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9. J.D.C. Figueroa, Z.J.E. Hernández, M.J.J. Véles, P.R. Duarte, H.E. Martínez- Flores, N. Ponce-García: Evaluation of degree of elasticity and other mechanical properties of wheat kernels, Cereal Chemistry 88 (2011) 12-18. 10. J.D.C. Figueroa, R.J. Pena, T. Maucher, P. Rayas-Duarte, K. Khan: Kernel elastic properties and sedimentation: Influence of high and low molecular weight glutenin allelic composition, Cereal Chemistry 88 (2011) 41-44. 11. J.D.C. Figueroa, R.J. Pena, P. Rayas-Duarte, K. Khan: Influence of Low-molecular Weight Glutenin Subunits on Wheat Kernel Elasticity and Sedimentation CEREAL RESEARCH COMMUNICATIONS 39 (2011) 237-245. 12. Z.J.E. Hernández, J.D.C. Figueroa, P Rayas-Duarte, H.E. Martínez-Flores, V.G. Arámbula, B.G. Luna, R.J. Pena: Influence of high and low molecular weight glutenins on stress relaxation of wheat kernels and the relation to sedimentation and rheological properties, Journal of Cereal Science 55 (2012) 344-350. J. <strong>Gubicza</strong>, A. Juhász and J. Lendvai: A new method for hardness determination from depth sensing indentation tests, J. Mater. Res. 11 (1996) 2964-2967. 1. S. P. Baker: Between nanoindentation and scanning force microscopy: measuring mechanical properties in the nanometer regime, Thin Solid Films, 308-309 (1997) 289-296. 2. C. Carney and D. Durham: Optimization of hardness by the control of microwavepower in TiN thin film deposited by electron-cyclotron-resonance assisted sputtering in a nitrogen plasma, Journal of Vacuum and Technology A- Vacuum, Surfaces and Films, 17, 5 (1999) 2535-2541. 3. C. Carney and D. Durham: Establishing the reletionship between process, structure and properties of thin films deposited by electron-cyclotron-resonance assisted reactive sputtering- I- Variations in hardness and roughness as a function of process parameters, Journal of Vacuum and Technology A- Vacuum, Surfaces and Films, 17, 5 (1999) 2850-2858. 4. K. Tunvisut, N. P. O’Dowd and E. P. Busso: Use of scaling functions to determine mechanical properties of thin coatings from microindentation tests, Int. Journal of Solids and Structures, 38 (2001) 335-351. 5. V. Bursikova, V. Navratil, L. Zajickova and J. Janca: Temperature dependence of mechanical properties of DLC/Si protective coatings prepared by PECVD, Mater. Sci. Eng. A 324 (2002) 251-254. 6. P. Nagy, A. Csanády, B. VerP, G. Pálinkás and E. Kálmán: The combined application of nanoindentation and scanning probe microscopy to materials sciences, Mater. Sci. Forum, 414-415 (2003) 297-303. 7. D. J. Ma, C. W. Ong, J. Lu and J. W. He: Methodology for the evaluation of yield strength and hardening behavior of metallic materials by indentation with spherical tip, J. Appl. Phys. 94 (2003) 288-294. 8. M. Verdier: AFM, TEM and nanoindentation characterizations of plastic deformation in metallic multilayers, Revue de Metallurgie-Cahiers d'Informations Techniques 100 (2003) 535-540. 9. B. Wolf, A. Richter, V. Weihnacht: Differential and integral hardness - new aspects of quantifying load-depth-data in depth-sensing nanoindentation experiments, Surface and Coatings Technology 183 (2004) 141-150. 2
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