Sort by:
Publication Type:
Open access:
Publication Date:
Periodicals:
Search results
Online since: September 2012
Authors: Hong Lu, Mi Aye Su Khaing, Jian Liu, Lin Zou
They can be used according to the percentage of carbon content the materials.
Journal Materials Science 2112-2118, (1993)
Journal of Material Science Letters 1506-1509, (1994)
Effect of Heat Treatment on the Microstructure and Mechanical Properties of Low Carbon Steel, Journal of Engineering, Science and Technology, Vol 1, (2000)
[8] Metallography Laboratory Experimental Manual, Department of Metallurgy and Materials Engineering Faculty, University of Indonesia, (2008-2009)
Journal Materials Science 2112-2118, (1993)
Journal of Material Science Letters 1506-1509, (1994)
Effect of Heat Treatment on the Microstructure and Mechanical Properties of Low Carbon Steel, Journal of Engineering, Science and Technology, Vol 1, (2000)
[8] Metallography Laboratory Experimental Manual, Department of Metallurgy and Materials Engineering Faculty, University of Indonesia, (2008-2009)
Online since: July 2012
Authors: Lei Luo, Yan Lai Zhang, Shao Zheng Wu, Zhao Zhang, Chang Qian Li, Xiu Ping Li
The materials becoming microcapsule contain various new functions.
Today’s industry makes use of microencapsulated materials to enhance the properties of finished goods.
This property of microencapsulated phase change materials can be harnessed to increase the comfort level for users of sports equipment, military gear, bedding, clothing, building materials, and many other products.
The physic-chemical method is that the membrane and core material forming between coacervation and separation of materials.
This method is restricted to encapsulation of solid core materials, including liquids absorbed into porous solids.
Today’s industry makes use of microencapsulated materials to enhance the properties of finished goods.
This property of microencapsulated phase change materials can be harnessed to increase the comfort level for users of sports equipment, military gear, bedding, clothing, building materials, and many other products.
The physic-chemical method is that the membrane and core material forming between coacervation and separation of materials.
This method is restricted to encapsulation of solid core materials, including liquids absorbed into porous solids.
Online since: July 2014
Authors: Thiyagarajan Bhoopathy, S. Sathish, T. Ganapathy
This project focuses on the experimental testing of hybrid composite materials.
Four combinations of composite materials viz., sisal-epoxy, jute-epoxy, sisal-glass-epoxy and sisal-jute-epoxy are manufactured to the ASTM (American Society for Testing and Materials) standards.
Work Methodology Selection of Materials.
Jones: Mechanics of Composite Materials, 2nd edition (1999)
Dimensional Stability and Mechanical Properties of Esterified Bagasse Composite, Journal of applied polymer science, Volume 76, (2000): p. 575-586
Four combinations of composite materials viz., sisal-epoxy, jute-epoxy, sisal-glass-epoxy and sisal-jute-epoxy are manufactured to the ASTM (American Society for Testing and Materials) standards.
Work Methodology Selection of Materials.
Jones: Mechanics of Composite Materials, 2nd edition (1999)
Dimensional Stability and Mechanical Properties of Esterified Bagasse Composite, Journal of applied polymer science, Volume 76, (2000): p. 575-586
Online since: September 2016
Authors: Eugénie Martinez, Pascal Besson, Marie Christine Roure, Mickaël Rebaud, Virginie Enyedi, Lukasz Borowik, Laura Toselli
Digital Etching of GaAs Materials: Comparison of Oxidation Treatments
Mickaël Rebaud1,a *, Marie-Christine Roure1,b, Virginie Enyedi1,c,
Lukasz Borowik1,d, Eugénie Martinez1,e, Laura Toselli1,f and Pascal Besson1,g
1Uni.
amickael.rebaud@cea.fr, bmarie-chistine.roure@cea.fr, cvirginie.enyedi@cea.fr, dlukasz.borowik@cea.fr, eeugenie.martinez@cea.fr, flaura.toselli@cea.fr, gpascal.besson@cea.fr Keywords: Gallium arsenide, III-V materials, surface passivation, digital etching.
Chemicals should not react with the bulk material.
