Anda ülevaade olemasolevatest merekonstruktsioonidest ning nende kasutusprintsiipidest. Anda teadmised merekonstruktsioonide projekteerimise metodoloogiast ning tugevusanalüüsi teostamise viisidest.

To give an overview of the existing marine structures and their work principles.
To provide knowledge of design procedure for marine structures.
To provide knowledge of structural analyses for marine structures.

Aine läbinud üliõpilane:
- omab ülevaadet erinevatest merekonstruktsioonidest;
- tunneb merekonstruktsioonide projekteerimismetoodikat;
- rakendab tugevusanalüüsi merekonstruktsioonide dimensioneerimisel kasutades klassiühingu reegleid.

Student:
- has an overview of different marine structures;
- knows the design methodology of marine structures;
- applies strength analysis in the dimensioning of marine structures using class association rules.

Kursus sisaldab:
- ülevaade erinevatest merekonstruktsioonidest ja nende otstarbest;
- meetodid merekonstruktsioonide projekteerimiseks ning tugevusarvutusteks;
- jõud merekonstruktsioonidel;
- lõikejõu ja paindemomendi arvutamine;
- praktiline laevaehituse disain – laeva peakaare dimensioneerimin;
- lokaalne ja globaalne tugevus;
- lineaarne nõtke;
- väsimusanalüüsi kontseptsioon;
- analüütilised ning numbrilised meetodid;
- klassiühingu reeglid.

The course includes:
- overview of the different marine structures and their applications;
- methods for the design and analysis of marine structures, structural design and analyses of the marine structures;
- forces acting on marine structures;
- calculation of shear force and bending moment;
- practical design of the marine structures – ship mid-ship section calculation.
- global and local strength;
- linear buckling;
- concept of fatigue analyses;
- analytical and numerical methods;
- rules and regulations by classification societies.

The course includes:
- overview of the different marine structures and their applications;
- methods for the design and analysis of marine structures, structural design and analyses of the marine structures;
- forces acting on marine structures;
- calculation of shear force and bending moment;
- practical design of the marine structures – ship mid-ship section calculation.
- global and local strength;
- linear buckling;
- concept of fatigue analyses;
- analytical and numerical methods;
- rules and regulations by classification societies.

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Lotsberg, I. (2016). Fatigue Design of Marine Structures. https://doi.org/10.1017/CBO9781316343982
Hughes, O. F., Paik, J. K., & Beghin, D. (2010). Ship structural analysis and design / edited by Owen F. Hughes and Jeom Kee Paik, with Dominique Beghin ... [et al.]. http://search.ebscohost.com/login.aspx?direct=true&db=cat03307a&AN=tech.002331971&site=eds-live
Paik, J. K. (2018). Ultimate Limit State Analysis and Design of Plated Structures. https://doi.org/10.1002/9781119367758

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