Search results

Preparation of Porous ZnO Film by Zinc Oxalate Recurrence Method Yongqiang He1,2,a, Ronggang Huang3,b, Yu Liu2,3,c and Fubao Xing2,3,d* 1Department of Applied Chemistry, Yuncheng University, Yuncheng 044000, China 2School of Science, Tianjin University, Tianjin 300072; China 3School of School of Materials Science and Engineering, Tianjin University, Tianjin 300072; China aheyongqiang1985@126.com,brongganghuang@163.com,cliuyuls@163.com,dfbxing@yeah.net Keywords: Biomimetic, Porous materials, Natural polymer.
Steiner et al: Progress in Materials Science Vol. 50 (2005), p. 293-310
Kimura, et al: Journal of Sol-Gel Science Technology Vol. 29 (2004), p. 71-78
Kang at al: Journal of Luminescence Vol. 114 (2005), p. 118-125
Kubo et al: Chemistry of Materials Vol. 17 (2005), p. 3546-3551.

Material Property Evolution in Incremental Sheet Forming – A Review and Comparison Tuomas Katajarinne and Seppo Kivivuori Department of Materials Science and Engineering, School of Chemical Technology Aalto University, P.O.
The materials can be divided into stable and metastable materials.
Materials and Methods Materials.
Nakagawa, Advances in prototype and low volume sheet forming and tooling, Journal of Materials Processing Technology 98 (2000), 244-250
Hänninen, Comparison of different methods for measuring strain induced α-martensite content in austenitic steels, Materials Science and Technology, 20 (2004) 1506-1512

Materials and Methods Materials: The materials used in this study were Caesar weed bast harvested (see Figure 1a) from a wild source at the Ifesowapo quarters, Ado Ekiti, Nigeria, sawdusts of Afara – Terminalia superba, (Figure 1b) and Mahogany trees (Figure 1c) enough to fill 0.01 cubic meter containers.
Journal of Applied Polymer Science, Willey periodicals Inc. 93 (2004) 1021-1030 www.interscience.wiley.com
Vigie, Flexural properties of sawdust reinforced phenolic composites: Pilot study, Journal of Applied Polymer Science, .114 (2009) 1927-1934
Journal of Minerals and Materials Characterization and Engineering 9 (3) ( 2010) 199 – 210
The Arabian Journal for Science and Engineering 32, ( 2B) (2007)

In this paper, a context-aware materials data integration meta model is presented which is incorporating an advanced materials demand mapping and decomposition mechanism to support fine-grained materials data in the right time for the provision of materials services, based on the analysis of the application context involving the key points and relationships in their manufacturing processes.
Introduction Materials management is important during the process of production management in the enterprises[1].
Context data are defined as any raw materials data values of the relevant entities, which affect the data integrating.
Actually, this is the mechanism for obtaining first-order context information from raw materials data.
References [1] F.QIU, H.WANG, J.LI, Research and Development on Management Information System of the Multiple-sort & Small-batch Materials in Lean Production, Journal of Wuhan University of Technology,vol.28(2009), p.117 [2] G.

Journal of Materials Processing Technalogy.
Polymer Materials Science & Engineering (in Chinese).
Journal of Materials Science.
Journal of Materials Science.
Journal of Functional Materials (in Chinese).

Permeability Measurement of Some Barrier Materials as a Function of Temperature and Pressure M.
These barrier materials have large number of applications in industry and scientific research.
These barrier materials are commercially available in the wide range of thickness.
To determine the properties of the barrier materials pure helium gas has been used.
Paquin: Journal of Membrane Science, 282 (2006), p-245

De Vries: Moisture movement in porous materials under temperature gradients.
Am Journal Vol 44 (1980), p. 892-898
Chemical Engineering Science, vol 54 (1999), p. 3899-3908
Zhang: Mechanism and mathematical model of heat and mass transfer during convective drying of porous materials.
Chemical Engineering Science, 55 (2000), p. 3585-3598

Comparison of long-term ageing of binary Ag-Cu alloys Krzysztof Labisz* Division of Materials Processing Technology, Management and Computer Techniques in Materials Science, Institute of Engineering Materials and Biomaterials, Silesian University of Technology, Konarskiego Str 18A, 44-100 Gliwice, Poland krzysztof.labisz@polsl.pl Keywords: Long-term ageing, Silver alloys, Copper addition, Microstructure, Plastic Forming, Mint, Coin material.
Odqvist, Study of decomposition of ferrite in a duplex stainless steel cold worked and aged at 450–500 ◦C, Materials Science and Engineering A 499 (2009) 489–492
Borek, Microstructure evolution of C-Mn-Si-Al-Nb high-manganese steel during the thermomechanical processing, Materials Science Forum 638 (2010) 3224-3229
Borek, Hot-rolling of advanced high-manganese C-Mn-Si-Al steels, Materials Science Forum 706/709 (2012) 2053-2058
Dobrzański, Application of genetic methods in materials' design, Journal of Materials Processing Technology 164 (2005) 1607-1611.

The Characteristics of Graphene Prepared by Different Methods Hongguang Chen1,a, Caixia Li2 and Qiang Li2,b 1Shanghai Nanotechnology Promotion Center, Shanghai 200237, China 2Depratment of Chemistry, East China Normal University, Shanghai 200062, China a hgchen@snpc.org.cn; bqli@chem.ecnu.edu.cn Keywords: Graphene, AFM, TEM, FT-IR Abstract: Graphene becomes a hot topic in the fields of materials science and condensed matter physics.
Introduction Since the discovery of graphene by Geim in 2004 [1], GNs have recently attracted much more attention for their excellent properties, and usually as viable and inexpensive carbon materials are used in many composites [2-4].
[10] Li X, Cai W, An J, et al., Science, 324,1312(2009)
[11] Singh V, Joung D, Zhai L, et al., Progress in Materials Science, 56,1178(2011)
[12] Hassan H M A, Abdelsayed V, Khder A E R S, et al., Journal of Materials Chemistry, 19, 3832(2009)

Materials and Methods of Research The purpose of the research was to study the properties of subsurface layers of materials subjected to innovative technological processing by AMD- methods [5].
I., "Natural and Technical Sciences", Tambov. 2010.
A., Fundamental problems of modern materials science., volume 11, No. 4/2., 2014, p. 592 -598
N., Russian technological journal, 2016, vol. 4, No. 2 (11), Pp. 25-30
I., Fundamental problems of modern materials science, 2019. №1 (16)., p. 22-29