel-aluminium-titanium intermetallic compounds in ferrous materials, Proc.
Kuc, Analysis of precipitation process of the intermetallic phases in a high-temperature Fe-Ni austenitic alloy, Materials Chemistry and Physics 81 (2003) 490-492
Abbasi, The precipitation of eta phase in an Fe-Ni-based superalloy with different Ti/Al ratios, International Journal of Materials Research 104 4 (2013) 344-350