Carfagni, Furferi, Governi, Volpe, Esercizi di Disegno Meccanico, Zanichelli Editore.
Support material consists of slides projected by the teachers during
lessons.
The material will be provided to students using a Moodle Platform.
Carfagni, Furferi, Governi, Volpe, Esercizi di Disegno Meccanico, Zanichelli Editore.
Support material consists of slides projected by the teachers during
lessons.
The material will be provided to students using a Moodle Platform.
Carfagni, Furferi, Governi, Volpe, Esercizi di Disegno Meccanico, Zanichelli Editore.
Support material consists of slides projected by the teachers during
lessons.
The material will be provided to students using a Moodle Platform.
Learning Objectives - Last names A-D
The aim of this course is to provide knowledge of technical language and
techniques of Design Technology and Industry, with particular regard to
the major industry regulations, to introduce the main elements of
machines. The course has the following objectives:
- Provide the basic elements of the language of technical communication
in industry, in order to put the student able to correctly perform and
interpret technical drawings.
- Describe the organs of machines and their modes of representation
- To provide the basics of computer aided design.
The student will acquire:
cc3 - Systematic knowledge and understanding of the key aspects of mechanical design of industrial engineering and its methods. In particular: understanding of which are the most suitable methods in order to define a product and its characteristics; technologies for their production and their graphic representation.cc12 - knowledge of the most suitable production process for the production of mechanical components and for the representation of drawing dimensions, geometric and dimensional tolerances.
Students will prove:ca3 - The ability to choose and apply appropriate analytical, modelling, verification and experimental methods for the interpretation and production of drawings of parts and assemblies; the basic sizing and functional verification of components and mechanical groups. ca10 - The ability to choose the most suitable production process for the production of mechanical components for their correct representation with particular reference to issues related to the definition of geometric and dimensional tolerances.
Learning Objectives - Last names E-N
The aim of this course is to provide knowledge of technical language and
techniques of Design Technology and Industry, with particular regard to
the major industry regulations, to introduce the main elements of
machines. The course has the following objectives:
- Provide the basic elements of the language of technical communication
in industry, in order to put the student able to correctly perform and
interpret technical drawings.
- Describe the organs of machines and their modes of representation
- To provide the basics of computer aided design.
The student will acquire:
cc3 - Systematic knowledge and understanding of the key aspects of mechanical design of industrial engineering and its methods. In particular: understanding of which are the most suitable methods in order to define a product and its characteristics; technologies for their production and their graphic representation.cc12 - knowledge of the most suitable production process for the production of mechanical components and for the representation of drawing dimensions, geometric and dimensional tolerances.
Students will prove:ca3 - The ability to choose and apply appropriate analytical, modelling, verification and experimental methods for the interpretation and production of drawings of parts and assemblies; the basic sizing and functional verification of components and mechanical groups. ca10 - The ability to choose the most suitable production process for the production of mechanical components for their correct representation with particular reference to issues related to the definition of geometric and dimensional tolerances.
Learning Objectives - Last names O-Z
The aim of this course is to provide knowledge of technical language and
techniques of Design Technology and Industry, with particular regard to
the major industry regulations, to introduce the main elements of
machines. The course has the following objectives:
- Provide the basic elements of the language of technical communication
in industry, in order to put the student able to correctly perform and
interpret technical drawings.
- Describe the organs of machines and their modes of representation
- To provide the basics of computer aided design.
The student will acquire:
cc3 - Systematic knowledge and understanding of the key aspects of mechanical design of industrial engineering and its methods. In particular: understanding of which are the most suitable methods in order to define a product and its characteristics; technologies for their production and their graphic representation.cc12 - knowledge of the most suitable production process for the production of mechanical components and for the representation of drawing dimensions, geometric and dimensional tolerances.
