Hình K.4 - Sơ đồ biểu thị các giá trị được cho trong Bảng K.4
Thư mục tài liệu tham khảo
[1] ISO 3183, Petroleum and natural gas industries - Steel pipe for pipeline transportation systems
[2] ISO 11960, Petroleum and natural gas industries - steel pipes for use as casing or tubing for wells
[3] ISO/TR 25679, Mechanical testing of metals - Symbols and definitions in published standards
[4] ISO/IEC Guide 98-3, Uncertainty of measurement - Part 3: Guide to the expression of uncertainty in measurement (GUM:1995)
[5] ISO/TTA 2, Tensile tests for discontinuously reinforced metal matrix composites at ambient temperatures
[6] ASTM A370, standard test methods and definitions for mechanical testing of steel products
[7] ASTM E8M, standard test methods for tension testing of metallic materials
[8] ASTM E1012, standard practice for verification of test frame and specimen alignment under tensile and compressive axial force application
[9] CWA 15261-2:2005, Measurement uncertainties in mechanical tests on metallic materials- The evaluation of uncertainties in tensile testing
[10] DIN 50125, Testing of metallic materials - Tensile test pieces
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[14] JIS Z2201, Test pieces for tensile test for metallic materials
[15] NIS 80:1994, Guide to the expression of uncertainty in testing
[16] NIS 3003:1995, The expression of uncertainty and confidence in measurement
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[23] TAYLOR, B.N., KUYATT, C.E. Guidelines for evaluating and expressing the uncertainty of NIST measurement results. NIST, Gaithersburg, MD, 1994. 25 p. (NIST Technical Note 1297.) Available (2009-07-23) at: http://physics.nist.gov/Pubs/quidelines/TN1297/tn1297s.pdf
[24] LOVEDAY, M.S. Room temperature tensile testing: A method for estimating uncertainty of measurement. National Physical Laboratory, Teddington, 1999. [Measurement note CMMT (MN) 048.] Available (2009-07-23) at: http://publications.npl.co.uk/npl_web/pdf/cmmt_mn48.pdf
[25] BELL, S.A. (1999) A beginner’s guide to uncertainty of measurement, 2nd edition. National Physical Laboratory, Teddington, 2001. 41 p. (Measurement Good Practice Guide, No. 11.) Available (2009-07-31) at: http://publications.npl.co.uk/npl web/pdf/mqpq11.pdf
[26] BIRCH, K. Estimating uncertainties in testing. National Physical Laboratory, Teddington, 2001. (Measurement Good Practice Guide, No. 36.) Available (2009-07-23) at: http://publications.npl.co.uk/npl_web/pdf/mqpq36.pdf
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[28] SONNE, H.M., KNAUF, G., SCHMIDT-ZINGES, J. Überlegungen zur Überprüfung von Zugprüfmaschinen mittels Referenzmaterial [Considerations on the examination of course test equipment by means of reference material]. In: Proceedings of Werkstoffprüfung [Materials testing] 1996. Bad Nauheim. DVM, Berlin
[29] INGELBRECHT, C.D., LOVEDAY, M.S. The certification of ambient temperature tensile properties of a reference material for tensile testing according to EN 10002-1: CRM 661. EC, Brussels, 2000. (BCR Report EUR 19589 EN.)
[30] LI, H.-P., ZHOU, X. New Consideration on the uncertainty evaluation with measured values of steel sheet in tensile testing. In: Metallurgical analysis, 12th Annual Conference of Analysis Test of Chinese Society for Metals, 2004
[31] KLINGELHÖFFER, H., LEDWORUSKI, S., BROOKES, S., MAY, T. Computer controlled tensile testing according to EN 10002-1 - Results of a comparison test programme to validate a proposal for an amendment of the standard- Final report of the European project TENSTAND - Work Package 4. Bundesanstalt für Materialforschung und -prüfung (BAM), Berlin, 2005. 44 p. (Forschungsbericht [Technical report] 268.) Available (2008-07-01) at: http://www.bam.de/de/service/publikationen/publikationen_medien/fb268_vt.pdf
[32] LOVEDAY, M.S., GRAY, T., AEGERTER, J. Tensile testing of metallic materials - A review - Final report of the TENSTAND project of work package 1. Bundesanstalt für Materialforschung und - prüfung (BAM), Berlin, 2004
[33] ASTM Research Report E 28 1004:1994, Round robin results of interlaboratory tensile tests
[34] ROESCH, L., COUE, N., VITALI, J., DI FANT, M. Results of an interlaboratory test programme on room temperature tensile properties - Standard deviation of the measured values. (IRSID Report, NDT 93310.)
[35] LOVEDAY, M.S. Towards a tensile reference material. In: LOVEDAY, M.S., GIBBONS, T.B. Harmonisation of testing practice for high temperature materials, pp. 111-153. Elsevier, London
[36] JOHNSON, R.F., MURRAY, J.D. The effect of rate of straining on the 0.2 % proof stress and lower yield stress of steel. In: Proceedings of Symposium on High Temperature Performance of Steels, Eastbourne, 1966. Iron and steel Institute, 1967
[37] GRAY, T.G.F., SHARP, J. Influence of machine type and strain rate interaction in tension testing. In: PAPIRNO, R., WEISS, H.C. Factors that affect the precision of mechanical tests. ASTM, Philadelphia, PA. (Special Technical Publication 1025.)
[38] AEGERTER, J., BLOCHING, H., SONNE, H.-M. Influence of the testing speed on the yield/proof strength - Tensile testing in compliance with EN 10002-1. Materialprüfung 2001, 10, pp. 393-403
[39] AEGERTER, J. Strain rate at a given point of a stress/strain curve in the tensile test [Internal memorandum], VAW Aluminium, Bonn, 2000
[40] BLOCHING, H. Calculation of the necessary crosshead velocity in mm/min for achieving a specified stress rate in MPa/s [Report], Zwick, Ulm, 2000. 8 p.
[41] MCENTEGGART, I., LOHR, R.D. Mechanical testing machine criteria. In: DYSON, B.G., LOVEDAY, M.S., GEE, M.G., editors. Materials metrology and standards for structural performance, pp. 19-33. Chapman & Hall, London, 1995
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