Production Systems in Biomedical Engineering
Data is displayed for academic year: 2024./2025.
Course Description
In this course, students acquire knowledge that will enable them to identify the basic modules of machine tools, compare possible performances and technical and technological capabilities of machine tools and systems, master the basic characteristics of machine tools for the purpose of preparation for the development, design, management and automation of production processes on single machine tool or production system. With the acquired knowledge, they will be able to identify and correctly select the appropriate numerically controlled machine tool and system.
Study Programmes
University graduate
[FER3-HR] Biomedical Engineering - study
Elective Courses
(1. semester)
Learning Outcomes
- Recognize and explain the differences and areas of application of different production technologies in biomedical engineering
- Connect technological, medical and construction knowledge in the construction of a specific product (orthoses / prostheses) for part of the locomotor system
- Analyze the influential quantities in the bone drilling process and choose the tool and cutting parameters depending on measurable bone parameters
- Compare the force and temperature signal responses in bone drilling with different tools and machining parameters and determine the processing parameters to prevent too high drilling temperature
- Lead the team in the design and implementation of a specific product for biomedical engineering
Forms of Teaching
Lectures
Exercises
Laboratory
Exercises
Laboratory
Week by Week Schedule
- Lectures: Introduction, significance and classification of machine tools and systems., Laboratory: Machine tool modules-main spindle-motor spindle., Seminar: Introduction, significance and classification of machine tools and systems.
- Lectures: Machine tool main and feed drive systems., Laboratory: Machine tool modules-ball screw spindle-linear motor., Seminar: Machine tool main and feed drive systems.
- Lectures: Assemblies (modules) of machine tools (stands and guides)., Laboratory: The purpose of installation and foundation of machine tools, characteristics and their difference., Seminar: Assemblies (modules) of machine tools (stands and guides).
- Lectures: Performances and technical-technological possibilities of machine tools. Turning machining centers., Laboratory: Raw material preparation and demonstration of work on saws., Seminar: Performances and technical-technological possibilities of machine tools. Turning and milling machining centers.
- Lectures: Milling machining centers., Laboratory: Demonstration of operation on a universal and numerically controlled lathe., Seminar: Automation of machine tools and systems (tool presetting, automatic tool changers)
- Lectures: Automation of machine tools and systems (tool presetting, automatic tool changers)., Laboratory: Demonstration of operation on a universal and numerically controlled milling machine., Seminar: Flexible manufacturing cells and systems for automatic change of workpieces.
- Lectures: Flexible manufacturing cells and systems for automatic change of workpieces. Preliminary exam 1., Laboratory: Bore processing machine tools and demonstration of work on drilling machines.
- Lectures: Basic of programming of CNC machine tools. CAD-CAM Systems., Laboratory: The most commonly used standard devices for clamping and supporting workpieces in production systems.
- Lectures: Robot applications in machining processes., Laboratory: Standardized tool holders for CNC milling machines and automatic tool change.
- Lectures: Machines and systems for additive manufacturing. , Laboratory: Program entry, tool presetting, coordinate system and zero point selection on CNC lathe and milling machine.
- Lectures: Measurement systems in CNC machine tools., Laboratory: Process planning for turning and milling operation.
- Lectures: Non-conventional machine tools., Laboratory: Robots application in machining processes - example.
- Lectures: Multitasking machine tools., Laboratory: Applying machining system in medical engineering.
- Lectures: Hybrid machine tools., Laboratory: Example of digitization of complex geometric shapes.
- Lectures: Digitization of manufacturing systems., Laboratory: Example of making parts with additive technologies.
Literature
(.), Cebalo, R., Ciglar, D. & Stoić, A., “Obradni sustavi - fleksibilni obradni sustavi”, (drugo izmijenjeno vlastito izdanje), Zagreb, 2005, ISBN 953-96501-6-X,
(.), S. Kalpakjian & S.R. Schmid: Manufacturing engineering and technology, sixth edition, Part IV: Machining Processes and Machine Tools, 2009. ,
(.), D.Ciglar: Materijali s predavanjaT.Staroveški: Materijali s predavanja,
For students
General
ID 261428
Winter semester
5 ECTS
L3 English Level
L1 e-Learning
30 Lectures
0 Seminar
0 Exercises
15 Laboratory exercises
0 Project laboratory
0 Physical education excercises