Sort by:
Publication Type:
Open access:
Publication Date:
Periodicals:
Search results
Online since: February 2022
Authors: Ali Hubi Haleem, Haydar Al-Ethari, Kawthar Y. Al-Dulaimi
Intermetallic materials are usually fragile and complicated to machine.
Ma, "Microstructural and Mechanical Characteristics of in Situ Metal Matrix Composites", Materials Science and Engineering: R: Reports, vol. 29, pp. 49-113 (2000)
Kudoh, “Microstructure and Mechanical Properties of NiAl Intermetallic Compound Synthesized By Reactive Sintering Under Pressure”, Journal of Materials Processing Technology 63, 293-302 (1997)
[9] Michael Bauccio, “Engineered Materials Reference Book”,, ASM International, Materials Park, OH vol. 38 pp:54- 57(1999)
Series: Materials Science and Engineering 518 (2019) 032032 IOP Publishing doi:10.1088/1757-899X/518/3/03203.
Ma, "Microstructural and Mechanical Characteristics of in Situ Metal Matrix Composites", Materials Science and Engineering: R: Reports, vol. 29, pp. 49-113 (2000)
Kudoh, “Microstructure and Mechanical Properties of NiAl Intermetallic Compound Synthesized By Reactive Sintering Under Pressure”, Journal of Materials Processing Technology 63, 293-302 (1997)
[9] Michael Bauccio, “Engineered Materials Reference Book”,, ASM International, Materials Park, OH vol. 38 pp:54- 57(1999)
Series: Materials Science and Engineering 518 (2019) 032032 IOP Publishing doi:10.1088/1757-899X/518/3/03203.
Online since: May 2014
Authors: Li Shun Chen, Jian Tong Xu, Zhong Yang, Xiao Chen
The mechanism dedicates that any aluminium siliceous materials may become a preparation of polymer materials [2].
Materials and Methods Materials Slag: slag is water quenched slag derived from Wuhan Iron and steel plant, grinding 60 min by the 500×500mm experimental standard grinding mill.
Mineral polymer materials research and development [J].Earth Science Frontiers, 2002, 9(4):3982407 [3] Deyu Kong, Junzhi Zhang, Tongyuan Ni, Jing Jiang, Cheng Fang.
[6] Van JAARSVELD J S G,Van DEVENTER J S J.The potential use of geopolymeric materials to immobilize toxic metalsPart II Materials and leaching characteristics[J].Miner Eng,1999,12(1):75 -91
Journal Of Building Materials.2007, 10(2):214-218
Materials and Methods Materials Slag: slag is water quenched slag derived from Wuhan Iron and steel plant, grinding 60 min by the 500×500mm experimental standard grinding mill.
Mineral polymer materials research and development [J].Earth Science Frontiers, 2002, 9(4):3982407 [3] Deyu Kong, Junzhi Zhang, Tongyuan Ni, Jing Jiang, Cheng Fang.
[6] Van JAARSVELD J S G,Van DEVENTER J S J.The potential use of geopolymeric materials to immobilize toxic metalsPart II Materials and leaching characteristics[J].Miner Eng,1999,12(1):75 -91
Journal Of Building Materials.2007, 10(2):214-218
Online since: December 2013
Authors: C.T. Pan, F.T. Hsu, C.C. Nien, Z.H. Liu, Y.J. Chen, P.H. Chen
Raw materials of LTCC energy harvester are ceramic and silver.
Moreover, PCB is made of plastic and copper, both materials are quite cheap.
The material of coil is copper and Nd-Fe-B permanent magnet can provide magnetic field of 1.44 Tesla.
First, raw materials are melted and casted into ingots.
Tudor, Vibration based electromagnetic micropower generator on silicon, Journal of Applied Physics. 99 (2006) 511-513
Moreover, PCB is made of plastic and copper, both materials are quite cheap.
The material of coil is copper and Nd-Fe-B permanent magnet can provide magnetic field of 1.44 Tesla.
First, raw materials are melted and casted into ingots.
Tudor, Vibration based electromagnetic micropower generator on silicon, Journal of Applied Physics. 99 (2006) 511-513
Online since: February 2014
Authors: Siti Fauziah Toha, Nur Hazima Faezaa, Mohd. Khair Hassan, Babul Salam Ksm Ibrahim, Nor Aziah Mohd. Azubair, Nizam Hanis
Bao-hua, Effects of carbonaceous materials on the physical and electrochemical performance of a LiFePO4 cathode for lithium-ion batteries.
