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Online since: January 2012
Authors: Lian Xiang Ma, Jia Na Ke, Hai Quan Yan, Yan He
As a non-metallic material with high thermal conductivity, graphite filler can be used in rubber.
Experimental Materials.
Acknowledge The authors are grateful to National Natural Science Foundation of China (No. 51076070).
Ikuko: Journal of European Ceramics Society, Vol. 20(2000), p. 1197 [3] J.J.Wang and X.S.Yi: Composites Science and Technology, Vol. 64(2004), p.1623 [4] A.K.Yoong,H.Takuaya and E.Morinobu: Scripta Materialia, Vol, 54(2006), p.31 [5] Julia A King, Michael G.Miller and Rodwick L.Barton:Journal of Applied Polymer Science, Vol. 99(2006), p.1552 [6] Bernd Weidenfeller, Michael Hofer and Frank Schilling: Composites.Part A, Vol. 33(2002), p.1041 [7] J.R.Gaier, Y.Yodevandenberg and S.Berkebile: Carbon, Vol. 41(2003), p.2187 [8] D.Kumlutas and I.H.Tavman:Composites Science and Technology, Vol. 63(2003), p.113 [9] P.Giuseppe and K.Ikuko:Journal of the European Ceramic Society, Vol. 20(2000), p.1197 [10] D.D.Li,X.W.Han and B.Q.Shentu: Synthetic Rubber Industry, Vol. 33(2010), p.49 [11] J.Yang: PhD thesis, Beijing University of Chemical Technology,2008
[12] C.M.He,H.Z.Wang and W.Deng:Printing and Dyeing, (2004), p.9 [13] W.L.Xiao,M.Qiang and H.Zhou: Materials Review, Vol.12(2008), p.307 [14] L.Qin,Y.H.Zhou and F.L.Chen: Special Rubber Products, Vol.28(2007), p.7 [15] W.Li,Z.M.Xie and Z.M.Li: Journal of Sun Yat-Sen University, Vol.38(1999), p.40 [16] Y.He and L.X.Ma: Special Rubber Products, Vol.28(2007), p.50
Experimental Materials.
Acknowledge The authors are grateful to National Natural Science Foundation of China (No. 51076070).
Ikuko: Journal of European Ceramics Society, Vol. 20(2000), p. 1197 [3] J.J.Wang and X.S.Yi: Composites Science and Technology, Vol. 64(2004), p.1623 [4] A.K.Yoong,H.Takuaya and E.Morinobu: Scripta Materialia, Vol, 54(2006), p.31 [5] Julia A King, Michael G.Miller and Rodwick L.Barton:Journal of Applied Polymer Science, Vol. 99(2006), p.1552 [6] Bernd Weidenfeller, Michael Hofer and Frank Schilling: Composites.Part A, Vol. 33(2002), p.1041 [7] J.R.Gaier, Y.Yodevandenberg and S.Berkebile: Carbon, Vol. 41(2003), p.2187 [8] D.Kumlutas and I.H.Tavman:Composites Science and Technology, Vol. 63(2003), p.113 [9] P.Giuseppe and K.Ikuko:Journal of the European Ceramic Society, Vol. 20(2000), p.1197 [10] D.D.Li,X.W.Han and B.Q.Shentu: Synthetic Rubber Industry, Vol. 33(2010), p.49 [11] J.Yang: PhD thesis, Beijing University of Chemical Technology,2008
[12] C.M.He,H.Z.Wang and W.Deng:Printing and Dyeing, (2004), p.9 [13] W.L.Xiao,M.Qiang and H.Zhou: Materials Review, Vol.12(2008), p.307 [14] L.Qin,Y.H.Zhou and F.L.Chen: Special Rubber Products, Vol.28(2007), p.7 [15] W.Li,Z.M.Xie and Z.M.Li: Journal of Sun Yat-Sen University, Vol.38(1999), p.40 [16] Y.He and L.X.Ma: Special Rubber Products, Vol.28(2007), p.50
Online since: February 2014
Authors: Ying Ying Hou, Ming Shuo Geng, Zu Wei Wang, Wen Yan Gao, Hui Zhang
Materials and methods
Soil samples handle.
Journal of Environmentol Sciences, 18,1124-1134 [5] Khan S, Lin A,Zhang S, et al.(2008).
Journal of Hazardous Materials, 152,506–515 [6] Heling Deng, Biaowei Deng, Wenlong Lu. (2001).
Tianjin Agriculture Science, 2,1-3
Journal of Agro-Environment Science, 26, [10] G.
Journal of Environmentol Sciences, 18,1124-1134 [5] Khan S, Lin A,Zhang S, et al.(2008).
Journal of Hazardous Materials, 152,506–515 [6] Heling Deng, Biaowei Deng, Wenlong Lu. (2001).
Tianjin Agriculture Science, 2,1-3
Journal of Agro-Environment Science, 26, [10] G.
