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Online since: October 2006
Authors: Kazuo Kakiuchi, Kazutoshi Okubo, Noboru Itagaki, Akihiro Miyazaki, Shunichi Suzuki, Takayuki Terai, Michio Yamawaki, Yoshiaki Ishii
Therefore, the HiFi alloy is considered a candidate for higher burnup material.
Expeiment (1) Materials The chemical composition of HiFi alloy has 0.4wt% Fe content compared to Zry-2.
Y., Sugisaki, M., Kitano, K., Hayashi, M., "Role of Inermetallic Precipitates in Hydrogen Transport through Oxide Films on Zircaloy," Zirconium in the Nuclear Industry: Twelfth International Symposium, ASTM STP 1354, G.P.Sabol and G.D.Moan, Eds., American Society for Testing and Materials, West Conshohocken, PA. 2000, pp. 901-917 [3] Murai, T., Isobe, T., Takizawa, Y., Mae, Y., "Fundamental Study on the Corrosion Mechanism of Zr-0.2Fe, Zr-0.2Cr, and Zr-0.1Fe-0.1Cr Alloys," Zirconium in the Nuclear Industry: Twelfth International Symposium, ASTM STP 1354, G.P.Sabol and G.D.Moan, Eds., American Society for Testing and Materials, West Conshohocken, 2000, pp. 623-640 [4] Baur, K., Garzarolli, F., Ruhmann, H., Sell, H.J., "Electrochemical Examinations in 350 Water with Respect to the Mechanism of Corrosion-Hydrogen Pickup," Zirconium in the Nuclear Industry: Twelfth International Symposium, ASTM STP 1354, G.P.Sabol and G.D.Moan, Eds., American Society for Testing and
Materials, West Conshohocken, 2000, pp. 836-852 [5] Isobe, Y., Fuse, M., Kobayashi, K., "Additive Element Effects on Electric Conductivity of Zirconium Oxide Film," Journal of Nuclear Science and Technology 31, 1994, pp. 546 [6] Suzuki, A., Shibata, M., Yamaguchi, K., Yamawaki, M., "Effect of oxygen potential change on the surface potential of YSZ, ZrO2-Y2O3," Journal of Alloys and Compounds 262-263, 1997, pp. 185-190 [7] K.
Yamawaki "Role of Hydrogen Absorption Mechanism in Zirconium Alloys" Journal of ASTM International, Nov.
Expeiment (1) Materials The chemical composition of HiFi alloy has 0.4wt% Fe content compared to Zry-2.
Y., Sugisaki, M., Kitano, K., Hayashi, M., "Role of Inermetallic Precipitates in Hydrogen Transport through Oxide Films on Zircaloy," Zirconium in the Nuclear Industry: Twelfth International Symposium, ASTM STP 1354, G.P.Sabol and G.D.Moan, Eds., American Society for Testing and Materials, West Conshohocken, PA. 2000, pp. 901-917 [3] Murai, T., Isobe, T., Takizawa, Y., Mae, Y., "Fundamental Study on the Corrosion Mechanism of Zr-0.2Fe, Zr-0.2Cr, and Zr-0.1Fe-0.1Cr Alloys," Zirconium in the Nuclear Industry: Twelfth International Symposium, ASTM STP 1354, G.P.Sabol and G.D.Moan, Eds., American Society for Testing and Materials, West Conshohocken, 2000, pp. 623-640 [4] Baur, K., Garzarolli, F., Ruhmann, H., Sell, H.J., "Electrochemical Examinations in 350 Water with Respect to the Mechanism of Corrosion-Hydrogen Pickup," Zirconium in the Nuclear Industry: Twelfth International Symposium, ASTM STP 1354, G.P.Sabol and G.D.Moan, Eds., American Society for Testing and
Materials, West Conshohocken, 2000, pp. 836-852 [5] Isobe, Y., Fuse, M., Kobayashi, K., "Additive Element Effects on Electric Conductivity of Zirconium Oxide Film," Journal of Nuclear Science and Technology 31, 1994, pp. 546 [6] Suzuki, A., Shibata, M., Yamaguchi, K., Yamawaki, M., "Effect of oxygen potential change on the surface potential of YSZ, ZrO2-Y2O3," Journal of Alloys and Compounds 262-263, 1997, pp. 185-190 [7] K.
