1995 Orr, J. (2020). Activities of a European Creep Collaborative Committee Working Group on High Temperature Bolting Materials. In Book - Performance of Bolting Materials in High Temperature Plant Applications (pp. 115-124). Conference Proceedings, 16-17 June 1994, York, UK, A. Strang (Ed.) CRC Press, 1995, eBook ISBN9781003070399 .
1999 Holdsworth, S. R., & Davies, R. B. (1999). A recent advance in the assessment of creep rupture data. Nuclear Engineering and design, 190(3), 287-296.
2000 Holdsworth, S. R. "Recent developments in the analysis of creep rupture data." Key Engineering Materials 171 (2000): 1-8.
2000 Thornton, D. V. (2000). Activities of the European Creep Collaborative Committee. In Proc. 5th Intern. Parsons Conf. on Advanced Materials for 21st Century Turbines and Power Plant, Cambridge, July 2000, IOM London.
2001 Recommendations—Volume, E. C. C. C. (2001). Part I [Issue 4], Guideline for the Exchange and Collection of Creep Rupture, Creep Strain-Time and Stress Relaxation Data for Assessment Purpose, Appendix Bl, ECCC-Document, Ed. SR. Holdsworth, May.
2002 Allen, D. J., & Servetto, C. (2002). An assessment of creep rupture data on steel E911. 7th Liege conference on materials for advanced power engineering, Liege (Belgium), 30 Sep - 2 Oct 2002; Lecomte-Beckers, J.; Carton, M.; Schubert, F.; Ennis, P.J. (eds.), 1920 pages.
2003 Holdsworth, S. R., & Merckling, G. (2003). ECCC developments in the assessment of creep-rupture properties. Proc 6th Inter. Charles, Parsons Turbine Conf. on Engineering Issues in Turbine Machinery, Power Plant & Renewables, Trinity College, Dublin, 16/18-Sept-2003, 411-426.
2004 Merckling, G. (2004). Introduction to ECCC and activities of the project Advanced Creep. Materials at High Temperatures, 21(1), 17-23.
2004 Holdsworth, S. (2004). Developments in the assessment of creep strain and ductility data. Materials at high temperatures, 21(1), 25-31.
2004 Hald, J. (2004). Creep strength and ductility of 9 to 12% chromium steels. Materials at High Temperatures, 21(1), 41-46.
2004 Auerkari, P., Brown, T. B., Holdsworth, S., Hales, R., Klenk, A., Patel, R., ... & Vilhelmsen, T. (2004). Developments in assessing creep behaviour and creep life of components. Materials at High Temperatures, 21(1), 61-64.
2004 Allen, D., Keustermans, J. P., Gijbels, S., & Bicego, V. (2004). Creep rupture and ductility of as-manufactured and service-aged nickel alloy IN617 materials and welds. Materials at High Temperatures, 21(1), 55-60.
2005 Shibli, I. A., Holdsworth, S. R., & Merckling, G. (Eds.). (2005). Creep and fracture in high temperature components: design and life assessment issues. DEStech Publications, Inc. ISBN 9781932078497, 1932078495.
2005 ECCC Recommendations, 2005, 'Creep data validation and assessment procedures', eds. Holdsworth, S.R. et al., publ. ETD Ltd UK, www.ommi.co.uk/etd/eccc/open.htm, a) Vol.1: Overview, b) Vol.2: Terms and terminology', c) Vol.3: Data acceptability criterion, Data generation, d) Vol.4: Data exchange and collation, e) Vol.5: Data assessment, f) Vol.6: Characterisation of microstructure and physical damage for remaining life, g) Vol.7: Data assessment - Creep crack initiation, h) Vol.8: Data assessment - Multiaxial, i) Vol.9: Component assessment.
2005 Holdsworth, S. R. (2005). Creep Rupture Data Assessments of Alloy 617. Creep and Fracture in High Temperature Components: Design and Life Assessment Issues, 178.
2006 Holdsworth, S. R. (2006). Development and current status of ECCC creep property data sheets. In Conference: 8. Liege conference: Advanced materials for power engineering 2006, Liege (Belgium), 18-20 Sep 2006; Related Information: In: Materials for advanced power engineering 2006. Proceedings of the 8th Liege conference. Pt. 1, Schriften des Forschungszentrums Juelich. Reihe Energietechnik/Energy Technology v. 53, Pt. 1, by Lecomte-Beckers, J.; Carton, M.; Schubert, F.; Ennis, P.J. (eds.), 631 pages. page(s) 91-105.
2006 Holmstrom, S., & Auerkari, P. (2006). Robust prediction of full creep curves from minimal data and time to rupture model. Energy materials, 1(4), 249-255. https://doi.org/10.1179/174892406X173594
2007 Holmstrom, S, Auerkari, P, Holdsworth, S. Predicting creep strain response from rupture data and a robust creep curve model. Finland. pp185-195, 7th BALTICA conference on life management and maintenance for power plants, Jyvaeskylae (Finland), 12-14 Jun 2007; In: BALTICA VII Life management and maintenance for power plants, by Veivo, J.; Auerkari, P. (eds.), 257 pages. VTT report : VTT-SYMP-246(v.1) ISBN 978-951-38-6315-9.
2007 Holdsworth, S. R. (2007, January). The ECCC approach to creep data assessment. In ASME Pressure Vessels and Piping Conference (Vol. 42878, pp. 661-667).
