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Online since: March 2006
Authors: Kenny Huang, Chia Lung Chang, Tzu-Jen Lin
., National Yunlin U. of Science & Technology
Touliu, Yunlin 640 Taiwan
*Advanced Chip Engineering Technology Inc.
The solder joint is subjected to the inelastic strain that is generated during the temperature cycling test due to the thermal expansion mismatch between the various materials of the package and PCB (printed circuit board).
The fatigue life of WLCSP for three SBL materials by both Coffin-Manson Equ, and Modified Coffin-Manson Equ, is shown in Table 2.
R. and Chang C., "Solder Joint Reliability of Wafer Level Chip Scale Packages (WLCSP): A Time-Temperature-Dependent Creep Analysis, "Journal of Electronic Packaging, Vol. 122, pp. 311-316, 2000
J., "Solder Fatigue Prediction Using Interfacial Boundary Volume Criterion," Journal of Electronic Packaging, Vol. 125, pp. 582-588, 2003
The solder joint is subjected to the inelastic strain that is generated during the temperature cycling test due to the thermal expansion mismatch between the various materials of the package and PCB (printed circuit board).
The fatigue life of WLCSP for three SBL materials by both Coffin-Manson Equ, and Modified Coffin-Manson Equ, is shown in Table 2.
R. and Chang C., "Solder Joint Reliability of Wafer Level Chip Scale Packages (WLCSP): A Time-Temperature-Dependent Creep Analysis, "Journal of Electronic Packaging, Vol. 122, pp. 311-316, 2000
J., "Solder Fatigue Prediction Using Interfacial Boundary Volume Criterion," Journal of Electronic Packaging, Vol. 125, pp. 582-588, 2003
Online since: August 2014
Authors: Rui Mei Li, Shao Ping Fu, Rui Jun Duan, Jiao Liu, Yuan Yao, Jian Chun Guo, Yang Zhou, Yan Ping Hu, Wen Rui Xia
Materials and Methods
Plant Material and DNA Isolation
The test cassava cultivar, Manihot esculenta SC8, was obtained from the Tropical Crops Genetic Resources Institute, CATAS.
Journal of Experimental Botany, 2009, 60(6):1555-1567
Proceedings of the National Academy of Sciences of the United States of America, 2011, 108(36): 14992-14997
Trends in Plant Science, 2013, 18(5): 267-276
Journal of Integrative Plant Biology, 2011, 53 (7): 552-569
Journal of Experimental Botany, 2009, 60(6):1555-1567
Proceedings of the National Academy of Sciences of the United States of America, 2011, 108(36): 14992-14997
Trends in Plant Science, 2013, 18(5): 267-276
Journal of Integrative Plant Biology, 2011, 53 (7): 552-569
Online since: July 2011
Authors: Xiao Lu Wang, Yu Chuan Zhu, Qing Feng Cheng, Yue Song Li, Hong Xiang Xu
Introduction
Giant magnetostrictive material (GMM) is a kind of new function material with big magnetostrictive
strain, fast response speed, high energy density and large output force etc, which can effectively realize the reciprocal transformation of electromagnetic energy and mechanical energy.
Conclusion This paper has presented a novel nozzle flapper valve based on giant magnetostrictive material.
Acknowledgements This work was financially supported by National Natural Science Foundation of China (50805080), Aeronautical Science Foundation of China (20090752008), NUAA Research Funding (NS2010150).
Journal of Mechanical Engineering.2002.42 (10), p. 23-26 (In Chinese) [5] Wang Chuanli,Ding Fan, Li Qipeng.
Journal of Coal Science & Engineering. 2007.13(2), p. 207-210 [6] Wang Chunhang: Hydraulic control system (China Machine Press, China 2005) [7] Song Zhi’an: Analysis and design of Hydraulic servo control system based on MATLAB (National defense Industry Press, China 2007)
Conclusion This paper has presented a novel nozzle flapper valve based on giant magnetostrictive material.
Acknowledgements This work was financially supported by National Natural Science Foundation of China (50805080), Aeronautical Science Foundation of China (20090752008), NUAA Research Funding (NS2010150).
Journal of Mechanical Engineering.2002.42 (10), p. 23-26 (In Chinese) [5] Wang Chuanli,Ding Fan, Li Qipeng.
Journal of Coal Science & Engineering. 2007.13(2), p. 207-210 [6] Wang Chunhang: Hydraulic control system (China Machine Press, China 2005) [7] Song Zhi’an: Analysis and design of Hydraulic servo control system based on MATLAB (National defense Industry Press, China 2007)
Online since: November 2005
Authors: K.A.S. Curto, Sivaldo Leite Correia, Ana M. Segadães, Dachamir Hotza
Segadãesd*
a
State University of Santa Catarina, Centre of Technology Sciences (UDESC/CCT), 89223-100
Joinville-SC, Brazil
b
Federal University of Santa Catarina, Materials Science and Engineering Graduation Program
(UFSC/PGMAT), 88040-900 Florianópolis-SC, Brazil
c
Federal University of Santa Catarina, Department of Chemical Engineering (UFSC/EQA), 88040900
Florianópolis-SC, Brazil
d
University of Aveiro, Dept.
