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Online since: August 2013
Authors: Hai Huang, Lin Hai Cui, Xue Bin Lu
Piezoresistive and Mechanics Properties of Nano Polycrystalline Silicon Film Materials
Xuebin LU1, a, Linhai CUI1 and Hai HUANG1
1 Department of Integrate Circuit Design and Integrate System, Harbin University of Science and Technology, Harbin 150080, China
alxbsw@126.com
Keywords: Nano Polycrystalline Silicon, Gauge Factor, Young’s Modulus.
Introduction The researches about nano materials developed rapidly in 21st century [1].
Two dimension nano materials is a kind of film whose thickness is less than 100nm, i.e. nano film [2].
By auto mode of loading control, TriboIndenter system fulfills the continuous loading and unloading of materials.
Acknowledgments The authors acknowledge the support from Young Science Foundation of Harbin University of Science and Technology under Grant No. 1025-2011020.
Introduction The researches about nano materials developed rapidly in 21st century [1].
Two dimension nano materials is a kind of film whose thickness is less than 100nm, i.e. nano film [2].
By auto mode of loading control, TriboIndenter system fulfills the continuous loading and unloading of materials.
Acknowledgments The authors acknowledge the support from Young Science Foundation of Harbin University of Science and Technology under Grant No. 1025-2011020.
Online since: September 2011
Authors: Yuan Wen Zou, Guo Ping Chen, Ying Yang, Xue Jin Huang
bYANG ying, Master Degree Candidate, Structural Engineering of Southwest University of Science and Technology.
This platform can accurately grasp the distribution of the embracing force when the clutching is under the working condition, and it provides more scientific evidence for the clutching internal fixator which uses in clinical application. 1.Introduction According to the literature material, in the researches and experiments of body intervention treatment, most of the problems are focused on the corrosion resistance of materials, biological compatibility and hazardous property of materials.
It contains complicated biomechanics problems of the interaction between two kinds of special materials, memory alloy and human skeleton, therefore both medical staff and patients urgently need a manual to regulate the use of clutching internal fixator.
[4] Gao Zhen-Yu, Liang Dong-Ke, Qi Min … , “Testing and analysis of anti-compression properties of nitinol superelastic stent,”[J], Journal of functional materials and devices, 2006, 12 (1) : 49-53 [5] Zhao Lian-Cheng, Cai Wei, Zheng Yu-Feng, Shape Memory Effect and Superelasticity in Alloys, Beijing: national defence industrial press, 2002
Beijing: science press, 2004.
This platform can accurately grasp the distribution of the embracing force when the clutching is under the working condition, and it provides more scientific evidence for the clutching internal fixator which uses in clinical application. 1.Introduction According to the literature material, in the researches and experiments of body intervention treatment, most of the problems are focused on the corrosion resistance of materials, biological compatibility and hazardous property of materials.
It contains complicated biomechanics problems of the interaction between two kinds of special materials, memory alloy and human skeleton, therefore both medical staff and patients urgently need a manual to regulate the use of clutching internal fixator.
[4] Gao Zhen-Yu, Liang Dong-Ke, Qi Min … , “Testing and analysis of anti-compression properties of nitinol superelastic stent,”[J], Journal of functional materials and devices, 2006, 12 (1) : 49-53 [5] Zhao Lian-Cheng, Cai Wei, Zheng Yu-Feng, Shape Memory Effect and Superelasticity in Alloys, Beijing: national defence industrial press, 2002
Beijing: science press, 2004.
Online since: May 2020
Authors: Olga G. Kozhus, Gennady V. Barsukov, Tatiana A. Zhuravleva
Cutting of polycrystalline superhard materials by jet methods, Journal of Superhard Materials, (2016) 351-362
Hashish, Characteristics of surfaces machined with abrasive-waterjets, Journal of Engineering Materials and Technology, 113.3 (1991) 354-362
Fedotyev, Improving accuracy of profile hydro-abrasive cutting of plates of hardmetals and superhard materials, Journal of Superhard Materials, 36.3 (2014) 199-207
Bobrovskij, Burnishing Systems: a Short Survey of the State-of-the-art, IOP Conference Series: Materials Science and Engineering.
Improving Efficiency of Gear Shaping of Wheels with Internal Non-involute Gears, IOP Conference Series: Materials Science and Engineering.
