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Online since: September 2003
Authors: Hui Huang, Xi Peng Xu
Citation & Key Engineering Materials Vols
F0110002 from the Natural Science Foundation of Fujian Province, and by Grant No.
Vol. 57 (1997), p. 7 170 Machining of Natural Stone Materials [8] Y.S.
Sun: Chinese Journal of Mechanical Engineering Vol. 29 (1993), p. 1 [10] X.P.
Xu: Key Engineering Materials Vol. 238-239 (2003), p. 99 [11] S.
F0110002 from the Natural Science Foundation of Fujian Province, and by Grant No.
Vol. 57 (1997), p. 7 170 Machining of Natural Stone Materials [8] Y.S.
Sun: Chinese Journal of Mechanical Engineering Vol. 29 (1993), p. 1 [10] X.P.
Xu: Key Engineering Materials Vol. 238-239 (2003), p. 99 [11] S.
Online since: December 2018
Authors: Roberto Montanari, Alessandra Varone, Gianfranco Lovicu, Claudio Testani, Alessandra Fava, Massimo de Sanctis, Maria Richetta
Introduction
The oxide dispersion strengthened (ODS) steels are promising materials for applications in fission nuclear reactors of IVth generation and in fusion nuclear reactors [1,2].
Yield stress (σy) vs. temperature curves of ODS* and other materials of similar composition prepared through the conventional route.
The strengthening mechanisms have been examined: the difference between reinforced and unreinforced materials is substantially due to the Orowan stress (σK) up to 500 °C and to the Arzt-Rősler-Wilkinson stress (σARW) above 500 °C.
Ratti, Creep behavior of ODS materials: A study of dislocations/precipitates interactions, 417 (2011) 205-208
Pareja, Microstructure and tensile properties of oxide dispersion strengthened Fe–14Cr–0.3Y2O3 and Fe–14Cr–2W–0.3Ti–0.3Y2O3, Journal of Nuclear Materials, 442 (2013) 142-147.
Yield stress (σy) vs. temperature curves of ODS* and other materials of similar composition prepared through the conventional route.
The strengthening mechanisms have been examined: the difference between reinforced and unreinforced materials is substantially due to the Orowan stress (σK) up to 500 °C and to the Arzt-Rősler-Wilkinson stress (σARW) above 500 °C.
Ratti, Creep behavior of ODS materials: A study of dislocations/precipitates interactions, 417 (2011) 205-208
Pareja, Microstructure and tensile properties of oxide dispersion strengthened Fe–14Cr–0.3Y2O3 and Fe–14Cr–2W–0.3Ti–0.3Y2O3, Journal of Nuclear Materials, 442 (2013) 142-147.
Online since: September 2013
Authors: Lu Sheng
Influence of Chitosan Finishing on Dyeing Effect
Sheng Lu 1*,
College of Chemical Engineering and Material Science, Eastern Liaoning University, 325 Wenhua Road, Dandong, Liaoning, 118000, China
*Corresponding author’s email:
lslndd@163.com
Keywords: chitosan; treatment; low salt; dye ability
Abstract: Treatment methods of silk fabric with chitosan and the dyeing of tussah silk fabric on low-salt condition were the subject of this study.
Journal of Metals,Materials and Minerals: 20(2010),p.27-31 [4] Sheng.Lu.
Journal of Metals,Materials and Minerals: 20(2010),p.27-31 [4] Sheng.Lu.
Online since: October 2012
Authors: Hyun Do Yun, Seok Joon Jang, Young Chan You
(a) Material sample
(b) layout of shear connector in walls (unit : mm)
Fig.1 Configuration of GFRP corrugated shear connector
Experimental Program
The experimental program consisted of four panel specimens made and tested to evaluate the shear strength and shear transfer mechanism of GFRP corrugated shear connectors in the insulated concrete panels.
Acknowledgements This research was financially supported by the Korea Institute of Construction & Transport Technology Evaluation and Planning (KICTEP) through Evaluation of shear performance on Insulated Concrete Sandwich Panel and the Ministry of Education, Science Technology (MEST) and National Research Foundation of Korea through the Human Resource Training Project for Regional (NRF-2012-0351) and Mid-career Researcher Program (NRF-2012-0528).
