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Online since: July 2005
Authors: Philippe Goudeau, R. Spolenak, Nobumichi Tamura, H.A. Padmore
Introduction
The performance and lifetime of any technological device are ultimately depending on the mechanical
properties of their constitutive parts and materials.
If the grain size is several times smaller than the beam size (nanocrystallized materials), monochromatic beam must be use instead (see Fig.2).
White beam mSXRD Monochromatic mSXRD X-rays X-rays Grain size > or ~ beam size Grain size << beam size White beam mSXRD Monochromatic mSXRD X-raysX-rays X-raysX-rays Grain size > or ~ beam size Grain size << beam size4 Title of Publication (to be inserted by the publisher) Studies in materials science.
The applications conducted so far at this end-station range from the study of the mechanical properties of composite materials and Microelectromechanical system (MEMS) devices to the characterization of biomaterials, superconducting films, and to mineralogy, geology, environmental and earth sciences.
Aknowledgement The Advanced Light Source is supported by the Director, Office of Science, Office of Basic Energy Sciences, Materials Sciences Division, of the U.S.
If the grain size is several times smaller than the beam size (nanocrystallized materials), monochromatic beam must be use instead (see Fig.2).
White beam mSXRD Monochromatic mSXRD X-rays X-rays Grain size > or ~ beam size Grain size << beam size White beam mSXRD Monochromatic mSXRD X-raysX-rays X-raysX-rays Grain size > or ~ beam size Grain size << beam size4 Title of Publication (to be inserted by the publisher) Studies in materials science.
The applications conducted so far at this end-station range from the study of the mechanical properties of composite materials and Microelectromechanical system (MEMS) devices to the characterization of biomaterials, superconducting films, and to mineralogy, geology, environmental and earth sciences.
Aknowledgement The Advanced Light Source is supported by the Director, Office of Science, Office of Basic Energy Sciences, Materials Sciences Division, of the U.S.
Online since: January 2017
Authors: Yuan Cheng Sun, Xue Fu Song, Hui Wang, Xiao Qiang Zhang, Xiao Hui Yang, Xiu Rong Du
Deep Wet Etching Uniformity of Polished Fused Silica Glass
Xiurong Du 1, a *, Xuefu Song1,b, Yuancheng Sun1,c, Xiaoqiang Zhang1,d,
Hui Wang1,e and Xiaohui Yang 2,f
1 China Building Materials Academy, Beijing, 100024 China
2 China Building Materials Test & Certification Group Co., Ltd, Beijing, 100024 China
a duxiurong123@126.com
Keywords: Wet etching, Fused silica glass, HF solution, Uniformity of etching depth
Abstract.
Introduction Fused silica glass is one of the most important materials in technological applications, from optical components to accelerometer devices [1-4].
Acknowledgment The authors would like to express their gratitude to the Quartz &Special Glass Institute of China Building Materials Academy.
Bennett, Applied Surface Science 225 (2004) 250–255
Akhtar, Materials Science in Semiconductor Processing 31 (2015) 351–357.
Introduction Fused silica glass is one of the most important materials in technological applications, from optical components to accelerometer devices [1-4].
Acknowledgment The authors would like to express their gratitude to the Quartz &Special Glass Institute of China Building Materials Academy.
Bennett, Applied Surface Science 225 (2004) 250–255
Akhtar, Materials Science in Semiconductor Processing 31 (2015) 351–357.
Online since: December 2014
Authors: Gang Chao Zhu, Jian Xin Shou, Jia Wei Qian, Hua Zheng Xin, Mu Qing Qiu
Leed: Materials Vol. 92 (2012), p. 263
[2] Y.
Han: Science Vol. 20(2008), p.1035 [6] R.P.
Han: Journal of Hazardous Materials Vol. 137(2006), p.550 [7] X.L.
Ho: Journal of Hazardous Materials Vol. 136(2006), p.681 [9] S.D.
Singh: Journal of Hazardous Materials Vol. 167(2009), p.1089 [10] A.
Han: Science Vol. 20(2008), p.1035 [6] R.P.
