Sort by:
Publication Type:
Open access:
Publication Date:
Periodicals:
Search results
Online since: January 2014
Authors: Liang Tan, Shi Guo Sun, Xue Fang Zhao, Shao Jie Feng
Chinese Journal of Rock Mechanics and Engineering,(2007):1513-1528
Advanced Materials Research.Vols.518-523 (2012):4749-4752 [5] Shaojie Feng, Shiguo Sun.
Journal of North China University of Technology, (2007):79-84
Journal of University of Science and Technology Beijing. (2007):1182-1185
Science & Technology Information. (2010):126-127.
Advanced Materials Research.Vols.518-523 (2012):4749-4752 [5] Shaojie Feng, Shiguo Sun.
Journal of North China University of Technology, (2007):79-84
Journal of University of Science and Technology Beijing. (2007):1182-1185
Science & Technology Information. (2010):126-127.
Online since: January 2014
Authors: Qun Shan Liu, Jun Xia Yan
Zinc oxide production technology of distillation twice
based on scrap miscellaneous zinc materials
Liu Qunshan1, a, YanJunxia2,b
1,2Hebei Key Laboratory of Material Near-net Forming Technology, HebeiUniversity of Science and Technology, Shijiazhuang, China
aemail:kdclxylqs@sina.com, bemail: yanjx_ann@sina.com
Keywords:reused zinc resources; regeneration; scrap miscellaneous zinc materials; fire method; two distillations technology; zinc oxide
Abstract: By using scrap miscellaneouszinc materialas raw materials, a new technology with the help of two distillationsby fire method to produce zinc oxide was invented.The scrap miscellaneous zinc materialshave complex sources, containing dust, stone, iron and steel parts and other impurities, and zinc content is more than 15% over a wide range.
Characteristics of scrap miscellaneous zinc materials However, there arealways some scrap miscellaneous zinc materials in industrial production and life.
These wasted materials come from complicated sources and zinc content is in a wide range.
Conclusions (1) The technology is based on scrap miscellaneous zinc materials as raw materials to produce zinc oxide.
The problem of the complex of impurities in raw materials has been solved
Characteristics of scrap miscellaneous zinc materials However, there arealways some scrap miscellaneous zinc materials in industrial production and life.
These wasted materials come from complicated sources and zinc content is in a wide range.
Conclusions (1) The technology is based on scrap miscellaneous zinc materials as raw materials to produce zinc oxide.
The problem of the complex of impurities in raw materials has been solved
Online since: July 2015
Authors: Hamizah Shamsudeen, Huey Ling Tan
Molecular self-assembly is ubiquitous in nature and has now emerged as a new approach in chemical synthesis, engineering, nanotechnology, polymer science, and materials.
Zhang, Building From the Bottom Up, Materials Today, 2003 [6] Tan H.
Sciences, S.
Journal of the American Chemical Society 2003, 125, (39), 11802-11803
P., Self-Assembling Materials for Therapeutic Delivery, Acta Biomaterilia 5, 817-831, 2009
Zhang, Building From the Bottom Up, Materials Today, 2003 [6] Tan H.
Sciences, S.
Journal of the American Chemical Society 2003, 125, (39), 11802-11803
P., Self-Assembling Materials for Therapeutic Delivery, Acta Biomaterilia 5, 817-831, 2009
Online since: September 2024
Authors: Oleksii Shestopalov, Vladimir Lebedev, Maksym Riabchenko, Tetiana Tykhomyrova
Journal of Materials Science: Materials in Electronics. 29 (2018) 14031–14045
Materials Science Forum. 1006 (2020) 259–266
Materials Science Forum. 1038 (2021) 168–174
Journal of Engineering Sciences. 10(1) (2023) C1-C8
Materials Science Forum. 1096 (2023) 73–9.
Materials Science Forum. 1006 (2020) 259–266
Materials Science Forum. 1038 (2021) 168–174
Journal of Engineering Sciences. 10(1) (2023) C1-C8
Materials Science Forum. 1096 (2023) 73–9.
