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Online since: July 2020
Authors: Hui Ru Ye, Xian Yue Dong, Min Xu, Xin Cheng, Jin Gui Dai, Jie Zhang
Lanthanide luminescence for functional materials and bio-sciences[J].
Journal of Jinan University(Science and Technology), 2005, 19(2): 113-119
Journal of Yanan University(Natural Science Edition), 2013, 32(4): 37-40
Journal of Applied Polymer Science, 2010, 25(3): 359-368
Journal of Applied polymer Science. 1980, 25(12): 2007-2017.
Journal of Jinan University(Science and Technology), 2005, 19(2): 113-119
Journal of Yanan University(Natural Science Edition), 2013, 32(4): 37-40
Journal of Applied Polymer Science, 2010, 25(3): 359-368
Journal of Applied polymer Science. 1980, 25(12): 2007-2017.
Online since: April 2012
Authors: Xue Feng Cao
Cauchy Integral Formula on the Integration Path on Singularity in Mechanics of Materials
Cao Xuefeng
College of Mathematics and Computer Science, Huanggang Normal College,
Hubei Huanggang 438000
Keywords: Mechanics of Materials; Integral Theorem; Cauchy Integral Formula
Abstract.
This paper is a combination of conditions and the knowledge of singular integrals, the integrand function analysis of the deformation, the singularity in the integral for a class on the path integral come up with a complex new formula for the solution,the formula can be used in these areas,such as mechanics of materials.
China Machine Press. 2005 [5] Zhao C.H., Zhang J., Zheng X.Y., Chen S.J., Liu X.M, Analysis of Tower Crane Monitoring and Life Prediction, IEIT Journal of Adaptive & Dynamic Computing, 2012(2), Apr 2012, pp:12-16.
DOI=10.5813/www.ieit-web.org/IJADC/2012.2.3 [6] Zhao C.H., Chen S.J., Liu X.M., Zhang J., Zing J, Study on Modeling Methods of Flexible Body in ADAMS, IEIT Journal of Adaptive & Dynamic Computing, 2012(2), Apr 2012, pp:17-22.
DOI=10.5813/www.ieit-web.org/IJADC/2012.2.4 [7] Chen G.Q., Jiang Z.S., Wu Y.Q, A New Approach for Numerical Manifold Method, IEIT Journal of Adaptive & Dynamic Computing, 2012(2), Apr 2012, pp: 23-34.
This paper is a combination of conditions and the knowledge of singular integrals, the integrand function analysis of the deformation, the singularity in the integral for a class on the path integral come up with a complex new formula for the solution,the formula can be used in these areas,such as mechanics of materials.
China Machine Press. 2005 [5] Zhao C.H., Zhang J., Zheng X.Y., Chen S.J., Liu X.M, Analysis of Tower Crane Monitoring and Life Prediction, IEIT Journal of Adaptive & Dynamic Computing, 2012(2), Apr 2012, pp:12-16.
DOI=10.5813/www.ieit-web.org/IJADC/2012.2.3 [6] Zhao C.H., Chen S.J., Liu X.M., Zhang J., Zing J, Study on Modeling Methods of Flexible Body in ADAMS, IEIT Journal of Adaptive & Dynamic Computing, 2012(2), Apr 2012, pp:17-22.
DOI=10.5813/www.ieit-web.org/IJADC/2012.2.4 [7] Chen G.Q., Jiang Z.S., Wu Y.Q, A New Approach for Numerical Manifold Method, IEIT Journal of Adaptive & Dynamic Computing, 2012(2), Apr 2012, pp: 23-34.
Online since: June 2012
Authors: Guang Yin Wang
Investigation Progress on Microelectronic Materials:Carbon
Nanotube and Graphene
GuangYin Wang
Department of Chemistry, Dezhou University, Dezhou 253023, China
Email: wgy_sddz@163.com
Keywords: Microelectronic materials; Carbon nanotube; graphene
Abstract: In this paper, the structures and electrical properties of carbon nanotube and graphene were introduced, which have advantage in making microelectronic materials.
Besides, graphene may be used to make composite material, cell, super capacitance, hydrogen storage material, field emission material and ultra sensitive sensor. 1.4.