New Carbon Materials, 2011. 26(3): p. 161-170
Goodenough, Phospho-olivines as Positive-Electrode Materials for Rechargeable Lithium Batteries.
Systems Science, 2010. 36(4): p. 13-31
Cognitive Science, 1990. 14(2): p. 179-211
New Carbon Materials, 2011. 26(3): p. 161-170
Goodenough, Phospho-olivines as Positive-Electrode Materials for Rechargeable Lithium Batteries.
Systems Science, 2010. 36(4): p. 13-31
Cognitive Science, 1990. 14(2): p. 179-211
Online since: June 2013
Authors: Chrystelle A. Bernard, Joao Pedro M. Correia, Saïd Ahzi, Nadia Bahlouli
Table 1: Material constants of hyperelastic models.
Mehrabani-Zeinabad, A solution for warpage in polymeric product by plug-assisted thermoforming, European polymer Journal 42 (2006) 1836-1843. [3] A.
Emond, Wall thickness distribution in plug-assist vacuum formed strawberry containers, Polymer Engineering and Science 37 (1997) 178-182. [4] R.
Mooney, A theory of large elastic deformation, Journal of Applied Physics 11 (1940) 582-592. [16] O.
Boyce, A three-dimensional constitutive model for the large stretch behavior of rubber elastic materials, J.
Mehrabani-Zeinabad, A solution for warpage in polymeric product by plug-assisted thermoforming, European polymer Journal 42 (2006) 1836-1843. [3] A.
Emond, Wall thickness distribution in plug-assist vacuum formed strawberry containers, Polymer Engineering and Science 37 (1997) 178-182. [4] R.
Mooney, A theory of large elastic deformation, Journal of Applied Physics 11 (1940) 582-592. [16] O.
Boyce, A three-dimensional constitutive model for the large stretch behavior of rubber elastic materials, J.
Online since: June 2014
Authors: Jun Yong Liu, Liu Jun Zhang
The material selection of separation layer
The material selection of separation layer should be based on local materials, road grade, subgrade height and hydro-geological condition [15].
Conclusions (1) The techniques of salinization prevention for highway subgrade were put forward depending on the project of Qarham to Golmud expressway: Coarse-grained materials such as gravel soil were used as subgrade filler; the gravel separation layer and geotextile barrier layer were set in subgrade structure; (2) The separation layer trial road was built to finally determine the settings of the separation layer and the construction technology
[8] TANG,S,F., FU,Q,L and YAO,R,J., “Research on Rising height of water capillarity in sulphate salty soil”, Shanxi Science&Technology of Communications, (4) (2007), pp. 10-11
[12] LONG,J,Y and CHU,Y,C., “First salt lake railway in China- Qinghai to Tibet Railway”, Journal of Railway Engineering Society, (Supp) (2005), pp. 167-172
[16] Chongqing Highway Traffic Science Research Institute: “Technical Specifications for Application of Geosynthetics in Highway (JTJ/T 019-98)”, Bei Jing, China Communications Press (1998).
Conclusions (1) The techniques of salinization prevention for highway subgrade were put forward depending on the project of Qarham to Golmud expressway: Coarse-grained materials such as gravel soil were used as subgrade filler; the gravel separation layer and geotextile barrier layer were set in subgrade structure; (2) The separation layer trial road was built to finally determine the settings of the separation layer and the construction technology
[8] TANG,S,F., FU,Q,L and YAO,R,J., “Research on Rising height of water capillarity in sulphate salty soil”, Shanxi Science&Technology of Communications, (4) (2007), pp. 10-11
[12] LONG,J,Y and CHU,Y,C., “First salt lake railway in China- Qinghai to Tibet Railway”, Journal of Railway Engineering Society, (Supp) (2005), pp. 167-172
[16] Chongqing Highway Traffic Science Research Institute: “Technical Specifications for Application of Geosynthetics in Highway (JTJ/T 019-98)”, Bei Jing, China Communications Press (1998).
Online since: May 2012
Authors: Hong Liang Chen, Xue Ying Song, Xiao Jun Hu, Cai Xia Jin, Ji Song Yang, Yong Xia Hou, Yu Shuang Li
Therefore, the Ministry of Science and Technology has set the National Science & Technology Pillar Program.
