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Online since: August 2015
Authors: Trevor A. Dean, Nan Li, Jian Guo Lin
Materials Science and Engineering: A, 2009. 516(1–2): p. 7-16
Journal of Achievements in Materials and Manufacturing Engineering, 2007. 22(1): p. 13-20
Metallurgical and Materials Transactions A, 2009. 40(13): p. 3117-3127
Journal of Multiscale Modelling, 2009. 1: p. 369-387
[23] Li, N., et al., Materials modelling for selective heating and press hardening of boron steel panels with graded microstructures.
Journal of Achievements in Materials and Manufacturing Engineering, 2007. 22(1): p. 13-20
Metallurgical and Materials Transactions A, 2009. 40(13): p. 3117-3127
Journal of Multiscale Modelling, 2009. 1: p. 369-387
[23] Li, N., et al., Materials modelling for selective heating and press hardening of boron steel panels with graded microstructures.
Online since: July 2013
Authors: Janice M. Dulieu-Barton, R.K. Fruehmann, Simon Quinn
In the current work, an in-situ stress based damage assessment approach targeted at composite materials is proposed.
Loss of material near either surface therefore greatly reduces the second moment of area and hence the stiffness, leading to a sharp increase in the stresses in the remaining material.
Chan, The application of thermoelastic stress analysis techniques to composite materials, Journal of Strain Analysis, 23 (1988) 137-143
Stanley, Development and applications of thermoelastic stress analysis, Journal of Strain Analysis, 33 (1998) 93-104
Savage, Design and commission of an experimental test rig to apply a full-scale pressure load on composite sandwich panels representative of aircraft secondary structure, Measurement Science and Technology, 21 (2010) 16 pp.
Loss of material near either surface therefore greatly reduces the second moment of area and hence the stiffness, leading to a sharp increase in the stresses in the remaining material.
Chan, The application of thermoelastic stress analysis techniques to composite materials, Journal of Strain Analysis, 23 (1988) 137-143
Stanley, Development and applications of thermoelastic stress analysis, Journal of Strain Analysis, 33 (1998) 93-104
Savage, Design and commission of an experimental test rig to apply a full-scale pressure load on composite sandwich panels representative of aircraft secondary structure, Measurement Science and Technology, 21 (2010) 16 pp.
Online since: February 2012
Authors: Xiao Ming Ling, De Wen Li, Duo Wang Fan
After the treatment of PCT to the surface of auto lamps within the automatic equipment, the adhesion between the base material and base painting films is enhanced to a great extent, and the quality and passing rate of production has been greatly improved.
Introduction The major automotive lamps are mainly manufactured with engineering plastic as the base material.
Acknowledgement The financial support of the National Major Science and Technology Achievements Transformation Project (grant No. 2010.142) and the Innovation Program of China’s Changzhou City (grant No.
References [1] Junling Li, Hui Yu: CleaningWorld.Vol.21(2005), pp. 31 (in Chinese) [2] Guozhu Zhang ,Haiwen Du ,Yueqin Liu:Electromechanical Components.Vol.21(2001), pp. 31 (in Chinese) [3] Xiaoming Ling, Duowang Fan: Journal of Lanzhou Jiaotong University (Natural Sciences).Vol.25(2006), pp. 107 (in Chinese) [4] Lianzhu Zhang, Xiulan Meng: Nuclear Fusion and Plasma Physics.
Introduction The major automotive lamps are mainly manufactured with engineering plastic as the base material.
Acknowledgement The financial support of the National Major Science and Technology Achievements Transformation Project (grant No. 2010.142) and the Innovation Program of China’s Changzhou City (grant No.
References [1] Junling Li, Hui Yu: CleaningWorld.Vol.21(2005), pp. 31 (in Chinese) [2] Guozhu Zhang ,Haiwen Du ,Yueqin Liu:Electromechanical Components.Vol.21(2001), pp. 31 (in Chinese) [3] Xiaoming Ling, Duowang Fan: Journal of Lanzhou Jiaotong University (Natural Sciences).Vol.25(2006), pp. 107 (in Chinese) [4] Lianzhu Zhang, Xiulan Meng: Nuclear Fusion and Plasma Physics.
