Numerical Modeling and Rapid Prototyping (FSI-HRA)

Academic year 2021/2022
Supervisor: doc. Ing. Jan Zouhar, Ph.D.  
Supervising institute: ÚST all courses guaranted by this institute
Teaching language: Czech
Aims of the course unit:
The course explains the principles of Computer Aided Design systems and methods of prototype manufacture especially of rapid prototyping and reverse engineering - 3D scanning
Learning outcomes and competences:
Students will have an overview of CAD system and Rapid Prototyping technology properties used in the design and construction processes and in prototype manufacturing and 3D scanning techniques.
Prerequisites:
Basic knowledges about design of machine parts and machine nodes.
Knowledge of computer control., CAD basics.
Course contents:
The course is focused on modern technology and modern methods used in the development, design and manufacturing of a prototype. At the beginning the term “Computer Aided Design” is defined along with its integration into the production process. Next, CAD systems are dealt with in more detail, systems separated into categories and the use of each category is explained with a view to working methods and available tools. Part of this subject is concerned with collaborative design between computerized workstations over a network (LAN). The final part concerns prototype product description various methods of rapid prototyping and efficiency reverse engineering methods.
Teaching methods and criteria:
The course is taught through lectures explaining the basic principles and theory of the discipline. Exercises are focused on practical topics presented in lectures.
Assesment methods and criteria linked to learning outcomes:
Course-unit credit requirements: The student has to be able to explain the suitability of selected solution and applied procedure, objective accuracy of computational and documentation part of the report. The mark reflects also the graphic and formal sides of the report.
Controlled participation in lessons:
Participation in the exercises is obligatory and is controlled by the teacher. Absences can be compensated in exceptional and well-founded cases – to be determined by the course supervisor.
Type of course unit:
    Lecture  13 × 2 hrs. optionally                  
    Computer-assisted exercise  13 × 2 hrs. compulsory                  
Course curriculum:
    Lecture Computer Aided Design – allocation on manufacturing process
CAD system configurations
CAD system categories
Modelling systems
Visualisation in CAD systems
Wireframe and Solid modeler
Surface creation
Drawing in CAD systems
Reverse engineering
Rapid prototyping (RPT)
Collaborative design between computerized workstations over a network
Internet and CAD systems
Calculation modules in CAD systems
    Computer-assisted exercise 3D scanning - digitizers
3D scanning of small objects
3D scanning of large objects
Editing and repair of scanned data
Basic evaluation of dimension and parameters of scanned data
Rapid Inspection - geometriacal and automation evaluation
Advanced surface modelling
Reverse engineering - basics
Reverse engineering - freeform surfaces, advanced strategies
Rapid prototyping - sw, data preparation
Rapid prototyping - practical presentation of machines
Soft tooling method
Topological optimization, internal structures used for rapid prototyping parts.
Literature - fundamental:
1. SALOMON, D. Computer Graphics and Geometric Modeling. Springer, 1999. 833 s. ISBN 0-387-98682-0
2. ŽÁRA, J.; BENEŠ; B.; FELKEL, P. Moderní počítačová grafika. Brno: Computer Press, 1998. 433 s. ISBN 80-7226-049-9
3. MURRAY, J.D; VANRYPER W. Ecyklopedie grafických formátů – druhé vydání. 2. vyd. Brno: Computer Press, 1997. 917 s. ISBN 80-7226-033-2
4. MCMAHON, CH., BROWNE, J. CAD/CAM – principles, practice and manufacturing management. 2.vyd. Harlow: Pearson Edication Limited. 1998. 643s. ISBN 0-2001-17819-2
Literature - recommended:
1. TICKOO, Sham. CATIA: kompletní průvodce. Brno: Computer Press, 2012, 696 s. : il. ISBN 978-80-251-3527-3.
2. Pro/Engineer. Základy systému. Přerov: Rand Technologies, 1999
3. SolidWorks. TeacherGuite. Concord: Solid Works Corporation, 2001
4. TurboCAD Verze 8 – Kompletní uživatelský manuál. IMSI, 2001
5. MCNEEL, R. Rhinoceros – NURBS Modeling for Windows. Robert McNeel&Associates, 1999
The study programmes with the given course:
Programme Study form Branch Spec. Final classification   Course-unit credits     Obligation     Level     Year     Semester  
N-STG-P full-time study MTS Modern Technologies of Lighting Systems -- GCr 4 Compulsory 2 2 S
N-STG-P full-time study STG Manufacturing Technology -- GCr 4 Compulsory 2 2 S
N-STG-P full-time study STM Manufacturing Technology and Management in Industry -- GCr 4 Compulsory 2 2 S