Online since: April 2016
Authors: Li Xiao, Nai Xing Liang, Chao Lan, Min Wang
Research on Shearing Strengh and Compressive Resilient Modulus Experiment of Asphalt Concrete[J].Journal of Building Materials,2012(2):279-282
Construction and Building Materials . 2012(37):21-26
Construction and Building Materials, 2014, 53:284-293
Journal of Guangxi University(Natural Science Edition), 2010(1):127-130
Construction and Building Materials, 2014, 67:249-257
Construction and Building Materials . 2012(37):21-26
Construction and Building Materials, 2014, 53:284-293
Journal of Guangxi University(Natural Science Edition), 2010(1):127-130
Construction and Building Materials, 2014, 67:249-257
Online since: November 2010
Authors: Ji Kun Zhao
It is well known that materials of higher strength that are used for lightweight design, such as high alloyed steels and aluminium alloys, frequently show a degraded forming behavior associated to a lower ductility.
Experimental results Materials properties, after the bulk and local (laser) heat treatments, were evaluated by microhardness measurements.
Geiger, Laser Forming of aluminium and aluminium alloys – microstructural investigation, Journal of Materials Processing Technology, 11, pp. 159-165, 2001
Geiger, New materials and production technologies for innovative lightweight constructions, Journal of Materials Processing Technology,Vol. 125–126 , pp. 532–536, 2002
[4] Borge Bjorneklett, Odd Perry Sovik, Ole Runar Myhr, Hallvard Fjaer, Local Thermal Manipulation of aluminium alloys, 2005 TMS Annual Meeting: 6th Global Innovations Symposium Edited by TMS (The Minerals, Metals e Materials Society), 2005.
Experimental results Materials properties, after the bulk and local (laser) heat treatments, were evaluated by microhardness measurements.
Geiger, Laser Forming of aluminium and aluminium alloys – microstructural investigation, Journal of Materials Processing Technology, 11, pp. 159-165, 2001
Geiger, New materials and production technologies for innovative lightweight constructions, Journal of Materials Processing Technology,Vol. 125–126 , pp. 532–536, 2002
[4] Borge Bjorneklett, Odd Perry Sovik, Ole Runar Myhr, Hallvard Fjaer, Local Thermal Manipulation of aluminium alloys, 2005 TMS Annual Meeting: 6th Global Innovations Symposium Edited by TMS (The Minerals, Metals e Materials Society), 2005.
Online since: February 2011
Authors: Faizal Mustapha, Zahurin Halim, Rizal Zahari, M.Y. Haris, D. Laila, E.S. Zainudin
Preliminary Review of Biocomposites Materials
for Aircraft Radome Application
M.Y.Haris1,a, D.Laila1,b, E.S.Zainudin2,c, F.Mustapha2,d, R.
Materials that are used for small aircraft radome usually have low dielectric constant and high toughness.
However, the need for biodegradable materials has prompted the usage of natural fibers.
Materials that are used for light aircraft radome usually have low dielectric constant and high toughness composites [1].
Composites are termed as biocomposite materials when one of its phases either matrix (polymer) or reinforcement comes from natural source [32].
Materials that are used for small aircraft radome usually have low dielectric constant and high toughness.
However, the need for biodegradable materials has prompted the usage of natural fibers.
Materials that are used for light aircraft radome usually have low dielectric constant and high toughness composites [1].
Composites are termed as biocomposite materials when one of its phases either matrix (polymer) or reinforcement comes from natural source [32].