Surface Science, 30 (1972) 91 100
Graham, Ultraviolet-Ozone oxidation of GaAs(100) and InP(100), Journal of Vacuum Science & Technology B, 11(6) (1993) 2033 2037.
amickael.rebaud@cea.fr, bmarie-chistine.roure@cea.fr, cvirginie.enyedi@cea.fr, dlukasz.borowik@cea.fr, eeugenie.martinez@cea.fr, flaura.toselli@cea.fr, gpascal.besson@cea.fr Keywords: Gallium arsenide, III-V materials, surface passivation, digital etching.
Chemicals should not react with the bulk material.
Surface Science, 30 (1972) 91 100
Graham, Ultraviolet-Ozone oxidation of GaAs(100) and InP(100), Journal of Vacuum Science & Technology B, 11(6) (1993) 2033 2037.
Online since: May 2021
Authors: Dao Minh Trung, Tran Le Luu
Materials and Methods
Chemical
All chemicals were used with reagent grades.
[4] Pham Thi Thuy, Nguyen Thi Thanh Mai, Nguyen Manh Khai, Research and manufacture arsenic removal materials in water from red mud, Journal of Science, Hanoi National University: Earth Science and Environment, 2016, 32(1), 370 – 376
[11] Hanif, M.A., Nadeem, R., Bhatti, H.N., et al, Ni (II) biosorption by Cassia fistula (golden shower) biomass, Journal of Hazardous Materials, 2007, 139 345-355
Fibers, Journal of Hazardous Materials, 2007, 139(2) 280-285
[34] Naiya, T.K., Bhattacharya, A.K., et al., Sorption of lead (II) ions on rice husk ash, Journal of hazardous Materials, 2009, 163 1254 - 1264
[4] Pham Thi Thuy, Nguyen Thi Thanh Mai, Nguyen Manh Khai, Research and manufacture arsenic removal materials in water from red mud, Journal of Science, Hanoi National University: Earth Science and Environment, 2016, 32(1), 370 – 376
[11] Hanif, M.A., Nadeem, R., Bhatti, H.N., et al, Ni (II) biosorption by Cassia fistula (golden shower) biomass, Journal of Hazardous Materials, 2007, 139 345-355
Fibers, Journal of Hazardous Materials, 2007, 139(2) 280-285
[34] Naiya, T.K., Bhattacharya, A.K., et al., Sorption of lead (II) ions on rice husk ash, Journal of hazardous Materials, 2009, 163 1254 - 1264
Online since: October 2018
Authors: R.A. Shishkin, A.P. Zemlyanskaya, A.R. Beketov
Experimental
Materials and sample preparation.
Zhang, Characterization of nanostructured thermal interface materials - A review, International Journal of Thermal Sciences 62 (2012) 2 – 11
Webb, Performance and testing of thermal interface materials, Microelectronics Journal 34 (2003) 215-222
Mantyla, Modelling of thermal conductivity of porous materials: application to thick thermal barrier coatings, Journal of the European Ceramic Society 24 (2004) 2657-2667
Ai, New theoretical equation for effective thermal conductivity of two-phase composite materials, Materials Science and Technology 5 (28) (2012) 620-626
Zhang, Characterization of nanostructured thermal interface materials - A review, International Journal of Thermal Sciences 62 (2012) 2 – 11
Webb, Performance and testing of thermal interface materials, Microelectronics Journal 34 (2003) 215-222
Mantyla, Modelling of thermal conductivity of porous materials: application to thick thermal barrier coatings, Journal of the European Ceramic Society 24 (2004) 2657-2667
Ai, New theoretical equation for effective thermal conductivity of two-phase composite materials, Materials Science and Technology 5 (28) (2012) 620-626
Online since: March 2013
Authors: Jin Fu Xu, Peng Jang, Yu Ting Lv, You Qing Cao
Preparation and Heat Treatment of Ni60-WC/Cr12MoV Bimetallic Composite Materials
Youqing Cao 1, a, Yuting Lv 1, b, Peng Jang 1, c and Jinfu Xu 2,d
1Research Institute of Material and Technology, Ningbo University of Technology, Ningbo,
Zhejiang, 315016, China
2Institute of Materials Science and Engineering, East China University of Science and Technology, Shanghai, 200237, China
acaoyouqing0218@yahoo.cn, blyt8608@126.com, cuuiouo@126.com, dxjf7413@sina.com
Keywords: Bimetallic composite materials, Heat treatment, Micro-hardness, Binding strength.