Students will prove:ca3 - The ability to choose and apply appropriate analytical, modelling, verification and experimental methods for the interpretation and production of drawings of parts and assemblies; the basic sizing and functional verification of components and mechanical groups. ca10 - The ability to choose the most suitable production process for the production of mechanical components for their correct representation with particular reference to issues related to the definition of geometric and dimensional tolerances.
Prerequisites - Last names A-D
No prerequisites are needed.
Prerequisites - Last names E-N
No prerequisites are needed.
Prerequisites - Last names O-Z
No prerequisites are needed.
Teaching Methods - Last names A-D
The course syllabus is dealt with alternating lectures and tutorials.
Teaching Methods - Last names E-N
The course syllabus is dealt with alternating lectures and tutorials.
Teaching Methods - Last names O-Z
The course syllabus is dealt with alternating lectures and tutorials.
Further information - Last names A-D
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Further information - Last names E-N
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Further information - Last names O-Z
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Type of Assessment - Last names A-D
The student's assessment includes a written test in which they are proposed:1) drawing of a standard mechanical component (bearing, toothed wheel, threaded connection)(2) one or more exercises on dimensional and/or geometrical tolerancesThese exercises are designed to ascertain the achievement of cc3 competence. (3) Shot peening of a mechanical assembly4. a drawing of one or more parts of the assembly.Questions 3 and 4 are intended to ascertain at least a good level of achievement of cc3, cc8 and to verify at least a good level of achievement of ca3 capacity and a sufficient level of achievement of ca10 capacity.
Type of Assessment - Last names E-N
The student's assessment includes a written test in which they are proposed:1) drawing of a standard mechanical component (bearing, toothed wheel, threaded connection)(2) one or more exercises on dimensional and/or geometrical tolerancesThese exercises are designed to ascertain the achievement of cc3 competence. (3) Shot peening of a mechanical assembly4. a drawing of one or more parts of the assembly.Questions 3 and 4 are intended to ascertain at least a good level of achievement of cc3, cc8 and to verify at least a good level of achievement of ca3 capacity and a sufficient level of achievement of ca10 capacity.
Type of Assessment - Last names O-Z
The student's assessment includes a written test in which they are proposed:1) drawing of a standard mechanical component (bearing, toothed wheel, threaded connection)(2) one or more exercises on dimensional and/or geometrical tolerancesThese exercises are designed to ascertain the achievement of cc3 competence. (3) Shot peening of a mechanical assembly4. a drawing of one or more parts of the assembly.Questions 3 and 4 are intended to ascertain at least a good level of achievement of cc3, cc8 and to verify at least a good level of achievement of ca3 capacity and a sufficient level of achievement of ca10 capacity.
Course program - Last names A-D
1. Technical Standards
2. Representation techniques
3. Orthogonal Projections
a. Method of Prime Dihedral
b. Method of Second Dihedral
c. Choice of views
4. Sections
a. Sections with a single plane
b. Sections with parallel planes
c. Sections with competing plans
d. Sections with surfaces of any shape
e. Semi sections
f. Partial sections
g. Sections overturned in place
h. Subsequent sections
i. Hatch
m. Special characteristics of representing sections
5. Dimensioning
a. General principles
b. Measuring lines
c. Reference lines
d. Arrow Terminals
e. Quote
f. Dimension series
g. Parallel Dimension
h. Dimensioning in sequence
i. Particular conventions of dimensioning
6. Special conventions
7. Metallic materials
a. Introduction
b. Description conventional
8. Introduction to machining
