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Online since: July 2012
Authors: Bing Li, Xiao Xi Li, Ling Chen, Guo Qin Liu, Lin Li, Xia Zhang, Jian Rong Huang
Materials and Methods
Materials.
Acknowledgement This work was supported by National Natural Science Fund (20976061), Guangdong National Natural Science Fund (9151063201000066) and the Fundamental Research Funds for the Central Universities, SCUT (2009ZM0326).
Coulon: Journal of biotechnology Vol. 101 (2003) p. 29 [7] B.
Noor: Journal of Fundamental Sciences Vol. 6 (2010)
Kolisis: European Journal of Lipid Science and Technology Vol. 103(2001) p. 655
Acknowledgement This work was supported by National Natural Science Fund (20976061), Guangdong National Natural Science Fund (9151063201000066) and the Fundamental Research Funds for the Central Universities, SCUT (2009ZM0326).
Coulon: Journal of biotechnology Vol. 101 (2003) p. 29 [7] B.
Noor: Journal of Fundamental Sciences Vol. 6 (2010)
Kolisis: European Journal of Lipid Science and Technology Vol. 103(2001) p. 655
Online since: January 2013
Authors: M. Sedighi, M. Shahsavan
Bae,” Finite element analysis on the effect of die clearance on shear planes in fine blanking” Journal of Materials Processing Technology 130–131 (2002) 462–468
[3] X.
Hoffmann , ”FEM simulation and experimental research on the AlMg4.5Mn0.4 sheet blanking” Journal of Materials Processing Technology 122(2002) 338-343 [4] N.
Takakura, “Finite element simulation of the shearing mechanism in the blanking of sheet metal” Journal of Materials Processing Technology 139 (2003) 64–70 [5] H.
Rachik , “Rate-dependent constitutive model for sheet metal blanking investigation” Materials Science and Engineering A 487 (2008)162–170 [6] S.
Murakawa,” An investigation of material flow analysis in fine blanking process” Journal of Materials Processing Technology 192–193 (2007) 237–242 [7] V.
Hoffmann , ”FEM simulation and experimental research on the AlMg4.5Mn0.4 sheet blanking” Journal of Materials Processing Technology 122(2002) 338-343 [4] N.
Takakura, “Finite element simulation of the shearing mechanism in the blanking of sheet metal” Journal of Materials Processing Technology 139 (2003) 64–70 [5] H.
Rachik , “Rate-dependent constitutive model for sheet metal blanking investigation” Materials Science and Engineering A 487 (2008)162–170 [6] S.
Murakawa,” An investigation of material flow analysis in fine blanking process” Journal of Materials Processing Technology 192–193 (2007) 237–242 [7] V.
Online since: December 2012
Authors: Bao Lin Wang, Ji Ne Li
The properties of representative units of porous materials are discussed [3].
Honeycombs are usually used as core materials for sandwich structures due to their high strength-to-weight ratio [4-7].
Sadowski: Computational Materials Science, (2009) p. 45 [8] X.
Vandepitte: Journal Sandwich Structures﹠ Materials, 5, (2006), p.8 [9] M.
Turan: Journal of Composite Materials, 44, (2010), p.22 [10] Q.
Honeycombs are usually used as core materials for sandwich structures due to their high strength-to-weight ratio [4-7].
Sadowski: Computational Materials Science, (2009) p. 45 [8] X.
Vandepitte: Journal Sandwich Structures﹠ Materials, 5, (2006), p.8 [9] M.
Turan: Journal of Composite Materials, 44, (2010), p.22 [10] Q.
Online since: November 2012
Authors: Nai Xiu Ding, Shuai Feng Xu, Li Li Wang, Liang Liu, Mao Sheng Zhan
Journal of Applied Polymer Science. 2002,83(8): 1730-1735
Journal of Applied Polymer Science. 2002,86(5): 1163- 1171
Journal of Applied Polymer Science. 2001(82): 1903-1906
Journal of Applied Polymer Science. 2001 (81): 562-569
New scaling for ac properties of percolating composite materials.
Journal of Applied Polymer Science. 2002,86(5): 1163- 1171
Journal of Applied Polymer Science. 2001(82): 1903-1906
Journal of Applied Polymer Science. 2001 (81): 562-569
New scaling for ac properties of percolating composite materials.
Online since: June 2010
Authors: Waldemar Serbiński, Beata Majkowska
Cavitation Wearing of the SUPERSTON Alloy After
Laser Treatment at Cryogenic Conditions
Beata Majkowska1a
, Waldemar Serbinski
1b
1
Department of Materials Science and Engineering, Faculty of Mechanical Engineering, Gdansk
University of Technology, 11/12 Narutowicza Str.
80-233 Gdansk, Poland
a
bmajkows@mech.pg.gda.pl, bwserbins@pg.gda.pl
Keywords: SUPERSTON alloy, laser remelting, microstructure, cavitation
Abstract.
Surface microstructure of the SUPERSTON alloy after cavitation test for (a) - casted material, (b) - laser remelted material (4000 W; 0.5 m/min) Fig. 7.
Materials Characterization Vol. 48 (2002), p. 37-41.
Advances and Materiale Science Vol. 4 (2003), p. 71-80.
Journal of Achievements in Materials and Manufacturing Engineering Vol. 2 (2008), p. 199-202.
Surface microstructure of the SUPERSTON alloy after cavitation test for (a) - casted material, (b) - laser remelted material (4000 W; 0.5 m/min) Fig. 7.
Materials Characterization Vol. 48 (2002), p. 37-41.
Advances and Materiale Science Vol. 4 (2003), p. 71-80.