2007 Spindler, M. W., & Spindler, S. L. (2008). Creep deformation, rupture and ductility of Esshete 1250. International journal of pressure vessels and piping, 85(1-2), 89-98.
2007 Holdsworth, S. R., & Klenk, A. (2007). ECCC-guidelines for generation and assessment of weld creep data.
2007 Bendick, W., Gabrel, J., & Vandenberghe, B. (2007, January). Assessment of creep rupture strength for new martensitic 9% Cr steels. In ASME Pressure Vessels and Piping Conference (Vol. 42878, pp. 637-646).
2008 Bendick, W., & Gabrel, J. (2008). Assessment of creep rupture strength for the new martensitic 9% Cr steels E911 and T/P92. Materials at High Temperatures, 25(3), 139-148.
2008 Merckling, G., and European Collaborative Creep Committee. "Long-term creep rupture strength assessment: Development of the European Collaborative Creep Committee post-assessment tests." International journal of pressure vessels and piping 85.1-2 (2008): 2-13.
2008 Holdsworth, S.R., Askins, M., Baker, A., Gariboldi, E., Holmström, S., Klenk, A., Ringel, M., Merckling, G., Sandstrom, R., Schwienheer, M. and Spigarelli, S., 2008. Factors influencing creep model equation selection. International Journal of Pressure Vessels and Piping, 85(1-2), pp.80-88.
2008 Holdsworth, S. (2008). The European Creep Collaborative Committee (ECCC) approach to creep data assessment. Journal of Pressure Vessel Technology, 130(2).
2008 Holmström, S., & Auerkari, P. (2008). Effect of short-term data on predicted creep rupture life-pivoting effect and optimized censoring. Materials at High Temperatures, 25(3), 103-109.
2010 Holmström, S. (2010). Engineering tools for robust creep modeling. VTT PUBLICATIONS 728, 2010, ISBN 978-951-38-7378-3.
2010 Bendick, W., Cipolla, L., Gabrel, J., & Hald, J. (2010). New ECCC assessment of creep rupture strength for steel grade X10CrMoVNb9-1 (Grade 91). International Journal of Pressure Vessels and Piping, 87(6), 304-309.
2010 Holdsworth, S. (2010) Advances in the Assessment of Creep Data, 9th Liege Conference : Materials for Advanced Power Engineering 2010, edited by J. Lecomte-Beckers, Q. Contrepois, T. Beck and B. Kuhn. pp970-985.
2010 Holdsworth, S. (2010). Advances in the assessment of creep data during the past 100 years. Transactions of the Indian Institute of Metals, 63(2), 93-99.
2010 Spindler, S. L., Allen, D. J., Baker, A. J., & Spindler, M. W. (2010). Analysis of cross-weld creep rupture data on the ½Cr½Mo¼V type IV zone. International journal of pressure vessels and piping, 87(6), 296-303.
2013 Holmström, S., Pohja, R., Nurmela, A., Moilanen, P., & Auerkari, P. (2013). Creep and creep-fatigue behaviour of 316 stainless steel. Procedia Engineering, 55, 160-164.
2014 Spindler, M., Lombardi, P., Merckling, G., Riva, A., Ortolani, M., Norman, M., ... & Schwienheer, M. (2014, May). A re-evaluation of the ECCC guidance for the assessment of full size creep rupture datasets. In 3 rd international ECCC conference on creep and fracture in high temperature components design and life assessment, Rome. INAIL (pp. 798-808).
2017 Bullough, C., Krein, R., Lombardi, P., Spindler, M., & Poggio, E. (2017, September). Development of an ECCC Interim Creep Rupture Datasheet for Alloy 617B using a Strength Averaging and Blending Approach. In Proceedings of the 4th International ECCC Creep & Fracture Conference, Düsseldorf, Germany (pp. 10-14).
2017 Allen, D. (2017). An investigation of the factors determining creep strength and ductility in Grade 92 steel. ECCC Creep and Fracture Conference 2017." Steel Institute VDEh (2017).
2017? Allen, D. J., E. de Bruycker, J. P. Keustermans, M. Gomes, S. Holmström, H. Kolkman, C. Messelier-Gouze, and E. Vacchieri. "ECCC TEST PROGRAMME AND DATA ASSESSMENT ON GTD111 CREEP RUPTURE, STRAIN AND DUCTILITY."
2017 Holmström, S., P. Dymacek, S. P. Jeffs, R. J. Lancaster, R. C. Hurst, A. Tonti, E. Poggio, and E. Vacchieri. "Small punch creep testing of P92 steel and weld for inter-laboratory comparison and standardization, ECCC Creep and Fracture Conference 2017." Steel Institute VDEh (2017).
2018 Holmström, S., Li, Y., Dymacek, P., Vacchieri, E., Jeffs, S. P., Lancaster, R. J., ... & Andres, D. (2018). Creep strength and minimum strain rate estimation from Small Punch Creep tests. Materials Science and Engineering: A, 731, 161-172.
2022 Bullough, C., DeBruycker, E., Poggio, E., Schwienheer, M., & Spindler, M. (2022). Creep rupture properties of ATI 718Plus-an approach to assessing sparse data. Materials at High Temperatures, 39(6), 655-667.
2022 Baylac, G., Bullough, C., Holmström, S., Smith, W., Tonti, A., & Forot, C. (2022). New approaches to determine negligible creep. Materials at High Temperatures, 39(6), 668-677.