References
- http://materion.com/Products/CompositesCompoundsCeramics/MetalMatrixComposites.aspx
- Tanaka K and Saito T: ‘Phase equilibria in TiB2-reinforced high modulus steel’, J. Phase Equilibr., 1999, 20, 207–214.
- http://www.twi-global.com/technical-knowledge/faqs/material-faqs/faq-what-are-the-common-properties-of-oxide-dispersion-strengthened-ods-alloys/
- http://www.fia.com/sites/default/files/regulation/file/12014%20TECHNICAL%20REGULATIONS%202014-01-23_0.pdf
- Ingelbrecht CD and Loveday MS: ‘The certification of ambient temperature tensile properties of a reference material for tensile testing according to EN 10002-1, CRM661’, EUR Report 19589 EN, 2000.
- Dean GD, Loveday MS, Cooper PM, Read BE, Roebuck B and Morrell RM: ‘Aspects of modulus measurement’, in ‘Materials metrology and standards for structural performance’, (ed. Dyson B F et al.); 1994, London, Elsevier Applied Science.
- Lord JD and Morrell RM: ‘Elastic modulus measurement’, NPL Good Practice Guide No. 98, ISSN 1744-3911, 2006.
- Lord JD and Morrell RM: ‘Elastic modulus measurement – obtaining reliable data from the tensile test’, Metrologia, 2010, 47, 43–49.
- Roebuck B, Lord JD, Cooper PM and McCartney LN: ‘Data acquisition and analysis of tensile properties for metal matrix composites’, JTEVA, 1994, 22, (1), 63–69.
- ‘Metallic materials – tensile testing – Part 1: method of test at ambient temperature’, 6892–1, ISO, Geneva.
- ‘Standard test methods for tension testing of metallic materials’, E8, ASTM, Philadelphia, PA, USA.
- ‘Standard test method for Young’s modulus, tangent modulus and chord modulus’, E111, ASTM, Philadelphia, PA, USA.
- ‘Standard test method for dynamic Young’s modulus, shear modulus and Poisson’s ratio by impulse excitation of vibration’, E1876, ASTM, Philadelphia, PA, USA.
- ‘Standard test method for dynamic Young’s modulus, shear modulus and Poisson’s ratio by sonic resonance’, E1875, ASTM, Philadelphia, PA, USA.
- Lord JD, Rides M and Loveday MS: ‘Modulus measurement methods’, TENSTAND WP3 Report, National Physical Laboratory, 2005.
- Lord JD, Loveday MS, Rides M and McEnteggart I: ‘Digital tensile software evaluation’, TENSTAND WP2 Report, National Physical Laboratory, 2004.
- Timoshenko S, and Young DH: ‘Elements of strength of materials’, 4th edn; 1962, Princeton, NJ, Van Nostrand.
- Wolfenden A, Harmouche MR, Blessing GV, Chen YT, Terranova P, Dayal V, Kinra VK and Wann RJ: ‘Dynamic Young’s modulus measurements in metallic materials: results of an interlaboratory testing program’, J. Test. Evaluat., 1989, 2–13.
- Roebben G, Bollen B, Brebels A, Van Humbeeck J and Van Biest O: ‘Impulse excitation apparatus to measure resonant frequencies, elastic moduli, and internal friction at room and high temperature’, Rev. Sci. Instrum. 1997, 68, (12), 4511–4515.
- ‘Guide to the expression of uncertainty in measurement, ‘GUM’’, ISO, Geneva, ISBN 92-67-10188-9.
- Bell S: ‘A beginner’s guide to uncertainty’, NPL Measurement Good Practice Guide no. 11, August 1999.
- Birch K: ‘Estimating uncertainties in testing’, NPL Measurement Good Practice Guide no. 36, March 2001.
- Kandil FA (ed.): UNCERT Manual, ‘Manual of codes of practice for the determination of uncertainties in mechanical tests on metallic materials’. Project UNCERT, EU Contract SMT4-CT97-2165, Standards Measurement & Testing Programme, ISBN 0-946754-41-1, Issue 1,September 2000.