Online since: February 2012
Authors: Peter Groche, Matthias Brenneis
They can be realized by composites consisting of smart materials (multifunctional) and structural materials (without additional functions) [1].
Another approach is to integrate smart materials during the additive manufacturing of the structural part.
Chen, Residual stresses generated during joining of dissimilar alumina-zirconia composites by plastic deformation and its implications on mechanical properties, Materials Science and Engineering A 517 (2009) 78-84
Leadbetter, Modern Side-Shafts for Passenger Cars: Manufacturing Processes II - Monobloc Tube Shafts, Journal of Materials Processing Technology 63 (1997) 225-232
Zuo, 3D finite element modeling of cogging-down rotary swaging of pure magnesium square billet- revealing the effect of high-frequency pulse stroking, Materials Science and Engineering A 464 (2007) 28–37.
Another approach is to integrate smart materials during the additive manufacturing of the structural part.
Chen, Residual stresses generated during joining of dissimilar alumina-zirconia composites by plastic deformation and its implications on mechanical properties, Materials Science and Engineering A 517 (2009) 78-84
Leadbetter, Modern Side-Shafts for Passenger Cars: Manufacturing Processes II - Monobloc Tube Shafts, Journal of Materials Processing Technology 63 (1997) 225-232
Zuo, 3D finite element modeling of cogging-down rotary swaging of pure magnesium square billet- revealing the effect of high-frequency pulse stroking, Materials Science and Engineering A 464 (2007) 28–37.
Online since: October 2023
Authors: Archana Kumari Singh, Khushi Singh, Satya Pal Singh
All materials were obtained from Sigma-Aldrich.
With comparatively small background noise, the high intensity sharp peaks, clearly indicates for the presence of bulk material (i.e., materials having sizes up-to a few microns owe properties very similar to purely bulk materials).
Micron size materials can be considered to have properties, intermediate between nanomaterials and bulk materials.
Reinforcement of Clay Material Doped with Metal-Oxide Nano-Material, International Journal for Research in Applied Science & Engineering Technology (IJRASET), 8 (2020) http://doi.org/10.22214/ijraset.2020.4191 [5] Km Sushama and S.
Zinc Oxide-From Synthesis to Application: A Review Materials, 7(4) (2014) 2833-2881
With comparatively small background noise, the high intensity sharp peaks, clearly indicates for the presence of bulk material (i.e., materials having sizes up-to a few microns owe properties very similar to purely bulk materials).
Micron size materials can be considered to have properties, intermediate between nanomaterials and bulk materials.
Reinforcement of Clay Material Doped with Metal-Oxide Nano-Material, International Journal for Research in Applied Science & Engineering Technology (IJRASET), 8 (2020) http://doi.org/10.22214/ijraset.2020.4191 [5] Km Sushama and S.
Zinc Oxide-From Synthesis to Application: A Review Materials, 7(4) (2014) 2833-2881
Online since: April 2014
Authors: Roman Koleňák, Maroš Martinkovič
The shear strength on metallic materials attained from 12.5 to 71 MPa.
For comparison, the 100Sn solder wetted all metallic materials and did not fully wet the ceramic materials at ultrasound assistance.
The shear strength attained on metallic materials varied from 28 to 71.5 MPa.
Shear strength on ceramic materials was 6 and 7 MPa – Fig. 5.
Li, Investigation of rare earth–doped BiAg high–temperature solders, Journal of Materials Science: Materials in Electronics, 8 (2009) 231 - 235, DOI: 10.1007/s10854-009-0010-5
For comparison, the 100Sn solder wetted all metallic materials and did not fully wet the ceramic materials at ultrasound assistance.
The shear strength attained on metallic materials varied from 28 to 71.5 MPa.
Shear strength on ceramic materials was 6 and 7 MPa – Fig. 5.
Li, Investigation of rare earth–doped BiAg high–temperature solders, Journal of Materials Science: Materials in Electronics, 8 (2009) 231 - 235, DOI: 10.1007/s10854-009-0010-5
Online since: February 2011
Authors: Sheng Lu, Jing Chen, Zhi Ping Weng, Li Fu
Tribology of Plasma Sprayed Al2O3-13%TiO2 on AZ91D Magnesium Alloy
Sheng Lu1, a, Zhiping Weng1, b, Jing Chen2, c, Li Fu1, d
1School of Materials Science and Engineering, Jiangsu University of Science and Technology, Zhenjiang, 212003, Jiangsu, China
2 School of Mechanical Engineering, Jiangsu University of Science and Technology,
Zhenjiang, 212003, Jiangsu, China
alusheng119@yahoo.com.cn, bwzptx08@163.com,
c chenjing0612@yahoo.com.cn, dvivian996@yahoo.cn
Keywords: Magnesium Alloy; Plasma Spraying; AT13; Tribology.