Yamawaki "Role of Hydrogen Absorption Mechanism in Zirconium Alloys" Journal of ASTM International, Nov.
Online since: June 2013
Authors: Régis Bigot, Stéphane Leleu, Abdelwahed Belhadj Ahmed, Pascal Secordel, Cyrille Baudouin
The material law is assumed to be elastic, perfectly plastic (no work hardening).
Kudo, Rotary straightening of curved shape near both ends of seamless pipe, Journal of Materials Processing Technology. 140 (2003) 500-504
Basu, Analysis of end straightness of rail during manufacturing, International Journal of Mechanical Sciences. 112 (2005) 1874-1884
Kolmogrov, Mathematical model of rail straightening and experimental estimation of its adequacy, Journal of Materials Processing Technology. 40 (1994) 213-218
Guoliang, Study on calculation method of press straightening stroke based on straightening process model, Key Engineering Materials. 340 (2007) 1345-1350.
Kudo, Rotary straightening of curved shape near both ends of seamless pipe, Journal of Materials Processing Technology. 140 (2003) 500-504
Basu, Analysis of end straightness of rail during manufacturing, International Journal of Mechanical Sciences. 112 (2005) 1874-1884
Kolmogrov, Mathematical model of rail straightening and experimental estimation of its adequacy, Journal of Materials Processing Technology. 40 (1994) 213-218
Guoliang, Study on calculation method of press straightening stroke based on straightening process model, Key Engineering Materials. 340 (2007) 1345-1350.
Online since: September 2011
Authors: Zan Cheng Zhu, Fan Bo Guo, Feng Hua Jiang, Xiao Gang Wang
According to similarity theory, similarity constants relationship are as follows[4]:
, , , , (1)
The material of model pile in the test is low carbon steel, its elastic modulus is 210GPa, its volumetric weight is 78.5kN/m3, the material of prototype reinforced concrete precast pile is C30 concrete, its elastic modulus is 30GPa, its volumetric weight is 24kN/m3, so.Applying, , adaptive Eq.(1), similarity constants are gained as follows:
, , , , (2)
Making model soil layer
Before formal test, it is necessary to do some soil experiments of primary state soil to get some physical mechanic index of soil.
Acknowledgements This work was financially supported by the National Natural Science Foundation (50678108) and the Zhejiang Natural Science Foundation (Y106264).
Static and Dynamic Research of Silos on Structure-Foundation Interaction(Ph.D., Xi’an:Xi’an Architecture Science and Technical University, China 2002)
[5] Zancheng Zhu,Xiaogang Wang.Test On transversely isotropy parameters of natural marine deposits clay in southeast zhejiang.Journal of Guizhou University(natural science edition), (in Chinese) Vol.27 (2010),p.103~107
Site Investigation Science and Technology, (in Chinese) ( 2004),p.3~5.
Acknowledgements This work was financially supported by the National Natural Science Foundation (50678108) and the Zhejiang Natural Science Foundation (Y106264).
Static and Dynamic Research of Silos on Structure-Foundation Interaction(Ph.D., Xi’an:Xi’an Architecture Science and Technical University, China 2002)
[5] Zancheng Zhu,Xiaogang Wang.Test On transversely isotropy parameters of natural marine deposits clay in southeast zhejiang.Journal of Guizhou University(natural science edition), (in Chinese) Vol.27 (2010),p.103~107
Site Investigation Science and Technology, (in Chinese) ( 2004),p.3~5.
Online since: January 2015
Authors: Shi An He, Hai Kuang, Meng Xu
The Research of LEDs with Metal Substrates
Hai Kuang1,a, Shi-an He2,band Meng Xu3,c
1Jiangxi Science and Technology Normal University, Nanchang, Jiangxi,
330038, China
2Jiangxi Changyun Company, Nanchang, Jiangxi, 330038, China
3 Jiangxi Science and Technology Normal University, Nanchang, Jiangxi,
330038, China
ahaizi411@126.com, b157898982@qq.com, c240292980@qq.com
Keywords: LED; metal substrate; heat dissipation; realibility
Abstract: There are good thermal conductivity, high luminous efficiency in the LEDs with metal substrates, which can effectively solve the problems such as poor heat dissipation, poor reliability of LEDs.