Bimetallic composite materials (BCMs) might meet this challenge, due to the fact that they can integrate the performances of both materials.
International Journal of Refractory Metals & Hard Materials. 22 (2004) 247–250
Materials for Mechanical Engineering. 34 (2010) 51-53
Materials and Design. 32 (2011) 2978–2982
Bimetallic composite materials (BCMs) might meet this challenge, due to the fact that they can integrate the performances of both materials.
International Journal of Refractory Metals & Hard Materials. 22 (2004) 247–250
Materials for Mechanical Engineering. 34 (2010) 51-53
Materials and Design. 32 (2011) 2978–2982
Online since: October 2013
Authors: Y.K. Zhang, Gong Ling Chen, Jun Ru Yang, Ran Zhu
Vol.48 (1987), p.985-1005
[2] Liviu Marsavina, Tomasz Sadowski and Nicolae Faur: Journal of Mechanical Science and Technology.
Vol.223 (2012), p.1485-1506 [4] Khandelwal R. and J.M.C.Kishen: Journal of Applied Mechanics, Transactions ASME.
Vol.76 (2009), p.1-10 [5] Yang Junru, Li Zhaoqian, Huang Chuanzhen, Zhang Yuekan and Qian Kangkang: Key Engineering Materials.
Vol.375-376 (2008), p.118-122 [6] Junru Yang, Gongling Chen and LiLi Zhang: Advanced Materials Research.
[11] Edit Committee of Handbook of Property Data of Materials for Mechanical Engineering: Handbook of Property Data of Materials for Mechanical Engineering(China Machine Press, Beijing 1995)
Vol.223 (2012), p.1485-1506 [4] Khandelwal R. and J.M.C.Kishen: Journal of Applied Mechanics, Transactions ASME.
Vol.76 (2009), p.1-10 [5] Yang Junru, Li Zhaoqian, Huang Chuanzhen, Zhang Yuekan and Qian Kangkang: Key Engineering Materials.
Vol.375-376 (2008), p.118-122 [6] Junru Yang, Gongling Chen and LiLi Zhang: Advanced Materials Research.
[11] Edit Committee of Handbook of Property Data of Materials for Mechanical Engineering: Handbook of Property Data of Materials for Mechanical Engineering(China Machine Press, Beijing 1995)
Online since: February 2014
Authors: Yu Ling Zhao
Building materials accounted for 60% of the project cost in general building, while the cost of the decoration materials accounted for about 50% of the total cost of building materials, especially in the luxury building decoration, material costs accounted for about 70%.
Two aspects should be considered to select materials.
The interior decorative materials refer to the wall decoration, materials of furniture, and paint, floor tile, lighting, etc.
Journal of Hunan University(Natural Sciences), 2011, Vol. 38(5): 29-33
Journal of Yunnan Agricultural University.
Two aspects should be considered to select materials.
The interior decorative materials refer to the wall decoration, materials of furniture, and paint, floor tile, lighting, etc.
Journal of Hunan University(Natural Sciences), 2011, Vol. 38(5): 29-33
Journal of Yunnan Agricultural University.
Online since: September 2007
Authors: Pavel Hutař, Zdeněk Knésl, Luboš Náhlík
Knésl1,c
1
Institute of Physics of Materials, Academy of Sciences of the Czech Republic, Žižkova 22,
616 62 Brno, Czech Republic
a
nahlik@ipm.cz , b
hutar@ipm.cz, c
knesl@ipm.cz
Keywords: bi-material interface, loading ratio, plasticity-induced crack closure, critical stress.
The paper is devoted to fatigue crack propagation in layered materials.
The results could be used for the design of new materials with interfaces (composite materials, etc.) and for safer service life of structures made from the materials to which we have referred.
Journal of Fracture, 12 (1976), p. 52
Science 28 (2003), p. 620
The paper is devoted to fatigue crack propagation in layered materials.
The results could be used for the design of new materials with interfaces (composite materials, etc.) and for safer service life of structures made from the materials to which we have referred.
Journal of Fracture, 12 (1976), p. 52
Science 28 (2003), p. 620