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Introduction In all aspects of EBSD applications in metallurgy, materials and Earth Science, much attention focuses on improvements in hardware, acquisition speed and precision.
This is very common in deformed materials, but what controls the angular scale and form of those graphs?
Schuh, in: Electron Backscatter Diffraction in Materials Science, A.J.
Balluffi, Interfaces in crystalline materials, 819 pp., Clarendon Press, Oxford, 1995
Nowell, in: Electron Backscatter Diffraction in Materials Science, A.J.

There are two main ways: light materials and special processing technology [1].
The manufacturing cost of lightweight materials is 2.5 [2] times that of ordinary steel,on the other way,the improved processing technology, which can improve the bearing performance.In contrast, it is still the best choice for car body manufacturing to use the ordinary steel for its comprehensive properties.
HIT.NISRIF.2014054 and China Postdoctoral Science Foundation under Grant No. 2013M541366.
Brusch: CIRP Journal of Manufacturing Science and Technology,Vol. 1 (2008), pp. 2–17
Kopp: Journal of Materials Processing Technology, Vol. 177 (2006), pp. 360-363

Verification of Numerical Model for Trabecular Tissue using Compression Test and Time-Lapse X-Ray Radiography based on Material Model Determined from Three-Point Bending Test of Single Trabecula Petr Zlámal1,a, Tomáš Doktor,2,b, Ondřej Jiroušek,2,c, and Ivan Jandejsek3,d 1Czech Technical University in Prague, Faculty of Transportation Sciences, Konviktská 20, 110 00 Prague 1, Czech Republic 2Institute of Theoretical and Applied Mechanics, Academy of Sciences of the Czech Republic, v.v.i., Prosecká 76, 190 00 Prague 9, Czech Republic 3Czech Technical University in Prague, Institute of Experimental and Applied Physics, Horská 3a/22, 128 00 Prague 2, Czech Republic axzlamal@fd.cvut.cz, bdoktor@itam.cas.cz, cjirousek@itam.cas.cz, djandejs@itam.cas.cz Keywords: compression test, FEM, radiography, three-point bending, trabecular bone Abstract.
One of the powerful methods to measure material properties at basic element level of materials is nanoindentation, however, this method can be reliably used only to get information about elastic properties (e.g. according to method published in [4]).
On the other hand the classical mechanical testing, e.g. three-point bending (3pb) test enables to describe nonelastic material properties from the stress-strain diagram.Materials and methods Sample preparation.
Acknowledgments The research has been supported by the Czech Science Foundation (grant no.
Pharr: Journal of Materials Research, Vol 7 (1992), p. 1564-1583

Yamane: Journal of Materials Processing Technology Vol. 134 (2003), pp: 233
Xu: Key Engineering Materials Vol. 202-203(2001), p. 369
Cai: Key Engineering Materials Vol. 202-203(2001), p.115
Jin: Journal of Northeastern University (Natural Science) Vol. 23(2002), pp: 470-473(In Chinese)
Feng: Journal of Materials Processing Technology Vol. 129(2002), pp: 25-29.

Davis, Materials.
In: International Journal of Surface Science and Engineering.
In: Key Engineering Materials.
In: Applied Mechanics and Materials, 308 (2013) 57-62
Mrkvica, et al., Cutting efficiency by drilling with tools from different materials, Advanced Materials Research, Materials Processing Technology II. 538-541 (2012) 1327-1331

By establishing the three-dimensional finite element model and considering the material and geometric nonlinearity, this paper analyzed the structural performance under whole process of static loading.
The negative temperature method is adopted to apply the prestress[9,10] and the material and geometry nonlinearity are considered in the calculation.
Conclusions Considering nonlinear effects of both material and geometry, MFPCBS is studied based on 3-D finite element model.
Acknowledgements This research work was sponsored by the National Natural Science Foundation of China (No. 50948035) and the Chinese Ministry of Housing and Urban-Rural Development (No.2012-K2-28).
Feng and A.Mita: Journal of Engineering Mechanics Vol.121 (1995), P.1082-1087 [2] M.Q.

Materials and methods Materials.
Gidarakos, Adsorption of BTEX, MTBE and TAME on natural and modified diatomite, Journal of Hazardous Materials 207-208 (2012) 117-127 [5] V.K.
Lin, Advanced tertiary treatment of municipal wastewater using raw and modified diatomite, Journal of Hazardous Materials B127 (2005) 196-203 [18] W.
Alacabey, Adsorption of Zinc(II) on diatomite and manganese-oxide-modified diatomite: A kinetic and equilibrium study, Journal of Hazardous Materials 193 (2011) 27-36 [21] B.
Abe, Prussian blue caged in spongiform adsorbents using diatomite and carbon nanotubes for elimination of cesium, Journal of Hazardous Materials 217–218 (2012) 85-91

Geopolymeric materials and cement blends can be used for a number of applications such as fire and acid resistant materials, immobilization of heavy metals, bonding of metal and ceramic surfaces, and various structural materials [2].
A particular structural feature of zeolites relative to other aluminosilicate materials, and other crystalline materials in general, is the existence of channels and/or cavities linked by channels.
Golestanifard, Effect of Calcination Temperature of the Kaolin and Molar Na2O/SiO2 Activator Ratio on Physical and Microstructural Properties of Metakaolin Based Geopolymers, Iranian Journal of Materials Science & Engineering , vol.9, no. 4, pp. 43-51, 2012
Iwamoto, Characterization of Zeolite in Zeolite-Geopolymer Hybrid Bulk Materials Derived from Kaolinitic Clays, Materials, vol.6, pp. 1767-1778, 2013
Scian, Thermal treatment of kaolin: effect on the pozzolanic activity, Procedia Materials Science, vol.1, pp. 343-350, 2012.

The disguise of the peak value and softening in the different two tested samples may be due to the designated dry test method in the shear box with the existence of gypsum materials.
Journal of Wassit for Science & Medicine, 5(1), (2012), pp. 165-176.
Diyala Journal of Engineering Sciences, 10(2), (2017), pp. 75-85
Journal of Babylon University Engineering Sciences, 22(4), (2014), pp. 971-978
Al-Qadisiya Journal for Engineering Sciences, 2(4), (2009), pp. 664-681

Niero et al, Effect of the addition of the waste generated from the feldspar mining on the obtainment of ceramic brick, Materials Science Forum. 930 (2018) 164-169
M. do Nascimento et al, Use of Sewage Sludge in the Production of Light-Weighted Ceramic Bricks, Materials Science Forum. 514-516 (2006) 1706-1710
Series: Materials Science and Engineering. 365 (2018) 032066
Dubineckij, Sludge of the Fuel-Energy and Oil-Producing Complex in the Production of Wall Ceramic Products, Materials Science Forum. 945 (2019) 1036-1042
[22] Swaminathan Dhanapandian, Balasubramani Gnanavel, Thirunavukkarasu Ramkumar, Utilization of granite and marble sawing powder wastes as brick materials, Carpathian Journal of Earth and Environmental Sciences, 4 (2009) 147-160