Metal substrate having a non-metallic substrate incomparable advantages, it has excellent thermal conductivity, electrical conductivity and reflective properties, and the metal material itself readily available.
Acknowledgement It is a project supported by the Technology Research Program of Jiangxi Science and Technology Nformal University (2013XJYB007).
Journal of Crystal Growth, 2004, 268: 449-456 [4] Shei S.
Elsevier Science, 2007: 1-4 [5] T.
Metal substrate having a non-metallic substrate incomparable advantages, it has excellent thermal conductivity, electrical conductivity and reflective properties, and the metal material itself readily available.
Acknowledgement It is a project supported by the Technology Research Program of Jiangxi Science and Technology Nformal University (2013XJYB007).
Journal of Crystal Growth, 2004, 268: 449-456 [4] Shei S.
Elsevier Science, 2007: 1-4 [5] T.
Online since: October 2012
Authors: Liang Jun Cai, Wei Jun Zhang
Application of the Fuzzy Analytic Hierarchy Process in Pipeline Risk Factor Weight
Liangjun Cai1,a ,Weijun Zhang1
1 Department of Civil Engineering, Luoyang Institute of Science and Technology, Luoyang, China 471023
a lylitcai@163.com
Keywords: Integrity management, Fuzzy, Analytic hierarchy, Risk assessment, Weight
Abstract.
Acknowledgments This work was financially supported by the PetroChina company Limited “west-east gas pipeline company” (Contract NO.: XQSGL01423), Youth fund of Luoyang Institute of Science and Technology (2009QZ33).
Petroleum Science, vol.3 (2006), p.57 [2] Zhixinag Ma, Oil & Gas Storage and Transportation, vol.24 (2005), p.1 (in Chinese) [3] Jo Y D, Park K S, & Ahn B J.
Reliability Engineering & System Safety, vol.94 (2009), p.187 [5] Wenhe Wang, Jun Yi, Shiming Shen, Journal of Safety Science and Technology, vol.6 (2010), p.163 (in Chinese) [6] Zhenlin Yang, Jinlan Liu, Pressure Vessel Technology, vol.25 (2008), p.28 (in Chinese) [7] Xingquan Liu, Shanshan Guo, Geospatial Information, vol.9 (2011), p.23 (in Chinese) [8] Liangjun Cai, Lei Huang, Liugen Lv, Advanced Materials Research, vol. 524-527(2012), p.2982 [9] Ciyuan Xiao, Engineering Fuzzy Systems, Beijing, Science Press, 2004
Acknowledgments This work was financially supported by the PetroChina company Limited “west-east gas pipeline company” (Contract NO.: XQSGL01423), Youth fund of Luoyang Institute of Science and Technology (2009QZ33).
Petroleum Science, vol.3 (2006), p.57 [2] Zhixinag Ma, Oil & Gas Storage and Transportation, vol.24 (2005), p.1 (in Chinese) [3] Jo Y D, Park K S, & Ahn B J.
Reliability Engineering & System Safety, vol.94 (2009), p.187 [5] Wenhe Wang, Jun Yi, Shiming Shen, Journal of Safety Science and Technology, vol.6 (2010), p.163 (in Chinese) [6] Zhenlin Yang, Jinlan Liu, Pressure Vessel Technology, vol.25 (2008), p.28 (in Chinese) [7] Xingquan Liu, Shanshan Guo, Geospatial Information, vol.9 (2011), p.23 (in Chinese) [8] Liangjun Cai, Lei Huang, Liugen Lv, Advanced Materials Research, vol. 524-527(2012), p.2982 [9] Ciyuan Xiao, Engineering Fuzzy Systems, Beijing, Science Press, 2004
Online since: August 2013
Authors: Jing Chang, Hong Jing Tian, Ming Dong Han
Simulation of a Novel Chemical Looping System for Recovering Elemental Sulfur from Acid Gases using Ca-based Oxygen Carriers
Chang Jing1,a, Han Mingdong2,b and Tian Hongjing2,c,*
1 College of Materials Science and Engineering, Qingdao University of Science & Technology, Qingdao 266042, China;
2 College of Chemical Engineering, Qingdao University of Science & Technology, Qingdao 266042, China;
achangjing1103@yahoo.com, bmd_han@yahoo.cn, chj_tian@yahoo.cn, *corresponding author
Keywords: acid flue gas; calcium sulfide; elemental sulfur; oxygen carrier
Abstract.
