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Online since: October 2012
Authors: Chun Yan Wei, Li Hua Lv, Yong Zhu Cui, Zheng Wu, Wang Xiao
Experiment
Preparation of raw materials.
Preparation of raw materials→ fibers drying→ mixing→ adding TAIC → molding→ cold forming→ samples of composites.
Conclusions Using the waste cotton stalk basts which were degummed as reinforced materials, PLA as the matrix and TAIC as a cross-linking agent, a new kind of composite with good heat-resistance and low cost can be produced.
References [1] Pengyang Deng and Meihua Liu: Chemical Journal of Chinese Universities.
Vol. 224(2005), p. 309 [5] Nishino T., Hirao K. and Kotera M.: Composites Science and Technology.
Preparation of raw materials→ fibers drying→ mixing→ adding TAIC → molding→ cold forming→ samples of composites.
Conclusions Using the waste cotton stalk basts which were degummed as reinforced materials, PLA as the matrix and TAIC as a cross-linking agent, a new kind of composite with good heat-resistance and low cost can be produced.
References [1] Pengyang Deng and Meihua Liu: Chemical Journal of Chinese Universities.
Vol. 224(2005), p. 309 [5] Nishino T., Hirao K. and Kotera M.: Composites Science and Technology.
Online since: September 2013
Authors: Yan Feng Chen, Yue Feng Tang, Yan Wen Lu, Fei Shen, Xing Yun Wu, Kun Tang, Hua Zhen Yang, Xue Wen Liu, Bao Hua Rong, Qing Lin Chen
Multi-components lithium ion secondary battery materials of Li(NixCoyMn1−x−y)O2 are developed to replace LiCoO2 as cathode materials due to their potentially high discharge capacity, excellent cycling stability, safe and low cost[2].
The spray pyrolysis processing is a novel route for the synthesis of many inorganic materials and the sintering of advanced materials[4,5,6,7].
Wan, Journal of Power Sources, 129 (2004) 264-269
Jiang, Journal of Power Sources, 102 (2001) 162-166
Lee, Journal of Power Sources, 196 (2011) 6682-6687
The spray pyrolysis processing is a novel route for the synthesis of many inorganic materials and the sintering of advanced materials[4,5,6,7].
Wan, Journal of Power Sources, 129 (2004) 264-269
Jiang, Journal of Power Sources, 102 (2001) 162-166
Lee, Journal of Power Sources, 196 (2011) 6682-6687
Online since: January 2012
Authors: Hong Xi Liu, Ye Hua Jiang, Zhong Zhang, Xiao Wei Zhang, Sheng Wei Ji
Dissolution Behavior of WC Reinforced Particles on Carbon Steel Surface during Laser Cladding Process
Zhong Zhang, Hongxi Liu *, Xiaowei Zhang, Shengwei Ji and Yehua Jiang
School of Materials Science and Engineering, Kunming University of Science and Technology, Kunming, Yunnan, 650093, China
Corresponding author (Hongxi Liu): vipliuhx@yahoo.com.cn
Keywords: Laser cladding, WC reinforced particle, Microstructure, Dissolution behavior, Medium-carbon steel.
Introduction Tungsten carbide is widely used as hard materials owning to its high hardness, good wear resistance and excellent thermal stability.
Experimental procedures A commercial 45 medium-carbon steel sheet was used as the substrate materials in this experimental.
-L Martin: Materials Science and Engineering:A Vol. 246(1998),p. 11-24
[14] Jinping Suo, Di Feng, Heli Luo, et al.: Journal of Functional Materials Vol. 34(2003),p. 221-223,in Chinese
Introduction Tungsten carbide is widely used as hard materials owning to its high hardness, good wear resistance and excellent thermal stability.
Experimental procedures A commercial 45 medium-carbon steel sheet was used as the substrate materials in this experimental.
-L Martin: Materials Science and Engineering:A Vol. 246(1998),p. 11-24
[14] Jinping Suo, Di Feng, Heli Luo, et al.: Journal of Functional Materials Vol. 34(2003),p. 221-223,in Chinese
Online since: June 2012
Authors: Xuan Ri Shen, Zhou Wei Duan, Guang Hua Xia, Zhe Liu, Peng Li
It also has been applied widely in the field of biomedical materials and clinical medical [3, 4].
Experimental Materials.
Materials Science Technology, Vol.14 (1992), p, 179-208 [4]Kevin R, Steadman J R, Rodkey W G, The Journal of Bone Joint Surgery, Vol.79(1997) ,p,1770-7 [5] Khor E.
