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Materials Science and Engineering: A, 2011. 528(21): p. 6616-6623
Journal of Materials Science Letters, 2002. 21(22): p. 1573-1575 [7] Sepulveda, P., Evaluation of the In Situ Polymerisation Kinetics for the Gelcasting of Ceramic Foams.
Chemistry of Materials.
Chemistry of Materials 2001. 13(11): p. 3882-3887
Materials Chemistry and Physics, 2009. 113(1): p. 441-444

The prepared anhydrous calcium (II) sulphate crystal materials have potential application in light weight building materials and refractory coating.
Introduction During the last decade, the preparation of calcium (II) sulphate crystal whiskers have attracted considerable attention due to their potential application as light weight building materials, thermal insulation material, and refractory coating [1].
As part of our studies on the preparation and properties of calcium (II) sulphate crystal whisker materials, we herein report a new prepared method of calcium (II) sulphate crystal whiskers.
The application of anhydrous calcium (II) sulphate crystal materials in light weight building materials and refractory coating are in progress.
Fan: Journal of Materials Chemistry Vol. 13 (2003), p. 1817

Designing highly protective and superior electrically conductive coatings from Cobalt-manganese doped/un-doped oxide materials (CMOs) is the main target of this study.
Vohs, "Advanced anodes for high-temperature fuel cell", Nature Materials”, 2004;3: 17-27
Deevi, "Development of interconnect materials for solid oxide fuel cells", Mater Sci Eng A, 2003; 348:227-43
Weiss, “Chromium vapor species over solid oxide fuel cell interconnect materials and their potential for degradation processes”, J.
Dong-Soo, "Dense spinel MnCo2O4 film coating by aerosol deposition on ferritic steelalloy for protection of chromic evaporation and low-conductivity scale formation", Journal of Materials Science. 2009; (44) 3: 843-848

Confirmed by XRD and SEM measurement, the crystallinity and smooth surface morphology show its potential in fabricating electronic materials.
Shium:Materials Chemistry and Physics Vol 78(2003), p.111-115
Hosono: Materials Research Bulletin Vol.37 ( 2002),p. 2401-2406 [5]T.
Vance: Chemistry and Materials Science Vol.15(2004),p.635-644 [6]N.
Hanawa: Journal of Biomedical Materials Research Vol. 82A( 2007), p. 304-315 [7] F.

Canadian Journal of Soil Science, Vol. 67, Issue 4 (1987), p. 965-971
Geopolymers: inorganic polymeric new materials.
Journal of Materials Science 2007, 42 (9) 2917-2933
Materials Science Forum Vol. 643 (2010) , 131-138
Construction and Building Materials 35 (2010) 912-922

Materials and Methods 2.1.
Materials Ascorbic Acid 99%> and Glycerine (99USP) have been procured from EvaChem, Selangor, Malaysia. 2.2.
This information holds significance as it can impact the chemical reactivity and stability of NADES, as well as their compatibility with other materials or processes.
Prandi, Promising technological and industrial applications of deep eutectic systems, Materials, 14 (2021) 2494
Jadhav, Novel curcumin ascorbic acid cocrystal for improved solubility, Journal of Drug Delivery Science and Technology, 61 (2021) 102233

The integrated design of materials and structures with scale-coupled effect is established.
Chinese Journal of Theoretical and Applied Mechanics, 38(4):522-529.
Composites Science and Technology, 1999, 59: 209~220 [8] Pecullan S, Gibiansky LV, T Journal of the Mechanics and Physics of Solids, 1999, 47: 1509~1542 [9] Yan Jun.
Multiscale Analysis and Concurrent Optimization for Ultra-Light Metal Structures and Materials.
Journal of the Mechanics and Physics of Solids. 2000,48:397~428

Polyvinylidene Fluoride (referred to as PVDF) piezoelectric film is a new type of polymer piezoelectric materials.
Journal of Transducer Technology, 2003vol22, 10:39~41 [5] Guo Weiguo.
Journal of Experimental Mechanics.
Journal of Hunan University (Natural Sciences),Vol.36,No.12, Dec.2009
Journal of Functional Materials, 2002,33(1):15~18

Material model identification for DC04 based on the numerical modelling of the polycrystalline microstructure and experimental data Eva Lehmann1,a, Stefan Schmaltz2,b, Sandrine Germain2,c ∗, Dennis Faßmann3,d, Christoph Weber1, Stefan Löhnert1, Mirko Schaper3, Friedrich-Wilhelm Bach3, Paul Steinmann2, Kai Willner2, and Peter Wriggers1 1Institute of Continuum Mechanics, Leibniz University Hannover, Appelstraße 11, 30167 Hannover, Germany 2Chair of Applied Mechanics, Friedrich-Alexander University Erlangen-Nuremberg, Egerlandstraße 5, 91058 Erlangen, Germany 3Institute of Materials Science, Leibniz University Hannover, An der Universität 2, 30823 Garbsen, Germany alehmann@ikm.uni-hannover.de, bstefan.schmaltz@ltm.uni-erlangen.de, csandrine.germain@ltm.uni-erlangen.de, dfassmann@iw.uni-hannover.de, ∗corresponding author Keywords: Material Modelling, Sheet-Bulk-Metal Forming, Anisotropic Finite Elastoplasticity, Homogenisation Abstract.
Modelling the polycrystalline microstructure The outstanding plastic properties of metallic materials arise from the activity of dislocations.
In pre-deformed materials a texture is frequently existent, due to the alignment of the crystals towards the loading direction.
Sutcliffe, Spectral Decomposition of the Elasticity Tensor, Journal of Applied Mechanics, Vol.59, December 1992, pp. 762-773
Lambrecht, Anisotropic additive plasticity in the logarithmic strain space: modular kinematic formulation and implementation based on incremental minimization principles for standard materials, Comput.

Introduction Dispersion of materials at the nanoscale forms a nano-composite material, and normally because of the much higher interface compared to traditional composite materials.
Material and Equipment Materials.
Gorga: Journal of Composite Materials, Vol.40 (2006), p.1511
Egan: Journal of Adhesion Vol.79 (2003), p.867
Chen: Advanced Materials Research, Vol. 677 (2013), p. 49.