Subjects of the Degree in Industrial Design Engineering
In this post we tell you what the main subjects of Industrial Design Engineering are so that you know better what skills you will acquire by studying this degree.
It is always interesting and advisable to know in advance the syllabus of a degree and its subjects, whether they are core, optional or compulsory, the credits associated with each of them and in which year or semester they are offered.
Subjects of Industrial Design
The objective of the Degree in Industrial Design Engineering is for students to acquire the necessary skills to be able to develop projects based on scientific criteria with the aim of innovating and renewing the reality in which we live, in addition to helping them interpret the different contexts involved. in the evolution of human society.
Engineering is a technical and creative discipline that trains future engineers to be able to define the functional, technological and formal characteristics of a product for its subsequent manufacture. The industrial design subjects aim to provide the knowledge and skills that are necessary to design, develop and manage a product, from its conception to its launch on the market, through a methodology in which all phases of its life cycle are planned.
Some of the subjects included in the syllabus of the Degree in Industrial Design Engineering are:
Design and Materials
In the subjects regarding materials, students learn about the composition and properties of the different materials that are needed to develop engineering projects, such as metals, polymers, composites, ceramics and biological materials. The purpose is to understand their composition and functioning from an optical, thermodynamic and fluid point of view, in order to develop products, always with a sustainable and ecological perspective.
Development and Simulation
In the subjects of development and simulation, students carry out analyses of complex mechanisms and systems involved in the mechanical functioning of a product. They learn the mathematical foundations that apply to engineering, to be able to perform structural calculations, as well as study how structural elements react when subjected to combined forces, analysing mechanical systems and evaluating loads and their performance under stresses.
Students are also introduced to the different industrial manufacturing processes of materials, learning about computer-assisted manufacturing. Industrial technologies and digitalisation systems are studied in-depth, along with the optimisation of the mechanical behaviour of a product through simulation. In this way, it is possible to acquire knowledge of complex mechanisms, analysis of forces, speeds and degrees of freedom of action of a product.
Management and Data
The subjects related to management and data include those concerning the fundamentals of programming applied to industrial engineering, the understanding of electrical and electronic circuits, and the programming of systems and services, as well as the basics of mechatronics and robotics. Students also learn how to manage technological projects in different company models, carrying out market studies and learning how to lead work teams and the different departments that may participate in their development.
In addition, research in the areas of technology and user experience is conducted: usability, functionality, manufacturing, distribution, rejection adapted to different cultural, economic and social realities, gender perspective, etc. Subjects related to statistics are taught, with a view to carrying out descriptive and inferential calculations, which helps formulate hypotheses based on the collected data.
In the field of design projects, students work on graphic expression through outlines, drawings and CAD programmes, to create sketches and manufacturing, tolerance and finishing plans, following regulations and scientific methods. They learn the essentials for developing engineering designs, using experimentation, research and communication, with scientific research as a basis, and placing emphasis on the product’s sustainability and its life cycle. Along with it, an introduction to aesthetics and design is taught, in order to learn the interpretations of an object or its design from a cultural, historical and sociological point of view.
Final degree project
The last subject of Industrial Design Engineering is the final degree project, which students must carry out in collaboration with an institution, company or research centre. They are also expected to propose a project for entrepreneurship.
Students are required to present a project with a theoretical basis, a research methodology, a formal and technical development, an economic viability study and a final oral presentation. They have to choose a topic on which to base their research and pose relevant and innovative questions with the aim of solving them thanks to the knowledge acquired during their years of study.
External internships are a compulsory part of the Degree in Industrial Design Engineering subjects, which can be taken from the 4th year onwards. They consist of applying the student’s knowledge and skills learned during the degree in a work and professional environment, which may be companies, research centres or public or private institutions.
Where to study industrial design engineering?
Elisava’s Degree in Industrial Design Engineering is an excellent option for young students with a strong curiosity, combined with good scientific and mathematical agility. The Degree in Industrial Design Engineering is divided into 4 years, during which students acquire the necessary skills to carry out engineering projects that provide innovative solutions and seek to develop new and competitive products on the market. The aim is to contribute to the technological progress of society.
If you want to know more about our Degree in Industrial Design Engineering and its subjects, do not hesitate to consult our website or request a personal interview.