Journal of Materials Science, Vol,7(1996),p, 215-221 [8] L.H.H, Olde Damink.
J,.Dijkstra , M,J A, Luyn, P.B.Wachem,P,Nieuwenhuis and J,Feijen, Journal of Materials Science,Vol,6( 1995),p,460-472 [9] Ming T S, Ju C H, Geng C Y,et al.
Experimental Materials.
Materials Science Technology, Vol.14 (1992), p, 179-208 [4]Kevin R, Steadman J R, Rodkey W G, The Journal of Bone Joint Surgery, Vol.79(1997) ,p,1770-7 [5] Khor E.
Journal of Materials Science, Vol,7(1996),p, 215-221 [8] L.H.H, Olde Damink.
J,.Dijkstra , M,J A, Luyn, P.B.Wachem,P,Nieuwenhuis and J,Feijen, Journal of Materials Science,Vol,6( 1995),p,460-472 [9] Ming T S, Ju C H, Geng C Y,et al.
Online since: October 2012
Authors: Qiang Li, Jin Xi Miao, Da Guo Wang
Acknowledgements
This work was financially supported by the National Natural Science Foundation of China (41072235) and the Natural Science Foundation of LiaoNing Province of China (20102006).
Sharan: International Journal of Rock Mechanics & Mining Science Vol. 40(2003), p. 817–824
Kyung, J.K Yong: International Journal of Rock Mechanics & Mining Science Vol. 43(2006), p. 616–622
Cai: Rock Mechanics and Engineering (Science press, China 2002) (in Chinese)
Wang: Journal of Northeastern University (Natural Science) Vol. 26(2005), p.160–163 (in Chinese)
Sharan: International Journal of Rock Mechanics & Mining Science Vol. 40(2003), p. 817–824
Kyung, J.K Yong: International Journal of Rock Mechanics & Mining Science Vol. 43(2006), p. 616–622
Cai: Rock Mechanics and Engineering (Science press, China 2002) (in Chinese)
Wang: Journal of Northeastern University (Natural Science) Vol. 26(2005), p.160–163 (in Chinese)
Online since: August 2012
Authors: Kun Sun, Yuan Xu, Jin Hao Liu
Experimental procedure
1.1 Materials investigated
The materials investigated, which had different types, are TA7, TC6 and TB8, respectively.
References [1] Anon: submitted to Journal of Advanced Materials & Processes (1999)
[12] SUN Kun, WANG Fuchi, CHENG Xingwang, MIAO Pu, and ZHAO Shuangzan: submitted to Journal of RARE METAL MATERIALS AND ENGINEERING (2009)
[13] SUN Kun, WANG Fuchi, CHENG Xingwang, MIAO Pu, and ZHAO Shuangzan: submitted to Journal of RARE METAL MATERIALS AND ENGINEERING (2009)
[15] GAO Lingqing, ZHU Jinhua, LI Hui, and SUN Jianke: submitted to Journal of RARE METAL MATERIALS AND ENGINEERING (2008)
References [1] Anon: submitted to Journal of Advanced Materials & Processes (1999)
[12] SUN Kun, WANG Fuchi, CHENG Xingwang, MIAO Pu, and ZHAO Shuangzan: submitted to Journal of RARE METAL MATERIALS AND ENGINEERING (2009)
[13] SUN Kun, WANG Fuchi, CHENG Xingwang, MIAO Pu, and ZHAO Shuangzan: submitted to Journal of RARE METAL MATERIALS AND ENGINEERING (2009)
[15] GAO Lingqing, ZHU Jinhua, LI Hui, and SUN Jianke: submitted to Journal of RARE METAL MATERIALS AND ENGINEERING (2008)
Online since: October 2014
Authors: S. Sharif, Wahaizad Safiei, Ahmad Fairuz Mansor, Mohd Halimudin Mohd Isa
Literature Reviews
S.Gopalakannan et al., 2012 investigated effect of electrode materials on EDM of 316L and 17-4 PH stainless steel.
International Journal of Advanced Technology & Engineering Research. 2(2): 2250-3536
World Academy of Science, Engineering and Technology. 3(9): 770-775 [5] Subramaniam Gopalakannan and Thiagarajan Senthilvelan (2012).
Effect of Electrode Materials on Electric Discharge Machining of 316 L and 17-4 PH Stainless Steels.
Journal of Minerals and Materials Characterization and Engineering. 11: 685-690 [6] S Gopalakannan T Senthilvelan and S Ranganathan (2012).
