Type of studies | Title |
---|---|
Master Academic Studies | Graphic Engineering and Design (Year: 1, Semester: Winter) |
Category | Scientific-professional |
Scientific or art field |
|
ECTS | 5 |
Acquiring knowledge, competencies and academic skills in the field of modern graphic materials. Development of creative abilities and mastering specific practical skills in the domain of modern graphic materials. The intention of the teacher is, through this course, to teach students: basic concepts and definitions from the field of modern graphic materials, to understand the use of these concepts in the context of learning, to set up and solve problems, to develop the ability to recognize problems in the domain of modern graphic materials in terms of identification, formulation and possible resolution as well as to familiarize with the basic principles of engineering judgment and decision making.
Ability to solve specific problems from the domain of modern graphic materials. Mastering the methods, procedures and processes of obtaining modern graphic materials and examining their properties and quality with the application of scientific methods. Ability to create critical and self-critical thinking and approach in the field of modern graphic materials. After this course, the student is able to: connect acquired knowledge with the subjects that follow and apply it in engineering disciplines that include modern graphic materials, communicate with other engineers and work in the team, creatively think, demonstrate understanding and skills, use acquired knowledge to design new solutions of engineering problems, but also to independently continue learning about modern graphic materials if needed.
Materials in active and intelligent packaging. Material design. Models of capture / reduction of oxygen concentration. Methods for controlling the concentration of carbon (IV) -oxide, ethylene and moisture content. Methods for removing odors and removing or inhibiting the growth of microorganisms. Active multilayer polymeric materials. External and internal sensors in intelligent packaging. Application of nanomaterials in the graphic industry. Polymer nanocomposites. Biopolymers. Biopolymer decomposition mechanisms. Functionality of biopolymer. Overview of the application of biodegradable packaging. Edible films and wrappers. Characteristics of edible films and wrappers. Edible films based on polysaccharides, lipids and proteins. Mechanism of formation of protein-based biofilm structure. Changes in biofilm properties during storage. Materials in 3D printing. Material properties in 3D printing. Application of polymeric materials, metals and ceramics in 3D printing. Alternative graphic dyes. Features of alternative graphic dyes. Dyes based on vegetable oils. Dyes based on water. Dyes for digital printing. Dyes for printing electrical circuits. Functional coatings. Microcapsules. Types, structures and properties of microcapsules. The process and methods of microencapsulation. Application of microcapsules in the graphics industry. Examples of the substitution of dangerous materials in different printing techniques.
Teaching is performed with modern didactic means and methods, interactively in the form of lectures and laboratory classes. The lectures present the theoretical part of the material accompanied by characteristic examples for easier understanding of the subject matter. Terms and methods that can be applied to solve a large number of tasks are selected. It is recommended that students actively participate so that each lesson is mastered already in time. In the lectures, one part of the case is done, the rest are done in both classes and at home through homework. In addition to lectures and classes, consultations are regularly held as well as additional pre-exam consultations. In laboratory classes acquired knowledge is applied in practise on the available laboratory equipment.
Authors | Title | Year | Publisher | Language |
---|---|---|---|---|
2006 | English | |||
2005 | English |
Course activity | Pre-examination | Obligations | Number of points |
---|---|---|---|
Laboratory exercise attendance | Yes | Yes | 5.00 |
Written part of the exam - tasks and theory | No | Yes | 40.00 |
Laboratory exercise defence | Yes | Yes | 20.00 |
Oral part of the exam | No | Yes | 30.00 |
Lecture attendance | Yes | Yes | 5.00 |
Full Professor
Associate Professor
Assistant with PhD
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© 2024. Faculty of Technical Sciences.