References
- 1. Grogoriew W., Goldowski P.: Riveting of Al alloy structures. Ministry of National Defence Publishing, Warsaw, 1957, 1. edition. (in Polish)
- 2. Military Specification. Rivets, buck type, preparation for and installation of. 1977. http://www.rivetbangers.com/documents/MIL-R-47196A_MI.pdf
- 3. Müller R. P. G.: An Experimental Investigation on the Fatigue Behavior of Fuselage Riveted Lap Joints; The Significance of the Rivet Squeeze Force, and a Comparison of 2924-T3 and Glare 3. Doctor thesis, Delft University of Technology, Faculty of Aerospace Engineering, Structures and Materials Laboratory, Printed in Netherlands by Universitatdrukkerij, Delft, ISBN 90-9008777-X, October 1995.
- 4. Rans Calvin D., The Role of Rivet Installation on the Fatigue Performance of Riveted Lap Joints. Doctor thesis, Carleton University, Ottawa, Ontario, Canada, August 2007.
- 5. de Rijk J.J.M: Analysis of Fatigue in Mechanically Fastened Joint. An analytical and experimental investigation. Doctor thesis, Delft University of Technology, Faculty of Aerospace Engineering, Structures and Materials Laboratory, Printed in Netherlands by Universitatdrukkerij, Delft University Press Science, Delft, ISBN 90-407-2590-X, June 2005.
- 6. Polish industry standard BN-70/1120-03: Rivets for aviation-related purposes. Length selection, driven heads dimensions and diameters of rivets holes. (in Polish)
- 7. Polish industry Standards BN-70/1121-0X. Rivets with head:, flat -01, round -03, 90° countersunk -04, 120° countersunk -05, brazier -06. (in Polish)
- 8. Russian standard OST 1 34040-79. Brazier rivet with a compensator.
- 9. 90° countersunk rivet with a compensator ANU 0301.
- 10. Russian standard OST 1 12020-75. 90° countersunk rivet with a compensator.
- 11. Process specification Poland-1. (in Polish)
- 12. Process specification Poland-2. (in Polish)
- 13. MS 20 426. Rivet, solid, countersunk 100°, precision head, aluminum and titanium, columbium alloy.
- 14. NAS 1097. Rivet, solid, 100°, flush shear head, aluminum alloy, titanium, columbium alloy.
- 15. MS 20 470. Rivet, solid, universal head, aluminum alloy, titanium, columbium alloy.
- 16. West-3. Process specification. Installation of solid Rivets.
- 17. West-1. Process specification. Installation of solid Rivets.
- 18. West-2. Process specification. Installation of solid Rivets.
- 19. West-4. Process specification. Drilling, reaming and countersinking of rivet and screw holes.
- 20. Polish standard. Aerospace series – Rivet, 100° reduced flush head, close tolerance – Inch series, PN-EN-6069:2010.
- 21. Kaniowski J. (2012). The Synthetic Description of the Results, Scientific Achievements and Practical Application of the Eureka-IMPERJA Project, E3496!, titled “Improving the Fatigue Performance of Riveted Joints in Airframes. A. Niepokólczycki (Ed.). Fatigue of Aircraft Structures, Monographic Series, ISSUE 2012, pp.38-57. ISSN 2081-7738. Institute of Aviation Scientific Publication, Warsaw, Poland. http://www.degruyter.com/view/j/fas.2012.1.issue-4/v10164-012-0055-4/v10164-012-0055-4.xml?format=INT, DOI: 10.2478/v10164-012-0055-4, April 2013.
- 22. Wronicz W., Kaniowski J.: The Analysis of the Influence of Riveting Parameters Specified in Selected Riveting Instructions on Residual Stresses. A. Niepokólczycki (Ed.). Fatigue of Aircraft Structures, Monographic Series, ISSUE 2014. Institute of Aviation Scientific Publication, Warsaw, Poland.