Han: Journal of Hazardous Materials Vol. 137(2006), p.550 [7] X.L.
Ho: Journal of Hazardous Materials Vol. 136(2006), p.681 [9] S.D.
Singh: Journal of Hazardous Materials Vol. 167(2009), p.1089 [10] A.
Online since: May 2013
Authors: Shun Li He, Hai Yong Zhang, Guo Hua Luan, Shao Yuan Mo, Zhi Kai Lv, Gang Lei
The Fabrication of Microfracture Cores
We fabricate microfracture cores according with the real reservoir stratum in order to provide experimental materials for the research of stress sensitivity features in microfracture reservoir by Brazil experiment is for tensile stress microfracture.
Stress-dependent permeability: Characterization and Modeling, SPE Journal. 6 (2001): 224-235
Microcrack permeability in tight gas sandstone, SPE Journal. 23 (1983) 919-927
An effective pressure law for permeability in Chelmsford granite and barre granite, International Journal of Rock Mechanics and Mining Sciences & Geomechanics Abstracts. 23 (1986) 267-275
The samples, International Journal of Rock Mechanics and Mining Sciences & Geomechanics Abstracts. 22 (1985) 393-406
Stress-dependent permeability: Characterization and Modeling, SPE Journal. 6 (2001): 224-235
Microcrack permeability in tight gas sandstone, SPE Journal. 23 (1983) 919-927
An effective pressure law for permeability in Chelmsford granite and barre granite, International Journal of Rock Mechanics and Mining Sciences & Geomechanics Abstracts. 23 (1986) 267-275
The samples, International Journal of Rock Mechanics and Mining Sciences & Geomechanics Abstracts. 22 (1985) 393-406
Online since: October 2020
Authors: Ali Jazie, Riyam Imad Jaddan, Mohamed F. Al-Dawody, Suhad A. Abed
Many studies employed the use of interesterification process for different raw materials due to the above mentioned advantages [30-31,34-35].
Engineering Science and Technology, an International Journal
Journal of Engineering & Technological Sciences, 51(4)
Materials Today: Proceedings, 4(8), 7293-7301
Materials for Renewable and Sustainable Energy, 2(2), 11
Engineering Science and Technology, an International Journal
Journal of Engineering & Technological Sciences, 51(4)
Materials Today: Proceedings, 4(8), 7293-7301
Materials for Renewable and Sustainable Energy, 2(2), 11
Online since: April 2020
Authors: Feng Qiang Nan, Li Na Zhang, Yang Liu, Meng Lei Zhou
Experimental Section
2.1 Material
The solid materials needed in the experiment are IGU-15 absorption tablets, nitroguanidine (NGU), and TiO2(ZA-100) from Aladdin industries inc;
We also used anhydrous ethanol, for analytical purity, from Nanjing chemical reagent co.
Journal of Ballistics, 1993(4): 78-94
Preliminary Study of Multiperforated Granular End-surface-coated Propellant by Epoxy Resin Composite Materials[J].
Chinese Journal of Energetic Materials, 2012, 20(2): 161-166
Energetic Materials, 1996(1): 10-17.
Journal of Ballistics, 1993(4): 78-94
Preliminary Study of Multiperforated Granular End-surface-coated Propellant by Epoxy Resin Composite Materials[J].
Chinese Journal of Energetic Materials, 2012, 20(2): 161-166
Energetic Materials, 1996(1): 10-17.
Online since: October 2015
Authors: Fu Ting Bao, Lin Sun, Hao Xu, Ning Zhang
India Journal of Engineering & Materials Sciences, 1998, 5(5):271-277
Journal of Spacecraft And Rockets. 2009, 46(3):492-50
Journal of Propulsion Technology,2005,26(5):448-451
[13] China Aeronautical Materials Handbook Committee.
China Aeronautical Materials Handbook[M].
Journal of Spacecraft And Rockets. 2009, 46(3):492-50
Journal of Propulsion Technology,2005,26(5):448-451
[13] China Aeronautical Materials Handbook Committee.
China Aeronautical Materials Handbook[M].