Applied Clay Science, 2002, 20, 301-306
Journal of Coatings Technology, 1996, 68, 71-75
Materials Letters, 2002, 55, 165-170
Materials Letters, 52 (2002) 394-398.
Applied Clay Science, 2002, 20, 301-306
Journal of Coatings Technology, 1996, 68, 71-75
Materials Letters, 2002, 55, 165-170
Materials Letters, 52 (2002) 394-398.
Online since: December 2010
Authors: Ling Yan, Cheng Lin Shan
Acknowledgment
This project(50978105) is supported by the National Natural Science Foundation of China.
Kheir-Eddine: Journal of Constructional Steel Research, vol.65(2009), p.1029-1033
Mannini: Journal of Bridge Engineering, vol.11(2006), p.48-58
Metwally, R.E.Loov : Materials and Structures, vol.36(2003), p.127-134
Abbas, R.Sause: Journal of Structural Engineering, vol.132(2006), p.195-203.
Kheir-Eddine: Journal of Constructional Steel Research, vol.65(2009), p.1029-1033
Mannini: Journal of Bridge Engineering, vol.11(2006), p.48-58
Metwally, R.E.Loov : Materials and Structures, vol.36(2003), p.127-134
Abbas, R.Sause: Journal of Structural Engineering, vol.132(2006), p.195-203.
Online since: December 2010
Authors: Jie Liu, Xu Bin Su, Yong Qiang Yang
Vaerenbergha: Journal of Materials Processing Technology, Vol. 149 (2004), p. 616
[2] I.
Yadroitsev, Ph.Bertrand and I.Smurov: Applied surface science, Vol. 253 (2007), p. 8064 [3] W.
Badrossamay: Journal of Engineering Manufacture, Vol. 219 (2005), p. 339 [5] M.
Hopkinson: Journal of materials processing technology, Vol. 195 (2008), p. 77 [7] D.
Yadroitsev: Rapid Prototyping Journal, Vol. 2 (2004), p. 78
Yadroitsev, Ph.Bertrand and I.Smurov: Applied surface science, Vol. 253 (2007), p. 8064 [3] W.
Badrossamay: Journal of Engineering Manufacture, Vol. 219 (2005), p. 339 [5] M.
Hopkinson: Journal of materials processing technology, Vol. 195 (2008), p. 77 [7] D.
Yadroitsev: Rapid Prototyping Journal, Vol. 2 (2004), p. 78
Online since: August 2018
Authors: Jian Kang Wen, Biao Wu, He Shang, Xing Lan Cui
Materials and Methods
2.1 Bioleaching.
Acknowledgments This project was financially supported by the National Natural Science Foundation of China (No.51574036).
International Journal of Minerals, Metallurgy and Materials,12 (2013) 1130-1133
CIESC Journal, 65 (2014) 1808-1814
ISME Journal, 8 (2010) 989-1001
Acknowledgments This project was financially supported by the National Natural Science Foundation of China (No.51574036).
International Journal of Minerals, Metallurgy and Materials,12 (2013) 1130-1133
CIESC Journal, 65 (2014) 1808-1814
ISME Journal, 8 (2010) 989-1001
Online since: July 2014
Authors: Kong Fa Hu, Fuan Zhang
The manufacturer offers to pay a certain amount of money to collect the right amount of used materials from the market.
using the used materials.
Management Science, 2004, 50 (2), 222–238
Journal of Operations Management, 2007, 25 (6), 1123–1140
Journal of Operations Management, 2007, 25 (6), 1161–11
using the used materials.
Management Science, 2004, 50 (2), 222–238
Journal of Operations Management, 2007, 25 (6), 1123–1140
Journal of Operations Management, 2007, 25 (6), 1161–11
Online since: August 2013
Authors: Hai Xing Liu, Jing Zhong Xiao, Kai Qi Ye, Qing Hua Zhang, Zhang Xue Yu, Huan Mei Guo, Guang Zeng
China
4State Key Laboratory of Supramolecular Structure and Materials, College of Chemistry, Jilin University, Changchun 130012, P.R.