Experimental Materials and coating preparation.
Wallace: Journal of Materials Processing Technology Vol.171 (2006), p.188
Wang: Journal of Alloys and Compounds Vol. 438 (2007), p.321
Yang: Corrosion Science vol.51 (2009), p.2924-2931
Experimental Materials and coating preparation.
Wallace: Journal of Materials Processing Technology Vol.171 (2006), p.188
Wang: Journal of Alloys and Compounds Vol. 438 (2007), p.321
Yang: Corrosion Science vol.51 (2009), p.2924-2931
Online since: December 2010
Authors: Hong Lei Dong, Qing Hua Yuan, Zhong Guo Huang, Jia Fan
Test material and method
The material for the test was chosen from seamless steel axle pipe LZ20Mn2 produced by Baogang Seamless Pipe Plant.
WANG: Science Technology and Engineering, 2009, 9(5):1230-1235
REN: Journal of University of Science and Technology Beijing, 2009, 31(8):988-994
YANG: Journal of Shenyang University, 2003, 15(2):9
SHANG: Journal of Mechanical Strength, 2006, 28(3):392
WANG: Science Technology and Engineering, 2009, 9(5):1230-1235
REN: Journal of University of Science and Technology Beijing, 2009, 31(8):988-994
YANG: Journal of Shenyang University, 2003, 15(2):9
SHANG: Journal of Mechanical Strength, 2006, 28(3):392
Online since: December 2012
Authors: Yu Zhuo Men, Hua Wang, Liang Xu, Xin Pan, Hai Bo Yu
Acknowledgements
This work was financially sponsored by the National Natural Science Foundation of China (Grant No. 51008034), Development Plan Project Foundation of Jilin Provincial Science and Technology Department (Grant No. 201201135), Development Plan Project Foundation of Jilin Provincial Science and Technology Department (Grant No. 20100190), Development Plan Project Foundation of Jilin Provincial Education Department (Grant No. 2010422).
B, Condensed Matter And Materials Physics Vol. 75 (2007), pp. 205206.2-205206.7 [2] W.T Han, Q.
Journal of Xi'an University of Architecture & Technology (Natural Science Edition), Vol. 37 (2005), pp. 374-376.
Journal of Environmental Systems, Vol. 30 (2004), pp. 309-311 [4] H.M Jagtman, H.M Hale and T.
Journal of Changchun University of Science and Technology, Vol. 29 (2006), pp. 42-44.
B, Condensed Matter And Materials Physics Vol. 75 (2007), pp. 205206.2-205206.7 [2] W.T Han, Q.
Journal of Xi'an University of Architecture & Technology (Natural Science Edition), Vol. 37 (2005), pp. 374-376.
Journal of Environmental Systems, Vol. 30 (2004), pp. 309-311 [4] H.M Jagtman, H.M Hale and T.
Journal of Changchun University of Science and Technology, Vol. 29 (2006), pp. 42-44.
Online since: June 2025
Authors: Shijie Zhu, Gang Deng, Yasuhiro Bonkobara
Materials Today Communications. 33, 104437. https://doi.org/10.1016/j.mtcomm.2022.104437
Materials Science & Engineering.
Fatigue & Fracture of Engineering Materials & Structures. 43-7, pp. 1541-1551. https://doi.org/10.1111/ffe.13232
Materials. 13(5), 1197. https://doi.org/10.3390/ma13051197
Journal of Materials Engineering and Performance. 17, pp. 888-893
Materials Science & Engineering.
Fatigue & Fracture of Engineering Materials & Structures. 43-7, pp. 1541-1551. https://doi.org/10.1111/ffe.13232
Materials. 13(5), 1197. https://doi.org/10.3390/ma13051197
Journal of Materials Engineering and Performance. 17, pp. 888-893
Online since: October 2013
Authors: Fu Qiang Chu, Chang Li Xu, Hui Wang, Yu Xin Liu, Ji Lei Chao
Introduction
Waterborne UV-curable resins are novel environmentally friendly materials.
In our previous research[4], waterborne lignin-based polyurethane (WLPU) was synthesized through a three-step reaction, which was a kind of water borne UV-curable materials.
Experimental Materials and Equipments Waterborne UV-curable lignin-based polyurethane (WLPU), 70% solid content, made in our lab.
Journal of Forest Research, Vol 20(2009), P. 161 [3].
Journal of Applied Polymer Science,Vol 98( 2005), P.1451 [4].
In our previous research[4], waterborne lignin-based polyurethane (WLPU) was synthesized through a three-step reaction, which was a kind of water borne UV-curable materials.
Experimental Materials and Equipments Waterborne UV-curable lignin-based polyurethane (WLPU), 70% solid content, made in our lab.
Journal of Forest Research, Vol 20(2009), P. 161 [3].
Journal of Applied Polymer Science,Vol 98( 2005), P.1451 [4].