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Tsipas: Advanced Engineering Materials, 2011, 13 (1-2), pp. 29-32
Stergioudi: Materials and Design, 2011, 32, pp. 1559–1564
Capell, G.S Wes, Materials Science and Engineering A 300 (2001) pp.94-104
Rieke, Diandra L, Leslie-Pelecky: Journal of Magnetism and Magnetic Materials, 2000, 222, pp. 70-78
[20] Lin He: Journal of Magnetism and Magnetic Materials, 2010, 322, pp. 1991–1993

Journal of Electronic Materials.
Materials Science and Technology.
Journal of Vacuum Science & Technology B.
Materials Science and Engineering A.
Journal of Vacuum Science Technology B.

Experimental Materials.
This study was financially supported by the Key Discipline Construction for Textile Materials and Textile Design in Shaanxi Province.
Wang: Journal Wuhan University of Technology, Materials Science Edition, Vol. 25 (2010), p. 200 [3] P.H.
Li: Journal of Macromolecular Science, Part B: Physics, Vol. 50 (2011), p. 1215 [4] M.
Mark: Journal of Polymer Science, Vol. 1 (1946), p 437

Experimental Materials and Instruments 70 g/m2 offset paper, 80 g/m2 offset paper, 80 g/m2 offset paper, 45 g/m2 newsprint, 48 g/m2 newsprint, marked respectively as sample 1#, 2#, 3#, 4#, 5#; A quick-drying magenta ink；IGT AIC2-5 printability tester, ProGage thickness meter, 4XB-TV Metallographic microscope, WSB-Ⅱbrightness tester.
(In Chinese) [3] Yang L，Fogden　A， Pauler N，et al．Studying ink penetration with microscopic and spectroscopic techniques[J]．Journal of Imaging Science and Technology，2006，50(4)：327-332
[5] Ozaki Y， Bousfield D，Shaler S．Three-dimensional characterization of ink vehicle penetration by laser scanning confocal microscopy[J]．Journal of Pulp and Paper Science．2005，31 (1)：48-52
[8] Hakola E，Koskinen J，Forsström U．Toner penetration into porous substrates[J]．Journal of Imaging Science and Technology，2008，52(4)：1-8
[9] Provatas N，Uesaka T．Modelling paper structure and paper-press interactions[J]．Journal of Pulp and Paper Science，2003，29 (10)：332-340．

This aspects are is imposed by the development process of thermo and mass transfer of finishing agents into the textile structure materials applied in dentistry (fibers, yarns, fabric, nonwovens).
The intensification of transfer processes into the textile materials is realized in conventional finishing textile industry (washing, cleaning, and coloring) by using high work temperature.
The recently laboratory scientific research showed that the use of ultrasonic systems in finishing textile materials contributes both to the acceleration of thermo and mass transfer and to the decreasing of active chemical substances.
Under the REACH Low the colorants producers together with the complementary industries for materials finishing try to orientate the products to a great content of solid substance, low content of solvents and to products which are able to dissolve in water.
id=76 [19] Mechatronics, The Science of Intelligent Machines, Journal of IFAC, the International Federation of Automatic Control

Materials Science Forum Vols. *** (2004) pp.860-864 online at http://scientific.net  2004 Trans Tech Publications, Switzerland Numerical Simulation of Sheet Deforming Caused by Laser Shocking J.Z.
Materials Science Forum Vols. *** 861 Laser Shock Waves Loading.
Materials Science Forum Vols. *** 863 Fig.7 shows the cross-section profile of sheet deformation drawn by the experimental datum.
Zhang, et al: Journal of Materials Processing Technology Vol. 129 (2002), p. 243 [3] P.
Arif: Journal of materials processing technology Vol. 136 ( 2003), p. 120.

SANS is extensively applied for static and dynamic-structural analyses in materials science and biology fields such as in metallurgies, ceramics, polymers, colloids, vesicles, viruses, etc. [4] because of its powerful and non-destructive technique to investigate a structural properties [5] and inhomogeneity patterns in materials for scale range of 1-100 nm [6].
EXPERIMENTAL Zinc acetate (Zn (CH3COO) 2. 2H2O), ethanol, and diethanolamine (DEA) were used as starting materials. 0.5 M Zn2+ solution was prepared by dissolving zinc acetate in 35 ml of ethanol.
Suib, Chemisty of Material 21 (2009), 2875–2885
Mazumder, Journal of Alloys and Compounds 397 (2005), 300-305
Journal of Alloys and Compounds 26 (2002) 236–241 [7] E.

Since cells and hydrogels are physically different materials, the cells encapsulated in the hydrogels can change profoundly the mechanical properties of the hydrogel scaffolds.
Journal of Biomedical Materials Research Part A, 2010. 93A(3): p. 1091-1099
Journal of Materials Science-Materials in Medicine, 2006. 17(12): p. 1393-1401
Science, 2005. 310(5751): p. 1139-1143
Journal of the Mechanical Behavior of Biomedical Materials, 2009. 2(5): p. 512-521

Journal of Materials Processing Technology 210 (2010), p981–997
Journal of Materials Processing Technology 113 (2001), p654-685
Journal of Materials Processing Technology 130-131 (2002), p42-46
Center for Materials an Engineering Sciences MS 9405.
Journal of Materials Processing Technology 209 (2009), p3688–3695

Introduction Metallic foams are a new class of materials with light weight and excellent physical, mechanical, thermal, electrical and acoustic properties [1-3].
Progress in Materials Science，2001，46: 559-632 [2] Ashhy M F, Evans A G, Fleck N A, et al, in: Metal foams: a design guide.
[3] Peisheng Liu, Linguo Liu: Function Materials. 2002, 33(1): p.5-11 [4] Lucai Wang, Xin Chen, Yuesheng Cai: Foundry. 1999，(8): p.8-10.
[8] Gent A N, Thomas A G: Journal of Applied Polymer Science, 1959, 1 (1): p.107-113
[11] Benli Yuan, Zixing Lu:Journal of Mechanical strength. 2007,29(4): p.627-631.