PSI - Issue 36

V.V. Kharchenko et al. / Procedia Structural Integrity 36 (2022) 59–65 V. V. Kharchenko et al. / Structural Integrity Procedia 00 (2021) 000 – 000

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Huber, N., Tsakmakis, C., 1998. Experimental and theoretical investigation of the effect of kinematic hardening on spherical indentation. Mechanics of Materials 27(4), 241-248 I 1.2.1.02.019.1121-2016, 2016. Determination of mechanical properties of metal of nuclear power plants equipment by indirect methods based on hardness characteristics. Instructions. Mos с ow, Russia. ISO 14577-1:2015, 2015. Metallic materials – Instrumented indentation test for hardness and materials parameters – Part 1: Test method. ISO/TR 29381:2008, 2008. Metallic materials – Measurement of mechanical properties by an instrumented indentation test – Indentation tensile properties. Jiang, P., Zhang, T., Feng, Y., Yang, R., Liang, N., 2009. Determination of plastic properties by instrumented spherical indentation: Expanding cavity model and similarity solution approach. Journal of Materials Research 24(3), 1045-1053. Katok, O. A., Kravchuk, R. V., Kharchenko, V. V., Rudnyts’kyi, M. P., 2019. A Setup for Complex Investigation of Mechanical Characteristics of Structural Materials for NPP Equipment. Strength of Materials 51(2), 317-325. Kravchuk R. V., 2020. Determination of mechanical properties of structural steels by indirect methods. Manuscript-style thesis. Kyiv, Ukraine. Lu, W., Ling, X., Yang, S., 2019. A modified reference area method to estimate creep behaviour of service-exposed Cr5Mo based on spherical indentation creep test. Vacuum 169, 108923. Mathew, M. D., Murty, K. L., Rao, K. B. S., Mannan, S. L., 1999. Ball indentation studies on the effect of aging on mechanical behavior of alloy 625. Materials Science and Engineering: A 264(1-2), 159-166. Murty, K. L., Mathew, M. D., Wang, Y., Shah, V. N., Haggag, F. M., 1998. Nondestructive determination of tensile properties and fracture toughness of cold worked A36 steel. International Journal of Pressure Vessels and Piping 75(11), 831-840. Nagaraju, S., Ganesh Kumar, J., Vasantharaja, P., Vasudevan, M., Laha, K., 2017. Evaluation of strength property variations across 9Cr-1Mo steel weld joints using automated ball indentation (ABI) technique. Materials Science and Engineering: A 695, 199-210. Nguyen, N.-V., Pham, T.-H., Kim, S.-E., 2019. Strain rate sensitivity behavior of a structural steel during low-cycle fatigue investigated using indentation. Materials Science and Engineering: A 744, 490-499. Peng, G., Lu, Z., Ma, Y., Feng, Y., Huan, Y., Zhang, T., 2018. Spherical indentation method for estimating equibiaxial residual stress and elastic plastic properties of metals simultaneously. Journal of Materials Research 33(8), 884-897. RD E О 0027 -2005, 2005. Instructions for the determination of the mechanical properties of metal of nuclear power plants equipment by indirect methods based on hardness characteristics. Moscow, Russia. SOU-N NAEK 133:2016, 2016. Engineering, Scientific and Technical Support. Procedure for Determining the Mechanical Properties of Metal from Hardness Test Data. National Nuclear Power Generating Company “Enerhoatom”. Kyiv, Ukraine. Swadener, J. G., Taljat, B., Pharr, G. M., 2001. Measurement of residual stress by load and depth sensing indentation with spherical indenters. Journal of Materials Research 16(7), 2091-2102. TPKM-10-01, 2001. Model Program of the Periodic Control of the Mechanical Properties of the Metal of Pipelines of Nuclear Power Stations with VVER-1000 Reactors. Kyiv, Ukraine.

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