Materials and methods Column leaching device.
Wang: Journal of agricultural environmental science, Vol. 26(2007), p.1386 [8] M.L.
Chen: Journal of Jilin University, Vol. 44(2006): p. 673 [9] H.J.
Xia: Journal of Anhui agricultural sciences, 38(2010), p. 4118
Materials and methods Column leaching device.
Wang: Journal of agricultural environmental science, Vol. 26(2007), p.1386 [8] M.L.
Chen: Journal of Jilin University, Vol. 44(2006): p. 673 [9] H.J.
Xia: Journal of Anhui agricultural sciences, 38(2010), p. 4118
Online since: March 2011
Authors: Yan He, Zhen Chao Chen, Xue Sheng Wu
Thermal Conductivity of Composite Silicone Rubber Filled with Graphite/Silicone Carbide
HE Yan1, 2,a, WU Xue-sheng2, b and CHEN Zhen-chao2,c
1Shandong Provincial Key Laboratory of Polymer Material Advanced Manufactorings Technology,
2College of Electromechanical Engineering, Qingdao University of Science & Technology,
No.69 Song ling Road, Qingdao, Shandong Province, 266061, P.R.China
aheyan_sd@163.com, bwxs9872002@163.com, cxiaotun19@163.com
Key words: silicone rubber; silicone carbide; graphite; curing agent; thermal conductivity
Abstract.
Experimental Materials.
Acknowledgements The authors are thankful for the support in part by Department of Science and Technology of Shandong province, P.R.China for these projects (No. 2008BS04028 and No.2009ZRB01071) and are also grateful to Qingdao Municipal Science and Technology Commission for financial support in part of this project (No. 08-1-3-18-jch) References [1] K.S.Li and Q.Wang: Journal of Functional Materials, Vol. 33(2002), p.136 [2] Y.D.Li, F.F.Yan and Y.Z.Ma: Plastic Industry, Vol.34(2006), p.63 [3] K.M.Yang, F.L.Chen and L.Shen: Rubber Industry, Vol.52(2004), p.118 [4] Y.R.Fang and J.H.Wang: Organosilicon Material, Vol.22(2008), p.100 [5] L.X, Y.D.Tong and Y.D.Hua: Special Purpose Rubber Products Vol. 28(2007), p.55 [6] C.C.Tu, S.H.Qi, W.Y.Zhou, Z,H,Zhao and B.Wu: Rubber Industry Vol. 54(2007), p.93 [7] A.K.Yoong, H.Takuaya and E.Morinobu: Scripta Materialia Vol. 54(2006), p.31 [8] J.J.Wang and X.S.Yi: Composites Science and Technology Vol. 64(2004), p.1623 [9] Agari.Y, Ueda.A and
Tanaka.M: Applied Polymer Science Vol. 40(1990), p.929 [10] M.M.Tang, M.Z.Rong and C.G.Ma:China Synthetic Rubber Industry Vol. 26 (2003), p.104 [11] Agari.Y, Ueda.A and S.Nagai: Applied Polymer Science Vol. 42(1991), p. 1665 [12] Y.He, Z.C.Chao and L.X.Ma: Advanced Polymer Processing (Trans Tech Publications, Switzerland 2009)
[13] Q.Wang, W.Gao and Z.M.Xie: Applied Polymer Science Vol. 89(2003), p.2397 [14] Q.H.Mu, S.Y.Feng and G.Z.Diao: Polymer Composites Vol. 28(2007), p.125 [15] W.Y.Zhou, S.H Qi and H.Z.Zhao: Polymer Composites Vol. 28(2007), p.23 [16] W.Tang, X.Wang and X.L.Cai: New Chemical Materials Vol. 34(2006), p.19 [17] W.Y.Zhou, C.F.Wang, Q.L.An and H.Y.Ou: Journal of Composite Materials Vol. 42(2008), p.173 [18] L.Li and C.G.Wang: Journal of Polymer Bulletin Vol. 7(2007), p.25
Experimental Materials.