9. Dimensional tolerances
a. Introduction
b. ISO system
c. Couplings
d. System shaft base and hole base
e. Indication of tolerances in drawings
f. Dimensional control
g. Chains and series of shares tolerated
10. Geometric tolerances
a. Introduction
b. Indication of the geometric tolerances in drawings
c. Principle of maximum material
11. Roughness
a. Introduction
b. Indication of roughness in the drawings
12. Functional Dimension
13. Linkages removed
a. Connections
b. Shaft-hub connections
i. Tabs
ii. Sticks
iii. Spline
14. Linkages
a. Nailing
b. Welding
15. Bearings
a. Sliding Bearings
b. Rolling bearings
c. Mounting bearings
d. Seals and gaskets
16. Bodies for the transmission of motion
a. Sprockets and gears
b. Belts
c. Chains
17. Springs
18. Assembly
19. Isometric projections
20. Computer Aided Design
Course program - Last names E-N
1. Technical Standards
2. Representation techniques
3. Orthogonal Projections
a. Method of Prime Dihedral
b. Method of Second Dihedral
c. Choice of views
4. Sections
a. Sections with a single plane
b. Sections with parallel planes
c. Sections with competing plans
d. Sections with surfaces of any shape
e. Semi sections
f. Partial sections
g. Sections overturned in place
h. Subsequent sections
i. Hatch
m. Special characteristics of representing sections
5. Dimensioning
a. General principles
b. Measuring lines
c. Reference lines
d. Arrow Terminals
e. Quote
f. Dimension series
g. Parallel Dimension
h. Dimensioning in sequence
i. Particular conventions of dimensioning
6. Special conventions
7. Metallic materials
a. Introduction
b. Description conventional
8. Introduction to machining
9. Dimensional tolerances
a. Introduction
b. ISO system
c. Couplings
d. System shaft base and hole base
e. Indication of tolerances in drawings
f. Dimensional control
g. Chains and series of shares tolerated
10. Geometric tolerances
a. Introduction
b. Indication of the geometric tolerances in drawings
c. Principle of maximum material
11. Roughness
a. Introduction
b. Indication of roughness in the drawings
12. Functional Dimension
13. Linkages removed
a. Connections
b. Shaft-hub connections
i. Tabs
ii. Sticks
iii. Spline
14. Linkages
a. Nailing
b. Welding
15. Bearings
a. Sliding Bearings
b. Rolling bearings
c. Mounting bearings
d. Seals and gaskets
16. Bodies for the transmission of motion
a. Sprockets and gears
b. Belts
c. Chains
17. Springs
18. Assembly
19. Isometric projections
20. Computer Aided Design
Course program - Last names O-Z
1. Technical Standards
2. Representation techniques
3. Orthogonal Projections
a. Method of Prime Dihedral
b. Method of Second Dihedral
c. Choice of views
4. Sections
a. Sections with a single plane
b. Sections with parallel planes
c. Sections with competing plans
d. Sections with surfaces of any shape
e. Semi sections
f. Partial sections
g. Sections overturned in place
h. Subsequent sections
i. Hatch
m. Special characteristics of representing sections
5. Dimensioning
a. General principles
b. Measuring lines
c. Reference lines
d. Arrow Terminals
e. Quote
f. Dimension series
g. Parallel Dimension
h. Dimensioning in sequence
i. Particular conventions of dimensioning
6. Special conventions
7. Metallic materials
a. Introduction
b. Description conventional
8. Introduction to machining
9. Dimensional tolerances
a. Introduction
b. ISO system
c. Couplings
d. System shaft base and hole base
e. Indication of tolerances in drawings
f. Dimensional control
g. Chains and series of shares tolerated
10. Geometric tolerances
a. Introduction
b. Indication of the geometric tolerances in drawings
c. Principle of maximum material
11. Roughness
a. Introduction
b. Indication of roughness in the drawings
12. Functional Dimension
13. Linkages removed
a. Connections
b. Shaft-hub connections
i. Tabs
ii. Sticks
iii. Spline
14. Linkages
a. Nailing
b. Welding
15. Bearings
a. Sliding Bearings
b. Rolling bearings
c. Mounting bearings
d. Seals and gaskets
16. Bodies for the transmission of motion
a. Sprockets and gears
b. Belts
c. Chains
17. Springs
18. Assembly
19. Isometric projections
20. Computer Aided Design