Online since: August 2011
Authors: Hai Zhou, Zi Guo Zuo
Introduction
GaN-based semiconductor is one of the most important new optoelectronic materials that have been found now[1].
Emirov.Journal of Electronic Materials, 2002, 31(5) : 380-383
[4] Kato T,Wada K, Hozomi E.Materials Science Forum, 2007 (556-557) :753-756
[5] Tichy J,Levert J A, Shan L, et al.Journal of Electrochemical Society,1999,146(4):1523-1528
Journal of the Korean Physical Society.2008, 53(4), 2129-2137.
Emirov.Journal of Electronic Materials, 2002, 31(5) : 380-383
[4] Kato T,Wada K, Hozomi E.Materials Science Forum, 2007 (556-557) :753-756
[5] Tichy J,Levert J A, Shan L, et al.Journal of Electrochemical Society,1999,146(4):1523-1528
Journal of the Korean Physical Society.2008, 53(4), 2129-2137.
Online since: February 2012
Authors: Chang Jun Chen, Guo Yin Zu, Min Zhang, Guang Chun Yao
Shearing fracture mechanism of foam aluminum sandwich
Zhang Min1, a, Chen Changjun1,b, Zu Guoyin2,c, Yao Guangchun2,d
1School of Mechanical and Electrical Engineering, Laser Processing Research Center, Soochow University, Suzhou, 215021, P.R.China
2School of Materials & Metallurgy, Northeastern University, Shenyang 110004, China
a zhangmin7822@suda.edu.cn, bchenchangjun@suda.edu.cn,
cfoamal@yahoo.cn, d63606536@qq.com
Keywords: Foam aluminum sandwich; Shearing test; Fracture machanism
Abstract.
Introduction Advanced composite materials are currently attracting considerable attention for use in a variety of load bearing structures, such as aircraft fuselages and wing components, marine structures, wind-turbine rotor blades and other high-performance applications[1].
As a result, these high performance materials offer an attractive alternative to traditional metallic structures for many engineering applications.
Acknowledgements The authors acknowledge supports from the National Nature Science Foundation of China (No. 51104110) Refenrence [1]McCormack T M, Miller R, Kesler O: International Journal of Solids and StructuresVol.38 (2001)p. 4901 [2] L.A.
Loup:Composites Science and TechnologyVol. 65 (2005)p, 2612 [3]Min Zhang, Guo yin Zu and Guangchun Yao: Journal of Functional MaterialsVol.37(2006)p.281“In Chinese” [4]Min Zhang, Guo yin Zu and Guangchun Yao: Journal of Functional MaterialsVol.38 (2007)p.576“In Chinese”
Introduction Advanced composite materials are currently attracting considerable attention for use in a variety of load bearing structures, such as aircraft fuselages and wing components, marine structures, wind-turbine rotor blades and other high-performance applications[1].
As a result, these high performance materials offer an attractive alternative to traditional metallic structures for many engineering applications.
Acknowledgements The authors acknowledge supports from the National Nature Science Foundation of China (No. 51104110) Refenrence [1]McCormack T M, Miller R, Kesler O: International Journal of Solids and StructuresVol.38 (2001)p. 4901 [2] L.A.
Loup:Composites Science and TechnologyVol. 65 (2005)p, 2612 [3]Min Zhang, Guo yin Zu and Guangchun Yao: Journal of Functional MaterialsVol.37(2006)p.281“In Chinese” [4]Min Zhang, Guo yin Zu and Guangchun Yao: Journal of Functional MaterialsVol.38 (2007)p.576“In Chinese”
Online since: February 2016
Authors: Lan Chen, Jian Cai, Umezuruike Linus Opara
Introduction
Powder is a common form of materials [1].
Materials and Methods Materials.
International Journal of Pharmaceutics. 388 (2010) 40-51
Journal of Aerosol Science 42 (2011) 811–819
International Journal of Pharmaceutics. 457 (2013) 143-149
Materials and Methods Materials.
International Journal of Pharmaceutics. 388 (2010) 40-51
Journal of Aerosol Science 42 (2011) 811–819
International Journal of Pharmaceutics. 457 (2013) 143-149