References [1] Ming Tian: Semiconductor Technology Vol. 30 (2005), p.5-7 [2] R.M.Westervelt : Science Vol. 320 (2008), p. 324-325 [3] Su Xunwen.
Journal of Nanjing Institute of Industry Technology Vol. 5 (2005), p. 88-91 [4] Jiao L Y,Zhang L,Wang X R: Nature Vol. 458 (2009), p. 877-880 [5] Zhao Zhiwei,Zhang Chongcai: Journal of Sichuan University of Science and Technology Vol. 23 (2004), p. 243-245 [6] Huang Guirong, Chen Jian: Carbon Techniques Vol. 28 (2009), p. 35-39 [7] Ang Zheng,Shi Yi,Gu Shulin: Research & Progress of Solid State Electronics Vol. 22(2002), p. 131-136 [8] Chen Z,Tong L M,Wu Z Y: Applied Physics Letters Vol. 92(2008), p. 103116-103119 [9] Kosynkin D.
L.and Sinitskii A: Nature Vol. 458 (2009), p. 872-876 [10] Li X L,Zhang L and Wang X R: Journal of the American Chemical Society Vol. 129 (2007), p. 4890-4891
Besides, graphene may be used to make composite material, cell, super capacitance, hydrogen storage material, field emission material and ultra sensitive sensor. 1.4.
References [1] Ming Tian: Semiconductor Technology Vol. 30 (2005), p.5-7 [2] R.M.Westervelt : Science Vol. 320 (2008), p. 324-325 [3] Su Xunwen.
Journal of Nanjing Institute of Industry Technology Vol. 5 (2005), p. 88-91 [4] Jiao L Y,Zhang L,Wang X R: Nature Vol. 458 (2009), p. 877-880 [5] Zhao Zhiwei,Zhang Chongcai: Journal of Sichuan University of Science and Technology Vol. 23 (2004), p. 243-245 [6] Huang Guirong, Chen Jian: Carbon Techniques Vol. 28 (2009), p. 35-39 [7] Ang Zheng,Shi Yi,Gu Shulin: Research & Progress of Solid State Electronics Vol. 22(2002), p. 131-136 [8] Chen Z,Tong L M,Wu Z Y: Applied Physics Letters Vol. 92(2008), p. 103116-103119 [9] Kosynkin D.
L.and Sinitskii A: Nature Vol. 458 (2009), p. 872-876 [10] Li X L,Zhang L and Wang X R: Journal of the American Chemical Society Vol. 129 (2007), p. 4890-4891
Online since: December 2012
Authors: Ling Long Kong, Jie Zhao, Xu Ma, Ning Xu, Zhi Yuan Wang, Lei Li
Preparation of high performance silicon/carbon anode materials for lithium ion battery by high energy ball milling
Linglong Kong1,a , Jie Zhao1,b*, Zhiyuan Wang2, Lei Li3, Ning Xu3, Xu Ma1,c*
1School of Materials Science & Engineering, Key Lab of Display Materials & Photoelectric Devices Ministry of Education,Tianjin University of Technology, Tianjin 300384, China
2School of Materials Science & Engineering, Tianjin University, Tianjin 300072, China
3Tianjin B&M Science and Technology, Tianjin 300384, China
alinglongkong@163.com, bvzhaoj@ tjut.edu.cn, cmaxumax_cn@sina.com
Keywords: high energy ball milling; lithium ion battery; silicon/carbon; anode materials
Abstract.
High specific capacity and good cycle performance of silicon/carbon composite materials reveal that they are promising to replace the traditional carbon anode materials.
Preparation and Characterization of High Capacity Si-Cu/ C Composites as Anode Materials for Lithium-Ion Battery Anodes [J].Chinese Journal of Rare Metals,2007, 31 (1): p.63-66
Journal of materials processing technology. 2008, 208(1-3): p.35-41
Science, 2011, 334(6052): p.75-79.
High specific capacity and good cycle performance of silicon/carbon composite materials reveal that they are promising to replace the traditional carbon anode materials.
Preparation and Characterization of High Capacity Si-Cu/ C Composites as Anode Materials for Lithium-Ion Battery Anodes [J].Chinese Journal of Rare Metals,2007, 31 (1): p.63-66
Journal of materials processing technology. 2008, 208(1-3): p.35-41
Science, 2011, 334(6052): p.75-79.