Ashrabov : submitted to Construction and building Materials 20 (2006) [2] B.
S. : submitted to Architectural Institude of Korea structure journal (2011) [4] A Subsidiary of the Intermational Code Council Evaluation Service
Acknowledgements This research was financially supported by the Korea Institute of Construction & Transport Technology Evaluation and Planning (KICTEP) through Evaluation of shear performance on Insulated Concrete Sandwich Panel and the Ministry of Education, Science Technology (MEST) and National Research Foundation of Korea through the Human Resource Training Project for Regional (NRF-2012-0351) and Mid-career Researcher Program (NRF-2012-0528).
Ashrabov : submitted to Construction and building Materials 20 (2006) [2] B.
S. : submitted to Architectural Institude of Korea structure journal (2011) [4] A Subsidiary of the Intermational Code Council Evaluation Service
Online since: January 2015
Authors: Jian Liu, Xiao Ming Xu, Sheng Zhu, Fan Jun Meng, Feng Liang Yin
Forming material is H08Mn2Si solid welding wire with Ф0.8mm diameter, and the motherboard is mild steel.
Acknowledgement This research was supported by the China Natural Science Foundation ( No. 51405510, No.51205408, No.51275186, No.51005245) References [1] Zhang Y M, Chen Y W.
Weld deposition-based rapid prototyping: a preliminary study, Journal of Materials Processing Technology, l35(2003) 347-357
Acknowledgement This research was supported by the China Natural Science Foundation ( No. 51405510, No.51205408, No.51275186, No.51005245) References [1] Zhang Y M, Chen Y W.
Weld deposition-based rapid prototyping: a preliminary study, Journal of Materials Processing Technology, l35(2003) 347-357
Online since: February 2016
Authors: Sergey Minaev, Taisia Miroshnichenko, Kaoru Maruta
These restrictions stem from the difficulties in arrangement of high temperature gradient between the sides of thermo-electrical elements and low values of figure-of–merit of existing thermo-electrical materials at high temperatures.
The figure of merit depends upon the electrical and thermal properties of the material, expressed as where is the Seebeck coefficient, is the electrical conductivity, and is the thermal conductivity.
Acknowledgements This work was supported by the Ministry of Education and Science of the Russian Federation (grant №14.Y26.31.0003) and Far Eastern Federal University.
Kaviany, Combustion-Thermoelectric Tube, Journal of Heat Transfer 122 (2000) 721-728.
The figure of merit depends upon the electrical and thermal properties of the material, expressed as where is the Seebeck coefficient, is the electrical conductivity, and is the thermal conductivity.
Acknowledgements This work was supported by the Ministry of Education and Science of the Russian Federation (grant №14.Y26.31.0003) and Far Eastern Federal University.
Kaviany, Combustion-Thermoelectric Tube, Journal of Heat Transfer 122 (2000) 721-728.
Online since: September 2011
Authors: Yuan Tian, Li Min Liang, Wen Cheng Wu, Qiu Yan Hao, Cai Chi Liu
Introduction
With the rapid development of GaN research, GaN and related semiconductor materials are useful for both optical and electronic devices such as light emitting diodes (LED) and laser diodes (LD) in ultraviolet (UV), blue and green regions.
Recently, GaN-based LEDs are attractive for some applications such as light source for exciting phosphor, medical equipment, air cleaner and light source for photo catalytic material.
Acknowledgements This work was financially supported by the Tianjin Natural Science Foundation (10JCYBJC03000).
Ni, Observation of dislocation etch pits in GaN epilayers by atomic force microscopy and scanning electron microscopy, Chinese Journal of Semiconductors. 28 (2007) 473-479.
Recently, GaN-based LEDs are attractive for some applications such as light source for exciting phosphor, medical equipment, air cleaner and light source for photo catalytic material.
Acknowledgements This work was financially supported by the Tianjin Natural Science Foundation (10JCYBJC03000).