Hashish, Characteristics of surfaces machined with abrasive-waterjets, Journal of Engineering Materials and Technology, 113.3 (1991) 354-362
Fedotyev, Improving accuracy of profile hydro-abrasive cutting of plates of hardmetals and superhard materials, Journal of Superhard Materials, 36.3 (2014) 199-207
Bobrovskij, Burnishing Systems: a Short Survey of the State-of-the-art, IOP Conference Series: Materials Science and Engineering.
Improving Efficiency of Gear Shaping of Wheels with Internal Non-involute Gears, IOP Conference Series: Materials Science and Engineering.
Online since: January 2003
Authors: M. Enisz, Ildikó Kotsis, András Szalay, I. Vajda, A.G. Mamalis
Effect of Explosive Compaction on Microstructure and Physical
Properties of Ceramic Superconducting Materials Produced by Different
Techniques
I.
During this compaction technique the properties of the starting superconducting materials can be changed.
The other type of superconducting materials used for explosive compaction was produced by melt processing (MPMG) technique.
Palotás: Advances in Technology of Materials and Materials Processing Journal, Vol. 2 (2001), p. 54 [7] E.
Rajasekharan: Journal of Materials Science, Vol. 34 (1999), p. 3755 [8] I.
During this compaction technique the properties of the starting superconducting materials can be changed.
The other type of superconducting materials used for explosive compaction was produced by melt processing (MPMG) technique.
Palotás: Advances in Technology of Materials and Materials Processing Journal, Vol. 2 (2001), p. 54 [7] E.
Rajasekharan: Journal of Materials Science, Vol. 34 (1999), p. 3755 [8] I.
Online since: December 2024
Authors: Iuliana Duma, Ion Aurel Perianu, Alin Constantin Murariu
Understanding how heat affects building materials is very useful in assessing the extent of damage to various building components.
In the last decade and more recently, extensive studies and experimental research [2-9] have been carried out to evaluate materials in fire affected buildings, in terms of seismic performance [10], fatigue behaviour [11, 12] and residual mechanical properties of materials [13] and their welded joints [14-16].
Tests were also performed on cylindrical specimens taken from the same materials/areas.
These values correlate with the tensile strength values of the materials analysed. 7.6.
Construction and Building Materials 161, (2018), pp. 26-36, https://eprints.qut.edu.au/150877/ [6] Maraveas C., Fasoulakis Z.C., Tsavdaridis K.D.: Mechanical properties of High and Very High Steel at elevated temperatures and after cooling down, Fire Science Reviews 6, article 3, (2017), DOI 10.1186/s40038-017-0017-6 [7] Liu, D., Liu, X., Fu, F. et al.
In the last decade and more recently, extensive studies and experimental research [2-9] have been carried out to evaluate materials in fire affected buildings, in terms of seismic performance [10], fatigue behaviour [11, 12] and residual mechanical properties of materials [13] and their welded joints [14-16].
Tests were also performed on cylindrical specimens taken from the same materials/areas.
These values correlate with the tensile strength values of the materials analysed. 7.6.
Construction and Building Materials 161, (2018), pp. 26-36, https://eprints.qut.edu.au/150877/ [6] Maraveas C., Fasoulakis Z.C., Tsavdaridis K.D.: Mechanical properties of High and Very High Steel at elevated temperatures and after cooling down, Fire Science Reviews 6, article 3, (2017), DOI 10.1186/s40038-017-0017-6 [7] Liu, D., Liu, X., Fu, F. et al.
Online since: December 2014
Authors: Daniel Rodrigues, Elisa Pinto da Rocha, Gilberto V. Concílio, José A. de Castro, Marcos F. de Campos
Typical raw materials are mixtures of epoxy resin and Nd2Fe14B flakes, produced mostly by melt spinning.
Flake aspect is usual for materials produced by melting spinning.
Chen: Journal of Magnetism and Magnetic Materials Vol. 48 (2002), p. 432
In Magnetic Materials in Electrical Machine Applications 2009.
Lins, M.F. de Campos: Materials Science Forum Vols. 727-728 (2012), p 135.
Flake aspect is usual for materials produced by melting spinning.
Chen: Journal of Magnetism and Magnetic Materials Vol. 48 (2002), p. 432
In Magnetic Materials in Electrical Machine Applications 2009.
Lins, M.F. de Campos: Materials Science Forum Vols. 727-728 (2012), p 135.
Online since: January 2020
Authors: Boris M. Goltsman, Lyubov A. Yatsenko, Natalia S. Goltsman
Production of Foam Glass Materials from Silicate Raw Materials by Hydrate Mechanism
Boris M.
Almost the only type of materials that meets all the listed requirements are foamed materials obtained using foam glass technology.
