APPLIED INDUSTRIAL DESIGN B

APPLIED INDUSTRIAL DESIGN B

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Code
65989
ACADEMIC YEAR
2020/2021
CREDITS
9 credits during the 3nd year of 8721 Pleasure Craft Engineering (L-9) LA SPEZIA

6 credits during the 2nd year of 9274 Product and nautical design (L-4) LA SPEZIA

SCIENTIFIC DISCIPLINARY SECTOR
ICAR/13
LANGUAGE
Italian
TEACHING LOCATION
LA SPEZIA (Pleasure Craft Engineering)
semester
1° Semester
Prerequisites
Teaching materials

OVERVIEW

The course provides nautical engineering students with the basic knowledge of design, the fundamentals of layout and the internal distribution of pleasure boats.

The course is integrated, for nautical engineering students and for product design and nautical students, from a section on 3D modeling. The software used is Rhinocerus. The software can be used on PCs in university laboratories or installed on Personal in the Educational version.

AIMS AND CONTENT

LEARNING OUTCOMES

The course aims to further develop the ability to optimize the forms according to the type of use , technologies , product costs and its industrialization . It also provides an advanced training in the use of the design as a means of design expression , a deepening of the problems and the project of the functional components of the boats specific knowledge .

AIMS AND LEARNING OUTCOMES

The course consists of a theoretical part and a laboratory part with weekly checks and reviews. Parallel to the nautical project we study the Rhinoceros modeling software, both in the two-dimensional section and in the 3D section.

The educational objective of the course is to provide the student with the basic tools to tackle the design of a pleasure boat between 12 and 24 meters in length, sailing and motor boats, and to develop the design through three-dimensional modeling.

The first part of the course is based on the market survey, the comparison and the choice of the reference boat. In the second part, the layout, general plans and sections are started; in this part you start using the Rhinoceros software. In the third part the general plans are completed, the interior layout is deepened and the hull, deck and superstructure are modeled in 3D.

The expected results are those of an advanced understanding of the fundamentals of nautical design and the development of the ability to set the project of a boat, inserting it in the market portion of its competence, and to prepare the general plans that allow the description exhaustive of the same. Furthermore, the student is required to understand and apply the main commands for three-dimensional modeling and the drawing of the papers. Construction of complex surfaces such as hulls and superstructures, technical sections and calculation of areas and masses.

PREREQUISITES

Basic knowledge of descriptive geometry, orthogonal projections and technical drawing.

Teaching methods

The course is carried out through lectures by the teacher, exercises and project laboratory in the classroom.

SYLLABUS/CONTENT

The main topics covered in the section of the course concerning the composition can be summarized in two macro themes: the general principles of design and the specificities of the nautical project.

Project part:

KNOW THE 3D SPACE;
MORPHOLOGICAL and TYPOLOGICAL ANALYSIS;
INTRO TO THE PROJECT BOATS;
COMPOSITION OF VOLUMES and URBAN PLANNING;
GEOMETRIC PARTS OF THE BOAT;
PRINCIPLES OF ERGONOMICS;
THE ON-BOARD ENVIRONMENTS.
The three-dimensional modeling part consists of three sections: the fundamentals, design strategies, applications in the nautical field. The fundamentals investigate Rhinoceros commands and tools, basic settings and desktop customization. The strategies aim at a design aimed at solving specific problems of surface modeling (connections, starts, intersections, scaling of the model). Applications in the nautical field allow the knowledge and construction of planing and displacement hulls, superstructures and interior fittings.

Modeling part:

USER INTERFACE;
DRAW 2D - commands, dimensions, table layout, drawing of general plans;
NURBS - theory and applications of curves in three-dimensional space
SOLIDS - construction and Boolean operations;
NURBS SURFACES - types, starts, connections

RECOMMENDED READING/BIBLIOGRAPHY

Valenti Alessandro, Zignego Mario. Interior Design Multitasking

Massimo Musio Sale, Yacht Design. Dal concept alla rappresentazione

Carlo Sciarrelli. Lo yacht

Riviste del settore

Sitografia cantieri nautici

Metodi di modellazione nurbs con Rhinoceros. Francesco Caraccia - Janotek, 2006

Inside Rhinoceros 5 - Ron K. C. Cheng - Cengage - 2012

Canali Youtube con lezioni e applicazioni Rhinocerus

TEACHERS AND EXAM BOARD

Ricevimento: Wednesday morning, by booking e-mail at the Genoa office Thursday, by booking e-mail at the La Spezia headquarters

Exam Board

MARIO ZIGNEGO (President)

MASSIMO SALE MUSIO

LESSONS

Teaching methods

The course is carried out through lectures by the teacher, exercises and project laboratory in the classroom.

LESSONS START

First semester, as per academic calendar. Lessons take place in 4-hour blocks divided between the theoretical and laboratorial part

EXAMS

Exam description

Written, Oral.

The written part (project) consists of design documents, market research, sketches, collected in a book.

The oral part consists of a dissertation of the project.

The oral part of the modeling consists in the discussion of the exercises carried out and questions concerning commands, procedures and 3D modeling strategies.

Assessment methods

The evaluation of the project part consists in the overall examination of the documents, in the consistency between the initial requisites and the proposed project, in the graphics of the construction plan drawings and the general plans.

The oral discussion of the project allows to evaluate the candidate's expressive and motivational abilities.

The oral examination of the modeling part will assess the knowledge of the main software commands and their application in the exercises carried out during the course. The student must demonstrate the ability to choose the commands and the most appropriate strategy to solve a three-dimensional modeling problem

FURTHER INFORMATION

The students of the degree course in Product Design and Nautical Design take only the part of three-dimensional modeling for a total of 6 credits.