References
- 1. Humbeeck J. V. (2001): Shape Memory Alloys: A Material and a Technology. Advanced Engineering Materials, vol. 3, no. 11, pp. 837-850.10.1002/1527-2648(200111)3:11<837::AID-ADEM837>3.0.CO;2-0
- 2. Duerig T. W., Melton K. N., Stöckel D.: Engineering Aspects of Shape Memory Alloys, Butterworth-Heinemann Publishing, London, 1990, pp. 3-20.10.1016/B978-0-7506-1009-4.50015-9
- 3. Borden T. (1991): Shape Memory Alloys Forming a Tight Fit, Mechanical Engineering, vol. 113, October, pp. 66-70.
- 4. M. C. Lugg, “Shape Memory Metal Fittings: Enhance the Reliability, maintainability and supportability of Aircraft Hydraulic Systems”, Aircraft Engineering and Aerospace Technology, Vol. 62, (1990) No. 5, pp. 10-11.
- 5. Ochoński W. (2010): Application of shape memory materials in fluid sealing technology, Industrial Lubrication and Tribology, vol.60, no 2.10.1108/00368791011025647
- 6. (1979): Use of Heat Recoverable Coupling Technology in Shipyard Production, NAVAL ENGINEERS JOURNAL, Maurice R. Caskey, Gerald D. Embry, Vol. 91, 2, 45-59
- 7. Patent US, Int.Cl. F16L25/00, no 4035007, Heat recoverable metallic coupling.
- 8. Patent US, Int.Cl. F16L25/00, no 4469357, Composite coupling.
- 9. Company Aerofit Inc. (USA): Catalog of products.
- 10. Patent US, Int.Cl. no 4537406, Hostile environment joint seal and method for installation.
- 11. Patent JP, Int.Cl. F16J15/08, no 1153871, Gasket.
- 12. Patent RU, Int.Cl.E21B17/08, no 2517344, Method of sealing casing by gasket with memory.
- 13. Patent EP, Int.Cl. F16B1/00, no 0302618, Connecting device.
- 14. Patent US, Int.Cl. F16L55/17, no 5338070, Diameter-reducing member joint device.
- 15. Patent US, Int.Cl.F16L35/00, no 5687995, Shape memory alloy pipe coupling for underwater pipe.
- 16. Patent US, Int.Cl. F16L13/04, no 4314718, Tensile ring composite pipe coupling.
- 17. Marine propeller shaft bearings under low-speed conditions: water vs. oil lubrication, W. Litwin – TRIBOLOGY TRANSACTIONS – 2019 TRIBOLOGY TRANSACTIONS pp 1 - 11, ISSN: 1040-2004