Share This Article:

Usability of Polymer Concrete as a Machine-Making Material Regarding Fatigue Strength

Abstract Full-Text HTML Download Download as PDF (Size:537KB) PP. 59-64
DOI: 10.4236/wjet.2013.13009    4,744 Downloads   10,530 Views   Citations

ABSTRACT

In many studies conducted on polymer concretes of different structures, some of the mechanical behaviours such as compression, bending, damping, and fatigue have been investigated. Specimens and experimental taxonomy used in the majority of these studies explore the idea of using polymer concrete either as a construction material or as a material for building the body of machine tools. The experimental methodology and specimens used in this study to investigate the fatigue strength were chosen according to the machine-making material. In “rotational flexural fatigue” experiments conducted using high compressive strength composite materials, fatigue strength values were observed to be lower than previous studies.

Conflicts of Interest

The authors declare no conflicts of interest.

Cite this paper

E. Ateş and M. Gerger, "Usability of Polymer Concrete as a Machine-Making Material Regarding Fatigue Strength," World Journal of Engineering and Technology, Vol. 1 No. 3, 2013, pp. 59-64. doi: 10.4236/wjet.2013.13009.

References

[1] J. Krausse and H. Dey, “Maschinenteile aus Polymerbeton,” Sonderdruck aus Maschine, Werkzeug, Vol. 85, No. 13, 1984, pp. 16-23.
[2] H. Schulz, “Reaktionsharzbeton im Werkzeugmaschinenbau,” Industrie Anzeiger, Vol. 14, No. 21, 1986, pp. 41-42.
[3] R. G. Nicklau, “Werkzeugmaschinengestelle Aus Methacrylatharzbeton,” Fortschr, Ber. VDI Reihe 2, Nr. 94, 1985, Düsseldorf.
[4] H. J. Dey, “Das Verformungs und Bruchverhalten von Reaktionsharzbeton und die Auswirkungen auf Maschinenbauteile,” Hanser, 1991.
[5] D. Sahm, “Reaktionsharzbeton Für Gestellbauteile Spanender Werkzeugmaschinen,” Von der Fakültaet Für Maschinenwesen der Rheinisch-Westfalischen Technischen Hochschule, Aachen, 28 September 1987, pp. 1-130.
[6] K. S. Rebeiz, D. W. Fowler and D. R. Paul, “Time and Temperature Dependent Properties of Polymer Concrete Made with Resin Using Recycled PET,” In Search of Excellence Annual Technical Conferance, Antec Conferance Proceedings, Pub. By Soc. Of Plastics Engineers, Brookfield, Vol. 37, 5 May 1991, pp. 2146-2149.
[7] K. Gupta, S. Sawhney, S. K. Jain and A. K. Darpe, “Stiffness Characteristics of Fibre-Reinforced Composite Shaft Embedded with Shape Memory Alloy Wires,” Defence Science Journal, Vol. 53, No. 2, 2003, pp. 167-173.
[8] T. H. Cheng, I. S. Kim, S. Y. Park, Z. Z. Li and Y. D. Shen, “Title: Structural Stability Analyses of Composite Laminate Wind Turbine,” Applications of Engineering Materials, PTS 1-4, Advanced Materials Research, Vol. 287-290, No. 7, 2011, pp. 1486-1491. http://dx.doi.org/10.4028/www.scientific.net/AMR.287-290.1486
[9] B. Burks, D. Armentrout and M. Kumosa, “Charaterization of the Fatigue Properties of a Hybrid Composite Utilized in High Voltage Electric Transmission,” Composites: Part A, Vol. 42, No. 9, 2011, pp. 1138-1147. http://dx.doi.org/10.1016/j.compositesa.2011.04.019
[10] H. S. Hedia, S. M. Aldousari, A. Khairy and E. Aljabarti, “Fatigue Life Behaviour of Nanocomposite Coated Carbon Steel,” Materials Testing, Vol. 54, No. 4, 2012, pp. 249-256.
[11] M. F. Ashby and D. R. H. Jones, “Engineering Materials 2. An Introduction to Microstructures, Processing and Design,” Engineering Department, Cambridge University, England, Pergamon Press, Vol. 39. 1986, pp. 201-240.
[12] EN 12620, “European Standard. Aggregates for concrete”.
[13] E. Ates, “The Investigation of Use as a Machine Structural Material of Epoxy Polymer Concrete,” Ph.D. Thesis, Balikesir University, Institute of Science and Technology, Balikesir, 1994, p. 195.
[14] M. N. Gerger and E. Ates, “Usability of the Polymer Concrete As Machine Manufacturing Material in terms of Fatigue Strength,” Congress of 8th International Machine Design and Manufature, METU, Ankara, 9-11 September 1998, pp. 299-307.
[15] DIN 51290-3, “Testing of Polymer Concretes (Re-Action Resin Concretes) for Mechanical Engineering Purposes; Testing of Separately Manufactured Specimens,” The German Institute for Standardization.
[16] DIN 1045, “Concrete, Reinforced and Pre Stressed Concrete strUctures,” The German Institute for Standardization.
[17] ISO 4012, “Concrete-Determination of Compressive Strength of Test Specimens,” International Organzation for Standardization.
[18] “Systems for Coatings and Building Protection, Surface Protection,” Industrial Chemicals, Schering, 1994.
[19] “Industrial Chemicals, Surface Protection I-II, Systems for Coatings and Building Protection, Solvent Based Paints and Epoxy Emulsion Paints,” Technical Information, Europox, Eurodur, Schering, 1994.
[20] “Amsler Bending, Fatigue Experiment Device,” Alfred J. Amsler & Co. Schaffhausen, Schweiz

  
comments powered by Disqus

Copyright © 2019 by authors and Scientific Research Publishing Inc.

Creative Commons License

This work and the related PDF file are licensed under a Creative Commons Attribution 4.0 International License.