Acknowledgment This work was financially supported by the Natural Science Foundation of China (51106077), Specialized Research Fund for the Doctoral Program of Higher Education (20113719120003) and and the Promotive Research Fund for Young Scientists of Shandong Province (BS2011NJ007).
Journal of Catalysis, 206(2002), 159-164
Environmental Science & Technology, 36(2002), 3020-3024
Acknowledgment This work was financially supported by the Natural Science Foundation of China (51106077), Specialized Research Fund for the Doctoral Program of Higher Education (20113719120003) and and the Promotive Research Fund for Young Scientists of Shandong Province (BS2011NJ007).
Journal of Catalysis, 206(2002), 159-164
Environmental Science & Technology, 36(2002), 3020-3024
Online since: May 2014
Authors: Xiong Tong, Hao Zi Lv, Xian Xie, Bin Han
Introduction
At present, residues from Mining and mineral processing processes are looked at as the potentially exploitable and cost saving raw materials since they consist of mined and comminuted minerals where one finds the base metals of interest.
Acknowledgements The authors are thankful to the financial support from the Join Foundation the National Natural Science Foundation Committee of China (Grant No.51174103) and Kunming University of Science Analysis and Testing Facility (Grant No. 20140879).
Journal of Environmental Chemical Engineering 1 Vol. 1 (2013) No.4, p.1085–1090
(In Chinese) [4] Ch Liu, Ch Ye: Nonferrous Metals Science and Engineering,Vol. 3 (2012) No.1, p. 85-88.
[6] X Tong: Researches and Practice of Recovery of Valuable Metals from Tailing Resources (Science Press, China 2013), p.57-70.
Acknowledgements The authors are thankful to the financial support from the Join Foundation the National Natural Science Foundation Committee of China (Grant No.51174103) and Kunming University of Science Analysis and Testing Facility (Grant No. 20140879).
Journal of Environmental Chemical Engineering 1 Vol. 1 (2013) No.4, p.1085–1090
(In Chinese) [4] Ch Liu, Ch Ye: Nonferrous Metals Science and Engineering,Vol. 3 (2012) No.1, p. 85-88.
[6] X Tong: Researches and Practice of Recovery of Valuable Metals from Tailing Resources (Science Press, China 2013), p.57-70.
Analysis of the Feasibility of Usage of Standalone Controllers for Control of Spark-Ignition Engines
Online since: January 2016
Authors: Sławomir Wierzbicki, Bronisław Kolator, Wojciech Kraskowski
Experimental Thermal and Fluid Science, 62, 2015, p. 151-163, DOI: 10.1016/j.expthermflusci.2014.12.014
[4] Hunicz J., Gęca M.
Journal of Vibroengineering, 2013, Vol. 15(3), p. 1093-1101
Journal of KONES, 19(3) 2012, p. 9-18
Journal of KONES, 18(4), 2011, p. 389-396
Mechatronic Systems, Mechanics and Materials II, Vol. 210 (2014), p. 136-141.
Journal of Vibroengineering, 2013, Vol. 15(3), p. 1093-1101
Journal of KONES, 19(3) 2012, p. 9-18
Journal of KONES, 18(4), 2011, p. 389-396
Mechatronic Systems, Mechanics and Materials II, Vol. 210 (2014), p. 136-141.
Online since: February 2011
Authors: Dian Zhu Sun, Xin Cai Kang, Yang Shi, Yong Wei Sun
Journal of Computer-Aided Design & Computer Graphics, 2001,13(06):570-575(in chinese)
Indian Institute of Science, 2005, 85, 161–182
Journal of Computer-Aided Design & Computer Graphics, 2001, 13 (7): 631-635
Advanced Materials Research Vols. 139-141 (2010) pp 1322-1327
journal of shanghai jiaotong university, 1991, 10 (in Chinese)
Indian Institute of Science, 2005, 85, 161–182
Journal of Computer-Aided Design & Computer Graphics, 2001, 13 (7): 631-635
Advanced Materials Research Vols. 139-141 (2010) pp 1322-1327
journal of shanghai jiaotong university, 1991, 10 (in Chinese)