Comparative studies of the seatings of propulsion plantsand auxiliary machinery on chocks made of metal and cast from resin. Part II. Mounting on cast resin chocks

• Autorzy: Grudzinski P. , Konowalski K.
• Języki publikacji: EN

Abstrakty

EN

This article is Part II of the paper containing a description and results of the experimental studies of the deformations, friction processes and structural damping that occur in the foundation bolted joints of propulsion plant components and auxiliary machinery installed on sea-going ships. Part I of this research work presents an analysis of the rigid mountings of machines and devices to the foundations on steel or resin chocks, and explains the need to carry out relevant research in this area. It also presents the description and results of experimental studies carried out for a foundation bolted joint with a conventionally used steel chock. Part II (this article) contains a description and results of similar studies carried out for a foundation bolted joint with a modern chock – cast from epoxy resin compound (EPY), specially developed for this purpose. Then, a comparative analysis of the results obtained for both bolted joints in question was made and the foundation chocks of the poured-in-place resin compound were demonstrated to better fulfill their technical tasks than the steel chocks traditionally used for this purpose

• Wydawca: -
• Czasopismo: Polish Maritime Research
• Rocznik: 2020
• Tom: 27
• Numer: 1
• Opis fizyczny: p.126-133,fig.,ref.

Twórcy

autor

Grudzinski P.

• West Pomeranian University of Technology, al.Piastow 19, 70-310 Szczecin, Poland

autor

Konowalski K.

• West Pomeranian University of Technology, al.Piastow 19, 70-310 Szczecin, Poland

Bibliografia

• 1. Cherry E., Church J. E. (2014): Shipboard Maintenance of Machinery. Engine Foundations. ITW Chockfast Marine – Industrial Grouts, Adhesives, Repair Products and Coatings. Retrieved from: http://www.chockfast.com/reference.html.
• 2. Grudziński K., Autor I., Jaroszewicz W., Ratajczak J. (2012): Practical applications of EPY plastic in machinery and equipment installation (in Polish). Technologia i Automatyzacja Montażu, 1/ 2012 (75), 18-23.
• 3. Grudziński K., Jaroszewicz W., Ratajczak J., Urbaniak M., Autor I. (2014): Mounting of machines and devices using EPY resin (in Polish). PPH ZAPOL, Dmochowski & Sobczyk Registered Partnership, Szczecin 2014.
• 4. Grudziński P., Konowalski K. (2019): Comparative Studies of the Seatings of Propulsion Plants and Auxiliary Machinery on Chocks Made of Metal and Cast of Resin. Part I. Mounting on Steel Chocks. Polish Maritime Research, 4(104) 2019, 26, 142-148.
• 5. Grudziński P. (2013): Research into the Vibration Isolating Properties of EPY Resin and the Possibility of Its Use to Reduce the Vibrations and Insulation of Structure-Borne Sound (in Polish). Sprawozdanie merytoryczne z wykonania projektu badawczego nr N N502 194938, Zachodniopomorski Uniwersytet Technologiczny w Szczecinie, Katedra Mechaniki i Podstaw Konstrukcji Maszyn, Szczecin 2013 (unpublished).
• 6. Grudziński P. (1999): Modeling and testing of elasticdamping properties of plastics used in the seating of machines (in Polish). Dissertation, Politechnika Szczecińska, Katedra Mechaniki i Podstaw Konstrukcji Maszyn, Szczecin, 1999.
• 7. Kuly J. A. (2010): Best Practices in Compressor Mounting. ITW Technologies. 7th Conference of EFRC, October 21– 22, Florence 2010.
• 8. VDI-Richtlinien 2062. Blat 1. Schwingungsisollierung, Begriffe und Methoden (Vibration insulation – Terms and definitions and methods), VDI e. V., Düsseldorf 2009.

Identyfikatory

DOI

10.2478/pomr-2020-0013