Online since: July 2011
Authors: Ivan A. Bataev, Vjacheslav I. Mali, Vladimir Burov, Aleksandr Smirnov, Elena A. Prikhodko, Anatoliy A. Bataev, Evgeniy Golovin
In experiments carried out in the current research number of cycles to failure of multilayer materials was higher than those for bulk materials.
Introduction The increase of the structural materials' mechanical properties is one of the classical problems of materials science.
Materials and methods Low carbon steel was used as a material for research.
Tomoshige: Journal of materials processing technology Vol. 195 (2008), pp. 232-240 [3] H.H.
Zimmerly: Journal of Materials Science 33 (1998) pp. 5327 – 5338 [5] I.
Introduction The increase of the structural materials' mechanical properties is one of the classical problems of materials science.
Materials and methods Low carbon steel was used as a material for research.
Tomoshige: Journal of materials processing technology Vol. 195 (2008), pp. 232-240 [3] H.H.
Zimmerly: Journal of Materials Science 33 (1998) pp. 5327 – 5338 [5] I.
Online since: July 2014
Authors: Yan Jun Wang, Shou Ren Wang, Ying Han, Guang Ji Xue
It is added solid lubricant to the matrix materials in the composite.
Experiments Test materials.
The main function of the matrix in composite materials is to sustain load.
[2] L.Y.Yang, Z.M.Liu, Microstructure and tribological properties of Ti-Al self-lubricating materials, Journal of Wuhan University of technology. 30 (2008) 118-120
[7] J.S.Han, W.M.Liu, J.J.Lv, Tribological properties of Fe-Mo-(MoS2/PbO) high temperature self-lubricating material, Journal of material science and engineering. 26 (2008) 117-120
Experiments Test materials.
The main function of the matrix in composite materials is to sustain load.
[2] L.Y.Yang, Z.M.Liu, Microstructure and tribological properties of Ti-Al self-lubricating materials, Journal of Wuhan University of technology. 30 (2008) 118-120
[7] J.S.Han, W.M.Liu, J.J.Lv, Tribological properties of Fe-Mo-(MoS2/PbO) high temperature self-lubricating material, Journal of material science and engineering. 26 (2008) 117-120
Online since: June 2013
Authors: Chang Quan He
Table 1 lists most of the current application phase change building materials [4].
In China , by adding phase change material to the matrix we got insulation materials that could be used for building envelope.
By the addition of phase change materials heat storage properties of materials are improved,and the thermal stability of the material is also improved, and does not affect the strength, durability and other properties of materials. [5] The advantages and disadvantages of phase change materials Composite technology of phase change materials mainly includes:(1)put thePCM package ( including container packaging, microcapsule encapsulation ) into building materials;(2) permeate PCM into porous matrix by immersion ( such as gypsum wallboard, concrete etc. ); (3)the PCM is directly mixed with building materials; (4) add the organic PCM to the building materials after emulsion.
Phase change materials as a new building insulation materials, has great advantages compared with sensible heat insulation materials, but it also has some problems, mainly includes[7]:(1) Type of phase change material is not available; (2)Preparation process of phase change building materials is not perfect, in order to prevent leakage.Considing with evaporation of phase change when used, they should be packaged, but package technology of phase change materials at present is still not perfect, this is also important problem of the phase change materials; (3)The high cost of the phase change materials when used.
[2] Liguang Xiao,Shuo Feng: Journal of Jilin Institute of Architecture & Civil Engineering,Vol.29 No.2(Apr.2012), p.35 [3] Yubin Zhou: Master's Degree Dissertation of Chongqing University, (Nov.2007), p.23 [4] Qidong Wang: Journal of Beijing Technology and Business University, (2005), p.5 [5] Leijing Su etc.: Energy Storage Science and Technology,Vol.1 No.2(Nov. 2012), p.113-114 [6] Yijian Wang:Chemical Building Material, (2009), p.25-27 [7] Guocai Zhang,Zhe Xu,Yuanfa Chen: Energy Science and Technology, (2012),p.74-81 [8] C.Murise, P.W.Egolf, D.Vuarnoz, P.Haas: International Journal of Refrigeration, (2010), p.1670-1675
In China , by adding phase change material to the matrix we got insulation materials that could be used for building envelope.