Online since: December 2019
Authors: Zahra Sharif Khodaei, I. Tabian, H. Fu
Smart Materials and Structures, 2013. 22(8): p. 085014
Smart Materials and Structures, 2012. 21(10): p. 105026
Materials, 2016. 9(9): p. 790
Journal of Intelligent Material Systems and Structures, 2012: p. 1045389X12464280
Materials, 2016. 9(11): p. 946
Smart Materials and Structures, 2012. 21(10): p. 105026
Materials, 2016. 9(9): p. 790
Journal of Intelligent Material Systems and Structures, 2012: p. 1045389X12464280
Materials, 2016. 9(11): p. 946
Online since: July 2013
Authors: Yong Li, Hong Jiang Li, Guang Li
Introduction
Pneumatic conveying, one of the transportation methods of powdered and granular materials, uses air flowing in the pipe to transport the material.
The flowing air provides the energy needed directly to the conveyed material in the conveying pipe to carry the material from its original location to desired destination.
Although the pneumatic conveying systems are quite simple and eminently suitable for the transport of powdered and granular materials in factory, site and plant situations, because of the particle sizes, size distributions, and irregular particle shapes, conveying granular silica has been found difficult.
Fig. 1 Conveying system flow chart Fig. 2 Sketch of pipeline 2.2 Granular silica properties In the pneumatic conveying process, the nature of the granular material to flow and to resisting flow plays an important rule, such that we must well understand the physical properties of conveying materials and the gas-solid two-phase flow to properly design the pneumatic conveying.
Journal of Qingdao University of Science and Technology ( Natural Science ), 2007, (4) 318~321.
The flowing air provides the energy needed directly to the conveyed material in the conveying pipe to carry the material from its original location to desired destination.
Although the pneumatic conveying systems are quite simple and eminently suitable for the transport of powdered and granular materials in factory, site and plant situations, because of the particle sizes, size distributions, and irregular particle shapes, conveying granular silica has been found difficult.
Fig. 1 Conveying system flow chart Fig. 2 Sketch of pipeline 2.2 Granular silica properties In the pneumatic conveying process, the nature of the granular material to flow and to resisting flow plays an important rule, such that we must well understand the physical properties of conveying materials and the gas-solid two-phase flow to properly design the pneumatic conveying.
Journal of Qingdao University of Science and Technology ( Natural Science ), 2007, (4) 318~321.
Online since: October 2014
Authors: Xian Hui Li, Zheng Hong Ao, Yu Jun Xue, De Ying Zhang
Li, et al: Key Engineering Materials, Vol. 579 (2014), pp. 138-143
Liu: Key Engineering Materials, Vol. 455 (2011), pp. 427-430
Li, et al: Advanced Materials Research, Vol. 337 (2011), pp. 54-58
Ren,et al: Materials Letters, Vol. 62 (2008), pp. 47-50
An: Materials Letters Vol. 62 (2008), pp 3313-3315.
Liu: Key Engineering Materials, Vol. 455 (2011), pp. 427-430
Li, et al: Advanced Materials Research, Vol. 337 (2011), pp. 54-58
Ren,et al: Materials Letters, Vol. 62 (2008), pp. 47-50
An: Materials Letters Vol. 62 (2008), pp 3313-3315.
Online since: September 2025
Authors: Reza Ghandi, Patrick M. Lenahan, David M. Shaddock, Shubhodeep Goswami, Zhi Gang Yu, Elijah Allridge, Mehrnegar Aghayan, Ivan Viti, Fabrizio Sgrignuoli
As schematized in Figure 2a, this approach relies on standard equipment and traditional SiC devices rather than isotopically purified materials, offering a cost-effective solution.
Science 366.6470 (2019): 1225-1230
Science Advances 8.5 (2022): eabm5912
Journal of Applied Physics 124.21 (2018)
Journal of Applied Physics 112.12 (2012) [25] N.
Science 366.6470 (2019): 1225-1230
Science Advances 8.5 (2022): eabm5912
Journal of Applied Physics 124.21 (2018)
Journal of Applied Physics 112.12 (2012) [25] N.