Ni, Observation of dislocation etch pits in GaN epilayers by atomic force microscopy and scanning electron microscopy, Chinese Journal of Semiconductors. 28 (2007) 473-479.
Online since: October 2011
Authors: Qing Lin Tao, Yi Hu, Shan Suo Zheng, Zhi Qiang Li
The design parameters and material properties of the original structural component are given as follows: the effective height of RC shear wall is 3600mm, the thickness of component section is 400mm; the distributions of horizontal reinforcement and vertical reinforcement are 16@150 and 18@200, respectively; the distribution of lacing wire is 8@500; concrete strength degree is C50 and the grade of reinforcement is HPB235.
Acknowledgments This project is sponsored by National Natural Science Foundation of China (Grant No. 90815005, 50978218), Research Fund for the Doctoral Program of Higher Education of China (Grant No. 20106120110003) and the Office Educational of Shan’xi Province in China (Grant No. 2010JK633).
References [1] Shan-suo Zheng, Qing-lin Tao, Yi Hu: Advanced Materials Research, Vols. 243-249 (2011), p. 366-369
(in Chinese) [3] Song Zhang, Xi-lin Lv, Hong-mei Zhang: Journal of Shenyang Jianzhu University, Vol. 25 (2009) , p. 644-649.
Acknowledgments This project is sponsored by National Natural Science Foundation of China (Grant No. 90815005, 50978218), Research Fund for the Doctoral Program of Higher Education of China (Grant No. 20106120110003) and the Office Educational of Shan’xi Province in China (Grant No. 2010JK633).
References [1] Shan-suo Zheng, Qing-lin Tao, Yi Hu: Advanced Materials Research, Vols. 243-249 (2011), p. 366-369
(in Chinese) [3] Song Zhang, Xi-lin Lv, Hong-mei Zhang: Journal of Shenyang Jianzhu University, Vol. 25 (2009) , p. 644-649.
Online since: January 2011
Authors: Yong Kai Liu, Chao Chen
Evaluation of polar material to determine.
These 10 materials with the mechanical index range are shown in Table 3.
Lin:Grey Information:Theory and Practial Applications, (Science Press, Beijing1992) [3] F.
Luo: Grey System Theory and Its Application in Textile Studies, Journal of Jilin Institute of Technology, Vol.17(1996), p.65
These 10 materials with the mechanical index range are shown in Table 3.
Lin:Grey Information:Theory and Practial Applications, (Science Press, Beijing1992) [3] F.
Luo: Grey System Theory and Its Application in Textile Studies, Journal of Jilin Institute of Technology, Vol.17(1996), p.65
Online since: October 2009
Authors: Qing Yuan Wang, Xiang Guo Zeng, Yong Jie Liu, Da Li Lv
The material is linear elastic isotropic with
Young's module of 45GPa, mass density of 2.29×103 Kg/m3, and Poisson's ratio is set as 0.275.
For plane strain, the stress intensity factor is related to the strain energy release rate for isotropic materials as follows: For static 2 /(1 ) I IK EG υ = − , 2 /(1 ) II II K EG υ = − , (3) and for dynamic[5] 2 ( ) ( ) /(1 ) dyn dyn y I I K t sign F EG υ − = − , 2 ( ) ( ) /(1 ) dyn dyn II x II K t sign F EG υ − = −
Acknowledgments Financial support from the Chinese National Science Foundation through the contracts of 10776023 and 10772125 is appreciated.
International Journal of Impact Engineering, 2007(34):1047-1060.
For plane strain, the stress intensity factor is related to the strain energy release rate for isotropic materials as follows: For static 2 /(1 ) I IK EG υ = − , 2 /(1 ) II II K EG υ = − , (3) and for dynamic[5] 2 ( ) ( ) /(1 ) dyn dyn y I I K t sign F EG υ − = − , 2 ( ) ( ) /(1 ) dyn dyn II x II K t sign F EG υ − = −
Acknowledgments Financial support from the Chinese National Science Foundation through the contracts of 10776023 and 10772125 is appreciated.
International Journal of Impact Engineering, 2007(34):1047-1060.