Journal of Achievements in Materials and Manufacturing Engineering Vol. 2 (2008), p. 199-202.
Online since: May 2020
Authors: S.P. Yakovleva, M.I. Vasilyeva, Susanna N. Makharova
Konovalov, Synthetic superhard materials.
Diamonds and superhard materials. 6 (1980) 1-3
News of the USSR Academy of Sciences, Department of Technical Sciences, 1 (1977) 45-50
Diamonds and superhard materials. 5 (1980) 1-3
Diamond and Related Materials. 38 (2013) 58-62
Diamonds and superhard materials. 6 (1980) 1-3
News of the USSR Academy of Sciences, Department of Technical Sciences, 1 (1977) 45-50
Diamonds and superhard materials. 5 (1980) 1-3
Diamond and Related Materials. 38 (2013) 58-62
Online since: September 2007
Authors: Ming Zhi Wang, Yu Cheng Zhao, Jin Feng Sun, Xiao Pu Li, Zhan Wen He
Metals and Materials Society, Warren dale, PA, (1990), p. 21
Jiang, et al.: Materials Science and Engineering A242 (1998), pp. 268-277 [3] K.
Lu, et al: Journal of Materials Processing Technology Vol.67 (1997), pp. 100-104 [7] X.K.
Zhu, et al: Journal of Powder Metallurgy Technology Vol.4 (1999), pp. 291-296 [8] Baek-Hee Lee, et al: Journal of Materials Letters Vol.57 (2003), pp. 1103-1107 [9] I.F.
Zhang: Journal of Materials Processing Technology Vol. 67(1997), pp. 100-104
Jiang, et al.: Materials Science and Engineering A242 (1998), pp. 268-277 [3] K.
Lu, et al: Journal of Materials Processing Technology Vol.67 (1997), pp. 100-104 [7] X.K.
Zhu, et al: Journal of Powder Metallurgy Technology Vol.4 (1999), pp. 291-296 [8] Baek-Hee Lee, et al: Journal of Materials Letters Vol.57 (2003), pp. 1103-1107 [9] I.F.
Zhang: Journal of Materials Processing Technology Vol. 67(1997), pp. 100-104
Online since: December 2004
Authors: Shi Jin Chen, K. Cheng, Q.L. Pang
Advances in Materials Manufacturing Science and Technology
584
Mechanical and thermal properties are required for both the workpiece and the cutting tool.
Advances in Materials Manufacturing Science and Technology 586 Acknowledgements This work is supported by the CKSP Funding from Ministry of Education.
Lin: Journal of Materials Processing Technology Vol. 65 (1997), p. 281 [4] Z.H.
Ceretti: Journal of Materials Processing Technology Vol. 95 (1999), p. 17 [7] C.
Shet: Journal of Materials Processing Technology Vol. 105 (2000), p. 95.
Advances in Materials Manufacturing Science and Technology 586 Acknowledgements This work is supported by the CKSP Funding from Ministry of Education.
Lin: Journal of Materials Processing Technology Vol. 65 (1997), p. 281 [4] Z.H.
Ceretti: Journal of Materials Processing Technology Vol. 95 (1999), p. 17 [7] C.
Shet: Journal of Materials Processing Technology Vol. 105 (2000), p. 95.
Online since: February 2019
Authors: V.Y. Chukhlanov, O.G. Selivanov, N.V. Chukhlanova
These factors include construction materials destruction due to the negative impact of freezing capillary moisture, acid rains, UV radiation, atmospheric ozone, fire etc.
However most industrially produced polymer materials are not resistant towards most of these factors.
Organosilicon hydrophobic materials, containing siloxane bonds in the main chain, are rather stable but possess extremely low physical mechanical properties.
Alongside their good physical mechanical properties these materials possess high resistance not only to higher temperatures and UV radiation but to atmospheric moisture as well.
Optically transparent heat resistant nanocomposite materials on the basis of epoxy and silicon oxide, Russian nanotechnologies. 8(1-2) (2013) 82-86
However most industrially produced polymer materials are not resistant towards most of these factors.
Organosilicon hydrophobic materials, containing siloxane bonds in the main chain, are rather stable but possess extremely low physical mechanical properties.
Alongside their good physical mechanical properties these materials possess high resistance not only to higher temperatures and UV radiation but to atmospheric moisture as well.
Optically transparent heat resistant nanocomposite materials on the basis of epoxy and silicon oxide, Russian nanotechnologies. 8(1-2) (2013) 82-86
Online since: September 2020
Authors: Nur Maizatul Shima Adzali, Firuz Zainuddin, Sinar Arzuria Adnan, Nur Hidayah Ahmad Zaidi, Zuraidawani Che Daud, Nur Afikah Zulkeply
The PU foam product properties are easily changed by the quantity of raw materials used such as the polyol, isocyanate and blowing agent used.
Materials and Methods The materials were used in production of PU/Henna foam composites are polyol (PolyGreen R3110) (Table 1), 4,4- diphenylmethane diisocyanate (Maskiminate 80) (Table 2), Henna and distilled water.
Composites Science and Technology, 61(16), pp. 2405–2411
International Journal of Polymer Science.
Journal of Polymer Engineering and Science, Vol. 49(7), pp. 1253-1272
Materials and Methods The materials were used in production of PU/Henna foam composites are polyol (PolyGreen R3110) (Table 1), 4,4- diphenylmethane diisocyanate (Maskiminate 80) (Table 2), Henna and distilled water.
Composites Science and Technology, 61(16), pp. 2405–2411
International Journal of Polymer Science.
Journal of Polymer Engineering and Science, Vol. 49(7), pp. 1253-1272