Acknowledgements The authors are thankful for the support in part by Department of Science and Technology of Shandong province, P.R.China for these projects (No. 2008BS04028 and No.2009ZRB01071) and are also grateful to Qingdao Municipal Science and Technology Commission for financial support in part of this project (No. 08-1-3-18-jch) References [1] K.S.Li and Q.Wang: Journal of Functional Materials, Vol. 33(2002), p.136 [2] Y.D.Li, F.F.Yan and Y.Z.Ma: Plastic Industry, Vol.34(2006), p.63 [3] K.M.Yang, F.L.Chen and L.Shen: Rubber Industry, Vol.52(2004), p.118 [4] Y.R.Fang and J.H.Wang: Organosilicon Material, Vol.22(2008), p.100 [5] L.X, Y.D.Tong and Y.D.Hua: Special Purpose Rubber Products Vol. 28(2007), p.55 [6] C.C.Tu, S.H.Qi, W.Y.Zhou, Z,H,Zhao and B.Wu: Rubber Industry Vol. 54(2007), p.93 [7] A.K.Yoong, H.Takuaya and E.Morinobu: Scripta Materialia Vol. 54(2006), p.31 [8] J.J.Wang and X.S.Yi: Composites Science and Technology Vol. 64(2004), p.1623 [9] Agari.Y, Ueda.A and
Tanaka.M: Applied Polymer Science Vol. 40(1990), p.929 [10] M.M.Tang, M.Z.Rong and C.G.Ma:China Synthetic Rubber Industry Vol. 26 (2003), p.104 [11] Agari.Y, Ueda.A and S.Nagai: Applied Polymer Science Vol. 42(1991), p. 1665 [12] Y.He, Z.C.Chao and L.X.Ma: Advanced Polymer Processing (Trans Tech Publications, Switzerland 2009)
[13] Q.Wang, W.Gao and Z.M.Xie: Applied Polymer Science Vol. 89(2003), p.2397 [14] Q.H.Mu, S.Y.Feng and G.Z.Diao: Polymer Composites Vol. 28(2007), p.125 [15] W.Y.Zhou, S.H Qi and H.Z.Zhao: Polymer Composites Vol. 28(2007), p.23 [16] W.Tang, X.Wang and X.L.Cai: New Chemical Materials Vol. 34(2006), p.19 [17] W.Y.Zhou, C.F.Wang, Q.L.An and H.Y.Ou: Journal of Composite Materials Vol. 42(2008), p.173 [18] L.Li and C.G.Wang: Journal of Polymer Bulletin Vol. 7(2007), p.25
Online since: October 2006
Authors: Hao Qiang Yang, Guo Jie Huang, Lei Li, Shui Sheng Xie
A New Technique of Casting-rolling Strips for Semi-solid Magnesium
Alloys, Journal of Materials Science Technology Vol. 21(6) (2006), pp. 1-3
[2] H.
Journal of Materials Processing Technology (2004), pp. 1662-1667 [3] J.D.
A coupled solidification analysis of materials and cooling roller in direct rolling process.
Journal of Materials Processing Technology (1997), pp. 277-286 [5] Woo-Seung Kim, Deok-Soo Kim, A.V.
International Journal of Heat and Mass Transfer (2000), pp. 3811-3822 [6] L.J.
Journal of Materials Processing Technology (2004), pp. 1662-1667 [3] J.D.
A coupled solidification analysis of materials and cooling roller in direct rolling process.
Journal of Materials Processing Technology (1997), pp. 277-286 [5] Woo-Seung Kim, Deok-Soo Kim, A.V.
International Journal of Heat and Mass Transfer (2000), pp. 3811-3822 [6] L.J.
Online since: September 2011
Authors: Wen Wen Liu, Yun Hai Du, Zhi Wang
Morteza: International Journal of Rock Mechanics and Mining Sciences, Vol. 46 (2009) No.3, p. 498
Johns: Applied Mechanics and Materials, Vol. 24-25 (2010), p. 331
She: Building Science, Vol. 21 (2005) No.3, p. 39.
Li: Journal of Kunming University of Science and Technology, Vol. 30 (2005) No.2, p. 55.
He: Journal of Experimental Mechanics, Vol. 15 (2000) No.3, p. 280.
Johns: Applied Mechanics and Materials, Vol. 24-25 (2010), p. 331
She: Building Science, Vol. 21 (2005) No.3, p. 39.
Li: Journal of Kunming University of Science and Technology, Vol. 30 (2005) No.2, p. 55.
He: Journal of Experimental Mechanics, Vol. 15 (2000) No.3, p. 280.