By the addition of phase change materials heat storage properties of materials are improved,and the thermal stability of the material is also improved, and does not affect the strength, durability and other properties of materials. [5] The advantages and disadvantages of phase change materials Composite technology of phase change materials mainly includes:(1)put thePCM package ( including container packaging, microcapsule encapsulation ) into building materials;(2) permeate PCM into porous matrix by immersion ( such as gypsum wallboard, concrete etc. ); (3)the PCM is directly mixed with building materials; (4) add the organic PCM to the building materials after emulsion.
Phase change materials as a new building insulation materials, has great advantages compared with sensible heat insulation materials, but it also has some problems, mainly includes[7]:(1) Type of phase change material is not available; (2)Preparation process of phase change building materials is not perfect, in order to prevent leakage.Considing with evaporation of phase change when used, they should be packaged, but package technology of phase change materials at present is still not perfect, this is also important problem of the phase change materials; (3)The high cost of the phase change materials when used.
[2] Liguang Xiao,Shuo Feng: Journal of Jilin Institute of Architecture & Civil Engineering,Vol.29 No.2(Apr.2012), p.35 [3] Yubin Zhou: Master's Degree Dissertation of Chongqing University, (Nov.2007), p.23 [4] Qidong Wang: Journal of Beijing Technology and Business University, (2005), p.5 [5] Leijing Su etc.: Energy Storage Science and Technology,Vol.1 No.2(Nov. 2012), p.113-114 [6] Yijian Wang:Chemical Building Material, (2009), p.25-27 [7] Guocai Zhang,Zhe Xu,Yuanfa Chen: Energy Science and Technology, (2012),p.74-81 [8] C.Murise, P.W.Egolf, D.Vuarnoz, P.Haas: International Journal of Refrigeration, (2010), p.1670-1675
Online since: September 2020
Edited by: Dumitru Nedelcu
The 37th volume of the journal "Advanced Engineering Forum" includes peer-reviewed manuscripts presenting the engineering solutions and research results dealing with contemporary problems in applied materials science, mechanical engineering, building engineering, applied mechanics, power engineering and engineering management.
Online since: September 2024
Authors: Bao Agula, Siriguleng Bao, Ling Zhen Gong
Journal of Materials Chemistry A, 2014, 2(10): 3317-3324
Journal of Colloid and Interface Science, 2021, 583: 40-49
ASEAN Journal on Science and Technology for Development, 2004, 21(1): 57-67
Journal of Materials Chemistry A, 2016, 4(38): 14693-14702
Journal of CO2 Utilization, 2019, 34: 656-667
Journal of Colloid and Interface Science, 2021, 583: 40-49
ASEAN Journal on Science and Technology for Development, 2004, 21(1): 57-67
Journal of Materials Chemistry A, 2016, 4(38): 14693-14702
Journal of CO2 Utilization, 2019, 34: 656-667
Online since: August 2014
Authors: Guo Jie Chen, Shao Guang Dong, Xin Chen
The k·p interaction calculations of conduction band and valence band of InN materials
Shaoguang Donga, *, Guojie Chen b, Xin Chen c
Science College of Foshan University, Foshan, Guangdong 528000, China
a email, dshgfosu@126.com; b email, chengj@126.com; c email,451807924@qq.com
Keywords: InN materials; k·p calculations; Conduction band; Valence band
Abstract.
Acknowledgement In this paper, the research was sponsored by the National Nature Science Foundation of China (Project No. 61178030) and Center for Collaborative Innovation of Functional Polymer Materials.
Fundamentals of Semiconductors: Physics and Materials Properties [C].
Journal of Applied Physics. 2003: 94: 6477
Journal of Applied Physics. 2008: 104: 013704
Acknowledgement In this paper, the research was sponsored by the National Nature Science Foundation of China (Project No. 61178030) and Center for Collaborative Innovation of Functional Polymer Materials.
Fundamentals of Semiconductors: Physics and Materials Properties [C].
Journal of Applied Physics. 2003: 94: 6477
Journal of Applied Physics. 2008: 104: 013704