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Abstrakty
Good quality diglycine perchlorate (DGPCL) single crystals were grown by slow evaporation solution growth method using the combination of glycine and perchloric acid in the ratio of 2:1. Single crystal X-ray diffraction and mechanical characterization of the grown single crystals of diglycine perchlorate were analyzed in this article. Lattice parameters, space group and crytal system were found from single crystal X-ray diffraction analysis. All the cell parameters and space group are in a good agreement with the reported values. Mechanical properties, such as Vicker’s microhardness number, work hardening index, standard hardness value, yield strength, fracture toughness, brittleness index and elastic stiffness constant values, were determined using Vicker’s microhardness tester.
Wydawca
Czasopismo
Rocznik
Tom
Strony
733--738
Opis fizyczny
Bibliogr. 19 poz., rys., tab.
Twórcy
autor
- Department of Physics, Academy of Maritime Education and Training, Kanathur, Chennai-603112, India
autor
- Department of Physics, Academy of Maritime Education and Training, Kanathur, Chennai-603112, India
autor
- Department of Physics, B.S. Abdur Rahman Crescent Institute of Science and Technology, Chennai-600048, India
autor
- Department of Physics, RKM Vivekananda College, Chennai-600004, India
Bibliografia
- [1] Dinakaran P.M., Kalainathan S., Spectrochim. Acta A, 105 (2013), 509.
- [2] Saleh B.E.A., Teich M.C., Fundamentals of Photonics, John Wiley & Sons Inc., New York, 1991.
- [3] Esthaku M.P., Ramasamy P., Mater. Chem. Phys., 137 (2012), 258.
- [4] Anbarasu S., Devarajan P.A., Optik, 125 (2014), 333.
- [5] Rajesh K., Mani A., Kumar P.P., MMSE, 9 (2017), 73. 1
- [6] Thayanithi V., Rajesh K., Kumar P.P., Mater. Res. Express, 4 (2017), 086201.
- [7] Deepthy A., Bhat H.L., J. Cryst. Growth, 226 (2001), 287.
- [8] Vizhi E.R., Babu R.D., Sathyanarayanan K., Ferroelectrics Lett., 37 (2010), 23.
- [9] Benet C.J., Gnanam F.D., J. Mater. Sci. Lett., 25 (1990), 1451.
- [10] Rani C.D., Benet C.J., Gnanam F.D., J. Cryst. Growth, 137 (1994), 295.
- [11] Panicker L., Mathur P., Mohan S.M., J. Chem. Crystallogr., 41 (2011), 147.
- [12] Lakshmipriya M., Babu D.R., Vizhi R.E., Mat. Sci. Eng., 73 (2015), 012091.
- [13] Karan S., Gupta S.S.P., Mat. Sci. Eng. A-Struct., 398 (2005), 198.
- [14] Onitsch E.M, Microscopie, 2 (1947), 131.
- [15] Bamzai K.K., Kotru P.N., Wanklyn B.M., J. Mater. Sci. Technol., 16 (2000), 405.
- [16] Tawnsend D., Field J.E., J. Mater. Sci., 25 (1990), 1347.
- [17] Linet J.M., Priya S.M.N., Dinakaran S., Das S.J., Cryst. Res. Technol., 43 (2008), 806.
- [18] Wooster W.A., Rep. Progr. Phys., 16 (1953), 62.
- [19] Kumar A.R., Vizhi E.R., Vijayan N., Babu R.D., Schol. Res. Lib., 2 (2010), 247.
Uwagi
PL
Opracowanie rekordu w ramach umowy 509/P-DUN/2018 ze środków MNiSW przeznaczonych na działalność upowszechniającą naukę (2019).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-3981b2f0-6fbe-4027-a032-a6ce0998ad5f