Knowledge Base
REFERENCES FOR MATERIAL DATABASE CONTENT
Processed and included in the database- Bäumel, A., Seeger, T.: Materials data for cyclic loading – Supplement 1. Amsterdam: Elsevier; 1990.
- Boller, C., Seeger, T.: Materials data for cyclic loading, Part A - Unalloyed steels, Elsevier, Amsterdam 1987.
- Boller, C., Seeger, T.: Materials data for cyclic loading, Part B - Low-alloy steels, Elsevier, Amsterdam 1987.
- Boller, C., Seeger, T.: Materials data for cyclic loading, Part C - High-alloy steels, Elsevier, Amsterdam 1987.
- Boller, C., Seeger, T.: Materials data for cyclic loading, Part D, Elsevier, Amsterdam 1987.
- Boller, C., Seeger, T.: Materials data for cyclic loading, Part E, Elsevier, Amsterdam 1987.
Obtained and under preparation
- Kim, K.S.; Chen, X.; Han, C.; Lee, H.W.: Estimation methods for fatigue properties of steels under axial and torsional loading // International Journal of Fatigue, 24 (2002) ; 783-793
- Landgraf, R.W.: Cyclic deformation and fatigue behavior of hardened steels // T.&A.M. Report No.320, University of Illinois, Urbana, 1968.
- Meggiolaro, M.A.; Castro, J.T.P.: Statistical evaluation of strain-life fatigue crack initiation predictions // International Journal of Fatigue, 26 (2004) ; 463-476
- Ong, J.H.: An evaluation of existing methods for the prediction of axial fatigue life from tensile data // International Journal of Fatigue, 15 (1993) ; 13-19
- Reis, L.; Li, B. ; Freitas, M.: Biaxial fatigue for proportional and non-proportional loading paths // Fatigue & Fracture of Engineering Materials & Structures, 27 (2004) ; 775-784
- Roessle, M.L.; Fatemi, A.: Strain-controlled fatigue properties of steels and some simple approximations // International Journal of Fatigue, 22 (2000) ; 495-511
- SAE Standard J1099: Technical Report on Low Cycle Fatigue Properties Ferrous and Non-Ferrous Materials, June, 1998.
- Thielen, P.N.: Fatigue studies on 4140 quenched and tempered steel // Dissertation, Northwestern University, Evanston, 1975.
GENERAL REFERENCES
- Basan, R.: Fatigue and damage of the gear tooth flank. Dissertation (in Croatian). Rijeka: Faculty of Engineering, University of Rijeka; 2009.
- Basan, R., Rubeša, D., Franulović, M., Križan, B.: A novel approach to the estimation of strain life fatigue parameters. Procedia Engineering 2010;2:417–426.
- Basan, R., Franulović, M., Prebil, I., Črnjarić-Žic, N.: Analysis of strain-life fatigue parameters and behaviour of different groups of metallic materials. Int J Fatigue 2011;33:484–491.
- Jeon, W.S., Song, J.H.: An expert system for estimation of fatigue properties of metallic materials. Int J Fatigue 2002;24:685–698.
- Lee, K.S., Song, J.H.: An expert system for estimation of fatigue properties from simple tensile data or hardness. J ASTM International 2009;6:1:1–15.
- Manson, S.S.: Fatigue: A complex subject – Some simple approximations. Exp Mech SESA 1965; 5, 7:193–226.
- Meggiolaro, M.A., Castro, J.T.P.: Statistical evaluation of strain-life fatigue crack initiation predictions. Int J Fatigue 2004;26:463–476.
- Muralidharan, U., Manson, S.S.: A modified universal slopes equation for estimation of fatigue characteristics of metals. J Engng Mater Techn 1988;110:55–58.
- Ong, J.H.: An improved technique for the prediction of axial fatigue life from tensile data. Int J Fatigue 1993;15:213–219.
- Park, J.H., Song, J.H.: Detailed evaluation of methods for estimation of fatigue properties. Int J Fatigue 1995;17:5:365–373.
- Park, J.H., Song, J.H., Lee, T., Lee, K.S.: Implementation of expert system on estimation of fatigue properties from monotonic mechanical properties including hardness. Procedia Engineering 2010;2:1263–1272.
- Roessle, M.L., Fatemi, A.: Strain-controlled fatigue properties of steels and some simple approximations. Int J Fatigue 2000;22:495–511.
- Socie, D.F., Mitchell, M.R., Caulfield, E.M.: Fundamentals of modern fatigue analysis – FCP Report. Urbana: University of Illinois; 1977.
LINKS TO OTHER MATERIAL DATA AND KNOWLEDGE RESOURCES
PUBLISHED PAPERS - FULLTEXTS
Basan, R., Franulović, M., Domagoj, R., Prebil, I.:
Implementation of strain-life fatigue parameters estimation methods in a web-based system. Procedia Engineering. 10 (2011) ; 2369-2374
Abstract
In order to address problems connected with the choice of a proper material during early stages of product development when limited or no experimental data on candidate materials are available, a web-based information system consisting of material properties database and expert system for the estimation of cyclic and fatigue material parameters has been established. Material properties database is user-expandable and draws mainly on existing, published literature sources and results of relevant research. Besides the well-established estimation methods and the methodology for their evaluation, the results of own research in the form of a newly proposed approach and method for the estimation of strain-life fatigue parameters as well as the methodology for the evaluation of estimation methods are incorporated in the system as well.
Keywords: strain life; parameter estimation; database; expert-system; web-based