International Journal of Advanced Technology & Engineering Research. 2(2): 2250-3536
World Academy of Science, Engineering and Technology. 3(9): 770-775 [5] Subramaniam Gopalakannan and Thiagarajan Senthilvelan (2012).
Effect of Electrode Materials on Electric Discharge Machining of 316 L and 17-4 PH Stainless Steels.
Journal of Minerals and Materials Characterization and Engineering. 11: 685-690 [6] S Gopalakannan T Senthilvelan and S Ranganathan (2012).
Online since: January 2012
Authors: Shahrum Abdullah, Mohd Zaki Nuawi, Mazian Mohammad, Nordin Jamaludin
Material.
Medium carbon steel with the series of SAE 1045 was used as the materials throughout the experiments.
Besides that, the behaviour of the materials during the fatigue test can be observed by segmenting the signals into severals periods of time prior to failure.
Izawa: Journal of Nuclear Science and Technology Vol. 39(2002), p. 514
Al: Journal of Science and Technology of Advanced Materials (2007)
Medium carbon steel with the series of SAE 1045 was used as the materials throughout the experiments.
Besides that, the behaviour of the materials during the fatigue test can be observed by segmenting the signals into severals periods of time prior to failure.
Izawa: Journal of Nuclear Science and Technology Vol. 39(2002), p. 514
Al: Journal of Science and Technology of Advanced Materials (2007)
Online since: November 2005
Authors: Uilame Umbelino Gomes, Francisca de Fatima P. Medeiros, F.A.O. Fontes, K.K.P. Gomes, C.P. Souza, J.F. Sousa
Journal Of Material Science, Victoria: Chapman & Hall,
28, 6657-6664
Gomes, Synthesis of tungsten carbide through gas-solid reaction at low temperatures, Materials Science and Engineering A, (2001), vol. 315, 1-2, p. 58-62
Weimer, (1997), Carbide, Nitride And Boride Materials Synthesis And Processing.
Metallurgical And Materials Transaction B, 31b, 391-402, (2000)
Elsevier Science, 282/283, 101-119, (1996).
Gomes, Synthesis of tungsten carbide through gas-solid reaction at low temperatures, Materials Science and Engineering A, (2001), vol. 315, 1-2, p. 58-62
Weimer, (1997), Carbide, Nitride And Boride Materials Synthesis And Processing.
Metallurgical And Materials Transaction B, 31b, 391-402, (2000)
Elsevier Science, 282/283, 101-119, (1996).
Online since: December 2014
Authors: Yun Jun Luo, Abbas Tanver, Mu Hua Huang, Ze Huan Hei
Chemical Kinetic Studies on Polyurethane Formation of GAP and HTPB with IPDI by Using In-Situ FT-IR Spectroscopy
Abbas Tanver*, Mu-Hua Huang, LUO Yun-jun, Zehuan Hei
(School of Materials and Engineering Science, Beijing Institute of Technology, Beijing, 100081, China)
For correspondence: tanvermughal@gmail.com
Key words: In-Situ FT-IR; glycidyl azide polymer (GAP); hydroxyl terminated poly butadiene (HTPB); chemical kinetics; polyurethane; dibutyl tin dilurate (DBTDL).
Experimental: Materials Characteristics: Glycidyl azide polymer (GAP) having molecular weight and hydroxyl contents 3700 g mol-1 and 29.15 mg KOH g-1 respectively, Nitrogen contents, water contents and functionality are 41.3 %, 0.217 % and 1.92 respectively.
Chinese Journal of Energetic Materials, 2011, 19(3): 291-294
Journal of Applied Polymer Science, 2008, Vol. 110, 908–914
Wen Qing Zhen.; Zou Chao.; Zhu Jinhua, FT-IR Study of polyurethane curing behavior [J] Polymer Materials Science and Engineering, 2003, 19 (1): 108-111
Experimental: Materials Characteristics: Glycidyl azide polymer (GAP) having molecular weight and hydroxyl contents 3700 g mol-1 and 29.15 mg KOH g-1 respectively, Nitrogen contents, water contents and functionality are 41.3 %, 0.217 % and 1.92 respectively.
Chinese Journal of Energetic Materials, 2011, 19(3): 291-294
Journal of Applied Polymer Science, 2008, Vol. 110, 908–914
Wen Qing Zhen.; Zou Chao.; Zhu Jinhua, FT-IR Study of polyurethane curing behavior [J] Polymer Materials Science and Engineering, 2003, 19 (1): 108-111