Synthesis of foam glass materials was to be carried out by single-stage technology directly from raw materials [12-13].
Then the prepared raw materials were mixed for 30 minutes in a drum mill.
Lu et al, Preparation of sintered foam materials by alkali-activated coal fly ash, Journal of Hazardous Materials. 174 (2010) 108-112
Almost the only type of materials that meets all the listed requirements are foamed materials obtained using foam glass technology.
Synthesis of foam glass materials was to be carried out by single-stage technology directly from raw materials [12-13].
Then the prepared raw materials were mixed for 30 minutes in a drum mill.
Lu et al, Preparation of sintered foam materials by alkali-activated coal fly ash, Journal of Hazardous Materials. 174 (2010) 108-112
Online since: June 2012
Authors: Yong Wei, Liang Fei Dong, Xue Dan Chen
With the rapid development of membrane materials, the anti-fouling membrane material is an effective way to alleviate membrane fouling.
The measures of inorganic nanoparticles modified MBR membrane Membrane materials include organic membrane and inorganic membrane.
Journal of Membrane Science: Preparation of polyvinyli-denefluoride hollow fiber membranes for CO2 absorption using phase-inversion promoter additives.
Journal of Membrane Science: Preparation and characterization of poly(vinylidene fluoride) (PVDF) based ultrafiltration membranes using nanoγ-Al2O3.
Journal of Membrane Science: Fabrication and characterization of a novel TiO2 nanoparticle self-assembly membrane with improved fouling resistance.
The measures of inorganic nanoparticles modified MBR membrane Membrane materials include organic membrane and inorganic membrane.
Journal of Membrane Science: Preparation of polyvinyli-denefluoride hollow fiber membranes for CO2 absorption using phase-inversion promoter additives.
Journal of Membrane Science: Preparation and characterization of poly(vinylidene fluoride) (PVDF) based ultrafiltration membranes using nanoγ-Al2O3.
Journal of Membrane Science: Fabrication and characterization of a novel TiO2 nanoparticle self-assembly membrane with improved fouling resistance.
Online since: November 2012
Authors: E.S. Gorkunov
A Correlation between the Magnetic Behaviour and Damage of Metal Materials under Plastic Deformations
E.S.
This loosening is characterized by a monotonic decrease in the relative density of the specimen material Dg/g0 = (γi-γ0)/γ0, where g0 = 7872.4 kg/m3 is initial material density and gi is material density after deformation.
Mihovski, The Barkhausen effect as applied to the structuroscopy of ferromagnetic materials (survey II), 2.
The effect of elastic and plastic deformation, Defektoskopia (Russian Journal of Nondestructive Testing), No 7 (1999) 3-32
Khamitov, Magnetoelastic acoustic emission in ferromagnetic materials, 2.
This loosening is characterized by a monotonic decrease in the relative density of the specimen material Dg/g0 = (γi-γ0)/γ0, where g0 = 7872.4 kg/m3 is initial material density and gi is material density after deformation.
Mihovski, The Barkhausen effect as applied to the structuroscopy of ferromagnetic materials (survey II), 2.
The effect of elastic and plastic deformation, Defektoskopia (Russian Journal of Nondestructive Testing), No 7 (1999) 3-32
Khamitov, Magnetoelastic acoustic emission in ferromagnetic materials, 2.
Online since: February 2022
Authors: Sergey Rekunov, Galina Voronkova, Oleg Dushko
Zero brittleness values are typical of materials that do not accumulate any elastic energy during the strain period.
Chou, Research on reaction between SiC and Fe2O3, Materials Transactions. 59 1, (2018) 98-103 [4] G.A.
Chen, Indentation induced lateral crack in ceramics with surface hardening, Materials Science and Engineering.
Sahimi, Network model for the evolution of the pore structure of silicon-carbide membranes during their fabrication, Journal of Membrane Science. 356 1-2, (2010) 138-146 [9] S.
Kriegesmann, Processing of silicon carbide-based ceramics, Comprehensive Hard Materials. (2014) 89-175
Chou, Research on reaction between SiC and Fe2O3, Materials Transactions. 59 1, (2018) 98-103 [4] G.A.
Chen, Indentation induced lateral crack in ceramics with surface hardening, Materials Science and Engineering.
Sahimi, Network model for the evolution of the pore structure of silicon-carbide membranes during their fabrication, Journal of Membrane Science. 356 1-2, (2010) 138-146 [9] S.
Kriegesmann, Processing of silicon carbide-based ceramics, Comprehensive Hard Materials. (2014) 89-175