Online since: March 2018
Authors: Ümit Hakan Yildiz, Beste Elveren, Ahu Arslan Yildiz
The green synthesis process utilizes natural and biomimetic materials such as: plant extracts, bacteria, algae and enzymes [9] as reducing agent.
Fig. 1 Predicted structure and capping of GNPs; R groups represents phenolic compounds (a), gold solution (b), green synthesized GNP solution (c) Materials and Methods Chemicals.
G., Biologically Produced Silver-Carbon Composite Materials for Optically Functional Thin-Film Coatings, Advanced Materials 12(6) (2000) 407-409
Pal, General method of synthesis for metal nanoparticles, Journal of Nanoparticle Research 6(4) (2004) 411-414
Zarbin, Influence of synthetic parameters on the size, structure, and stability of dodecanethiol-stabilized silver nanoparticles, Journal of Colloid and Interface Science 292(2) (2005) 429-435
Fig. 1 Predicted structure and capping of GNPs; R groups represents phenolic compounds (a), gold solution (b), green synthesized GNP solution (c) Materials and Methods Chemicals.
G., Biologically Produced Silver-Carbon Composite Materials for Optically Functional Thin-Film Coatings, Advanced Materials 12(6) (2000) 407-409
Pal, General method of synthesis for metal nanoparticles, Journal of Nanoparticle Research 6(4) (2004) 411-414
Zarbin, Influence of synthetic parameters on the size, structure, and stability of dodecanethiol-stabilized silver nanoparticles, Journal of Colloid and Interface Science 292(2) (2005) 429-435
Online since: November 2010
Authors: Bao Shou Sun, Xiao Diao Huang, Zhe Chen, Bo Qin Gu
Warpage is caused by many factors.Combined with actual production, product structure, mold design, molding process parameters and polymer materials will impact the quality of the product [2].
Material properties are written in Table 1.
Wang: Journal of China Plastics, Vol. 20 (2006), pp. 8-12
Shen: Journal of China Plastics, Vol. 17 (2003), pp. 53-58
Tai: Journal of Materials Processing Technology, Vol. 110 (2001), pp.1-9.
Material properties are written in Table 1.
Wang: Journal of China Plastics, Vol. 20 (2006), pp. 8-12
Shen: Journal of China Plastics, Vol. 17 (2003), pp. 53-58
Tai: Journal of Materials Processing Technology, Vol. 110 (2001), pp.1-9.
Online since: December 2014
Authors: Bo Liang, Jing Cao, Hai Xing Yang, Hai Ming Liu
Research on Chamber Earth Pressure of EPB Shield Considering Soil Arching Effect
Jing Cao 1,a, Haixing Yang1,b, Bo Liang1,2,c,Haiming Liu 1
(1 Faculty of Architecture Engineering Kunming University of Science and Technology, Kunming, Yunnan 650500,China)
(2 Kunming Metro Construction Management Co.Ltd., Kunming, Yunnan, 650011,China)
acjlb117@sina.com, byhx410951@126.com, ckmgdjtlb@163.com
Corresponding author: Cao Jing, Doctor, Professor, E-mail: cjlb117@sina.com
Keywords: shield tunnel; EPB shield; chamber earth pressure; soil arching effect.
Acknowledgement This work is financially supported by the National Science Foundation of China (51304088) References [1] Xinpeng Hu, Mou Sun, Jianhua Li, etc:Chinese of Journal of Underground Space and Engineering, Vol. 2(2003), p. 1413 [In Chinese] [2] Liangwen Wei, Qinghe Zhang, Tongli Sun, etc:Journal of Chongqing Jiaotong University (Natural Science), Vol. 26(2007), p. 67~72 [In Chinese]
In Advanced Research on Material Science, Environment Science and Computer Science Ⅲ.
Acknowledgement This work is financially supported by the National Science Foundation of China (51304088) References [1] Xinpeng Hu, Mou Sun, Jianhua Li, etc:Chinese of Journal of Underground Space and Engineering, Vol. 2(2003), p. 1413 [In Chinese] [2] Liangwen Wei, Qinghe Zhang, Tongli Sun, etc:Journal of Chongqing Jiaotong University (Natural Science), Vol. 26(2007), p. 67~72 [In Chinese]
In Advanced Research on Material Science, Environment Science and Computer Science Ⅲ.