) 130.7(6) C(6)-N(2)-Co(1) 112.0(5) C(13)-N(3)-Co(1) 130.1(6) C(17)-N(3)-Co(1) 111.5(5) C(22)-N(4)-C(18) 118.2(7) C(22)-N(4)-Co(1) 129.0(5) C(18)-N(4)-Co(1) 112.7(5) O(3)-N(5)-O(1) 128.8(7) O(3)-N(5)-O(2) 124.1(7) O(1)-N(5)-O(2) 107.2(6) N(5)-O(1)-Co(1) 91.9(4) N(5)-O(2)-Co(1) 91.3(4) N(1)-C(1)-C(2) 121.4(8) N(1)-C(1)-H(1) 119.3 C(3)-C(2)-C(1) 120.5(8) N(1)-C(5)-C(4) 122.4(7) C(6)-C(5)-C(4) 121.8(7) ____________________________________________________________ Acknowledgments This study were supported by the Natural Science
ZR2010BL025),Open Project of State Key Laboratory of Supramolecular Structure and Materials (No. sklssm201323)(Jilin University), State Key Laboratory of Inorganic Synthesis and Preparative Chemistry (No. 2011-13)(Jilin University).
Journal of Chemical Crystallography, 2004, 34(3), 199-202 [4] YANFEI QI, XINLONG WANG, ENBO WANG, CHAO QIN and HAO NA, Journal of Coordination Chemistry, 2005, 58(15),1289–1297 [5] YANG GUO, YU-HUA FENG, ZHAN-QUAN LIU and DAI-ZHENG LIAO, Journal of Coordination Chemistry, 2007, 60(24), 2713–2720 [6] TIE-JUN CAI, WEN-JUN JIANG, QIAN DENG, ZHEN-SHAN PENG, YUN-FEI LONG, HONG LIU and MEI-LING LIU, Journal of Coordination Chemistry, 2008, 61(20), 3245–3252 [7] XIAN WEN HUANG, XUE JIAO CHEN, JIAN LIANG SHEN and GUO JUN SU, Journal of Coordination Chemistry, 2010, 63(9), 1570–1581 [8] K.
) 130.7(6) C(6)-N(2)-Co(1) 112.0(5) C(13)-N(3)-Co(1) 130.1(6) C(17)-N(3)-Co(1) 111.5(5) C(22)-N(4)-C(18) 118.2(7) C(22)-N(4)-Co(1) 129.0(5) C(18)-N(4)-Co(1) 112.7(5) O(3)-N(5)-O(1) 128.8(7) O(3)-N(5)-O(2) 124.1(7) O(1)-N(5)-O(2) 107.2(6) N(5)-O(1)-Co(1) 91.9(4) N(5)-O(2)-Co(1) 91.3(4) N(1)-C(1)-C(2) 121.4(8) N(1)-C(1)-H(1) 119.3 C(3)-C(2)-C(1) 120.5(8) N(1)-C(5)-C(4) 122.4(7) C(6)-C(5)-C(4) 121.8(7) ____________________________________________________________ Acknowledgments This study were supported by the Natural Science
ZR2010BL025),Open Project of State Key Laboratory of Supramolecular Structure and Materials (No. sklssm201323)(Jilin University), State Key Laboratory of Inorganic Synthesis and Preparative Chemistry (No. 2011-13)(Jilin University).
Journal of Chemical Crystallography, 2004, 34(3), 199-202 [4] YANFEI QI, XINLONG WANG, ENBO WANG, CHAO QIN and HAO NA, Journal of Coordination Chemistry, 2005, 58(15),1289–1297 [5] YANG GUO, YU-HUA FENG, ZHAN-QUAN LIU and DAI-ZHENG LIAO, Journal of Coordination Chemistry, 2007, 60(24), 2713–2720 [6] TIE-JUN CAI, WEN-JUN JIANG, QIAN DENG, ZHEN-SHAN PENG, YUN-FEI LONG, HONG LIU and MEI-LING LIU, Journal of Coordination Chemistry, 2008, 61(20), 3245–3252 [7] XIAN WEN HUANG, XUE JIAO CHEN, JIAN LIANG SHEN and GUO JUN SU, Journal of Coordination Chemistry, 2010, 63(9), 1570–1581 [8] K.
Online since: November 2012
Authors: Jong Jin Park
Materials properties, such as viscosity, thermal conductivity, specific heat, latent heat and flow stress were obtained from various literatures.
Acknowledgements This research was supported by Basic Science Research Program through the National Research Foundation of Korea funded by the Ministry of Education, Science and Technology (2011-0026891).
Hunt: Material Science and Engineering A, Vol. 280 (2000), p. 116 [2] H.
Davey: Journal of Materials Processing Technology, Vol.192-193 (2007), p. 300 [3] R.P.
Garcia: International Journal of Heat and Mass Transfer, Vol. 52 (2009), p. 451
Acknowledgements This research was supported by Basic Science Research Program through the National Research Foundation of Korea funded by the Ministry of Education, Science and Technology (2011-0026891).
Hunt: Material Science and Engineering A, Vol. 280 (2000), p. 116 [2] H.
Davey: Journal of Materials Processing Technology, Vol.192-193 (2007), p. 300 [3] R.P.
Garcia: International Journal of Heat and Mass Transfer, Vol. 52 (2009), p. 451