Academic Year/course:
2023/24
436 - Bachelor's Degree in Industrial Engineering Technology
30003 - Graphic expression and computer-assisted design
Syllabus Information
Academic year:
2023/24
Subject:
30003 - Graphic expression and computer-assisted design
Faculty / School:
110 - Escuela de Ingeniería y Arquitectura
Degree:
436 - Bachelor's Degree in Industrial Engineering Technology
ECTS:
6.0
Year:
1
Semester:
436-First semester o Second semester
107-Second semester
Subject type:
Basic Education
Module:
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1. General information
Objectives:
Basic knowledge of the profession.
Ability to learn.
Ability to analyse and synthesise.
Ability to generate new ideas .
Ability to solve problems.
Ability to apply knowledge to practice.
Ability to communicate orally and in writing.
Responsibility at work.
Motivation for the work.
Ability to work independently .
Interpersonal skills.
Concern for quality and improvement.
With respect to the Sustainable Development Goals (SDGs) of the United Nations 2030 Agenda ( https://www.un.org/sustainabledevelopment/es/), the evaluable contents of this subject do not contribute in a direct way to their achievement. However, they are essential to inform the subsequent knowledge of the rest of the degree that does relate more directly to the SDGs and the 2030 Agenda.
Context: the subject aims to train students for the design and graphic representation of geometric figures, industrial parts and various objects, through a universal language that allows its understanding by third parties and its subsequent manufacturing process . The rest of the design subjects, technical office and projects of the degree are based on this subject.
2. Learning results
The student, in order to pass this subject, must demonstrate the following results...
Master the resolution of graphical problems that may arise in Engineering.
Develop skills and abilities that allow expressing with precision, clarity and objectivity graphic solutions.
Acquire abstraction capacity to be able to view an object from different positions in space.
Importance of learning results
Empower the usefulness of technical drawing as an engineering language and research tool.
3. Syllabus
SUBJECT 1.- INTRODUCTION TO GRAPHIC EXPRESSION
SUBJECT 2.- STANDARDIZATION IN TECHNICAL DRAWING.
- Tools and equipment.
- Formats, scales, lines and writing.
- Dihedral views. Threads and gears.
- Cuts and sections.
- Annotation.
TOPIC 3.- SYSTEM OF DIMENSIONED DRAWINGS.
- Point, Line and Plane.
- Straight line in a plane.
- Plane through straight line.
- Intersection of lines and planes.
- Resolution of covers.
- Land representation.
SUBJECT 4.- DIHEDRAL SYSTEM.
- Point, Line and Plane.
- Intersection.
- Parallelism.
- Perpendicularity.
- Change of Plan.
- Partial Views.
- Turn
- Downsizing.
- Distance.
- Angle.
SUBJECT 5.- SURFACES.
-Apparent contour.
-Flat section.
-Intersection.
-Development
-Kink Adapters.
SUBJECT 6.- COMPUTER AIDED DESIGN.
4. Academic activities
- Master classes (28 h).
Theoretical and practical explanations on the program of the subject.
- Problem classes (14 h).
Resolution of problem cases with the teacher.
- Laboratory practices (18 h).
Use of CAD software and elaboration of industrial drawing plans.
- Exams, evaluation of tutored work and personal study (90 h).
The detailed calendar of the various activities to be carried out will be established by the teacher once the University and the Centre have approved the academic calendar, which will be available on the Centre’s web page and on the bulletin boards.
5. Assessment system
The student must demonstrate that they have achieved the expected learning results by means of the following assessment activities. There will be two calls on the dates scheduled by the centre to take the Evaluation Tests. These tests will consist of:
-Final Evaluation
a) A global exam, with a value of 80% of the total of the subject.
It will be graded from 0 to 10, and the student must obtain a minimum grade of 2.0 out of 10 in each of its parts or exercises. Failure to achieve this minimum grade in any of the parts of the global exam will result in the failure of this test , being the maximum numerical grade obtainable equal to 2.0. In the global exam, results 1, 2 and 3 will be evaluated with a weight of 80%. Students who obtain the minimum grade of 4.0 in the Continuous Assessment may reduce the weight of the global exam to 60%.
b) A Computer Aided Design (CAD) exercise, with a value of 20% of the total amount of the subject
Students who obtain a minimum grade of 4.0 out of 10 in the laboratory practices may reduce the weight of this test to 0% and are not required to take it.
The minimum grade in each of the two blocks of the final evaluation must be 4.0 out of 10; otherwise, the grade of the subject will be (fail), with a maximum numerical evaluation equal to 2.5.
Continuous Assessment Activities
1. Supervised practices
The knowledge and handling of Industrial Standardization and Representation Systems in technical applications will be evaluated. In the case of obtaining in the average of the activities a minimum of 4.0 out of 10, these practices will have a weight of 20% in the grade of the subject.
The evaluation will be based on the tutored work and/or the tests taken during the term, which will be carried out on the date and time indicated.
Each test and/or tutored work will be graded from 0 to 10.
In the Tutored Practices, results 1, 2 and 3 will be evaluated with a weight of 20%.
2. Laboratory practices. The Computer Aided Design (CAD) part will be evaluated. They will be graded from 0 to 10. The grade will be awarded based on the exercises performed during the attendance to the practices.
In the case of obtaining in the average of the activities a minimum of 4.0 out of 10, these practices will have a weight of 20% in the grade of the subject.
In the laboratory practices, results 2 and 3 will be evaluated with a weight of 20%.