Online since: August 2018
Authors: Harpreet Singh, Pramod K. Jain, Neeraj Bhoi, Saurabh Pratap
Rohatgi (1997) Preparation of Aluminium–Fly Ash Particulate Composite by Powder Metallurgy Technique, Journal of materials science, Vol.32, pp.3971–3974
Roy (1999) Microwaves combustion synthesis and sintering of intermetallics and alloys, Journal of Materials Science Letter, Vol.18, pp.665–668
Agrawal (2013) An investigation on microwave sintering of Fe, Fe–Cu and Fe–Cu–C alloys, Bulletin of Materials Science, Vol.36 (3), pp.447–456
Agrawal (2013) An investigation on microwave sintering of Fe, Fe–Cu and Fe–Cu–C alloys, Bulletin of Materials Science, Vol.36 (3), pp.447–456
Roy (2003) Microwave sintering of Ni-Zn ferrites: comparison with conventional sintering, Materials Science and Engineering B98, 269/278
Roy (1999) Microwaves combustion synthesis and sintering of intermetallics and alloys, Journal of Materials Science Letter, Vol.18, pp.665–668
Agrawal (2013) An investigation on microwave sintering of Fe, Fe–Cu and Fe–Cu–C alloys, Bulletin of Materials Science, Vol.36 (3), pp.447–456
Agrawal (2013) An investigation on microwave sintering of Fe, Fe–Cu and Fe–Cu–C alloys, Bulletin of Materials Science, Vol.36 (3), pp.447–456
Roy (2003) Microwave sintering of Ni-Zn ferrites: comparison with conventional sintering, Materials Science and Engineering B98, 269/278
Online since: July 2011
Authors: Xiang Geng Wei, Jiang Li, Jian Chen, Hao Dong
Introduction
With the development of missile weapons, new material and manufacture technology continue to merge, and a number of breakthroughs are seen in the area of isolation thermal materials.
Composite materials are considered high specific strength and modulus, highly resistant to high-temperature, ablation and impact, therefore it is being widely used in astronautics and aeronautics industries, replacing the traditional materials such as ferrous and non-ferrous metals and dominating the materials for thinner and thermal-resistance structures.
[2] Pan Yusong,Xu Yuding,Chen Zhaofeng, ect: Ablation Properties Analysis of 2D C/SiC Composites, Ordnance Material Science and Engineering,Vo1.29,No.1,Jan, 2006
[3] Nie Jingjiang,Xu Yongdong,Zhang Litong, ect: Ablation Properties of Three Dimensional Needled C/SiC Composites by Chemical Vapor Infiltration, Journal of The Chinese Ceramic Society, Vo1.34,No.10, October,2006
[6] He Hongqing,Wang Simin,Niu Haogao, ect: The Measurement of Erosion and Temperature Field in a Solid Motor Nozzle, Journal of Solid Rocket Technology,1993(3).
Composite materials are considered high specific strength and modulus, highly resistant to high-temperature, ablation and impact, therefore it is being widely used in astronautics and aeronautics industries, replacing the traditional materials such as ferrous and non-ferrous metals and dominating the materials for thinner and thermal-resistance structures.
[2] Pan Yusong,Xu Yuding,Chen Zhaofeng, ect: Ablation Properties Analysis of 2D C/SiC Composites, Ordnance Material Science and Engineering,Vo1.29,No.1,Jan, 2006
[3] Nie Jingjiang,Xu Yongdong,Zhang Litong, ect: Ablation Properties of Three Dimensional Needled C/SiC Composites by Chemical Vapor Infiltration, Journal of The Chinese Ceramic Society, Vo1.34,No.10, October,2006
[6] He Hongqing,Wang Simin,Niu Haogao, ect: The Measurement of Erosion and Temperature Field in a Solid Motor Nozzle, Journal of Solid Rocket Technology,1993(3).
Online since: October 2018
Authors: Yu.L. Starostina, O.A. Plotnikova
They are presented by low-melting silicate materials, formed as a result of ore reduction, at the chemical interaction of gangue material components, coke ash and fluxing materials.
This provides the obtained silicate materials with high strength characteristics.
Starostina, Activation and processing properties of slags, prone to silicate decomposition, Contemporary issues of building materials science: proceedings of the 5th academic readings of RAACS, VSUACE, Voronezh, (1999) 380-383
Nosov, Binding materials based on electric-furnace steelmaking industry, Building materials. 5 (2011) 11-13
Bozhenov, Autoclaved materials technology.
This provides the obtained silicate materials with high strength characteristics.
Starostina, Activation and processing properties of slags, prone to silicate decomposition, Contemporary issues of building materials science: proceedings of the 5th academic readings of RAACS, VSUACE, Voronezh, (1999) 380-383
Nosov, Binding materials based on electric-furnace steelmaking industry, Building materials. 5 (2011) 11-13
Bozhenov, Autoclaved materials technology.