SOME TRAINING COURSES DEVELOPED FOR INDUSTRIAL PARTNERS 

1. PROGRAMMING LANGUAGES WITH ENGINEERING APPLICATIONS
Lecturer: Mircea Vantu, lecturer; Mircea Neagoe, Assistant Prof..
Structure: 20C+20L
Destination: Design Engineers
Content: Starting from simple problems and continuing towards a higher degree of difficulty the main aim of this course is to develop, for each engineer, the ability to create Turbo Pascal programs.
Equipment: 6PCs, 486 and Pentium, Turbo Pascal, Turbo C and Turbo Prolog software.

2. INTERACTIVE GRAPHICS AND 3D SOLID MODELLING USING AutoCAD 12
Lecturer: Catalin Alexandru, Assistant Prof.
Structure: 10C+10L
Destination: Design Engineers
Content: Principles of drawing in AutoCAD. Techniques of 3D drawing. 3D drawing views. Modelling in AutoCAD, 3D modelling using AME (Advanced Modelling Extension).
    Solid modelling.
Equipment: 6PCs, 486 and Pentium, AutoCAD 12 - software.

3. COMPUTERISED EDITING OF DOCUMENTS
Lecturer: Mircea Neagoe, Assistant Prof.
Structure: 15C+20L
Destination: For those who require to edit documents involving text, figures, tables and equations.
Content: This course is an introduction into the field of computerized editing and contains the following: editing principles: text formatting; equation editor; tables editor; figure editor; import-export; scanner use.
Equipment: 6PCs, 486 and Pentium, Word, Excel, Word Perfect, Page Maker, Corel Draw - software.

4. FINITE ELEMENT METHODS IN ENGINEERING
Lecturer: Gheorghe Mogan, PhD, Senior Lecturer; Claudiu Pozna, Assistant Prof.
Structure: 10C+20L
Destination: Design Engineers
Content: Problems using FEM, i.e. linear static analysis, buckling analysis, frequency and transient response analysis and static and transient heat transfer analysis.
Equipment: 6PCs, 486 and Pentium, MSC NASTRAN 2.0 for Windows and NISA II - software

5. KINEMATIC AND DYNAMIC ANALYSIS OF MULTIBODY SYSTEMS, AEROSPACE AND MOTOR VEHICLES APPLICATIONS.
Lecturer: Ion Visa, PhD, Professor; Doru Talaba, PhD, Lecturer
Structure: 20C+20L
Destination: Design Engineers
Content: Kinematic and dynamic modelling of multibody systems. Applications in aerospace and motor vehicle systems. DYMES software for the kinematic and dynamic analysis of motor vehicle mechanisms.
Equipment: 6Pcs, 486 and Pentium - software, 5 licenses.

6. KINEMATICS AND DYNAMIC MODELLING OF INDUSTRIAL ROBOTS
Lecturer: Grigore Gogu, PhD, Professor
Structure: 20C+20L
Destination: Specialists in mechanical design.
Content: This course is presents several approaches for the computer aided kinematic and dynamic modelling of industrial robots. Practical applications are given using MAPLE and ACT 4.0 software.
Equipment: 6PCs, 1 Workstation, MAPLE V, ACT 4.0 - software.

7. INTRODUCTION TO CAD/CAM EUCLID
Lecturer: Horia Bradau, Assistant Prof.
Structure: 20C+20L
Destination: Design Engineers working in the field of CAD/CAM.
Content: Basics (2D-3D Drafting, 3D Solid Modelling) and specialized modules for different mechanical engineering fields (Advanced Surfaces, Surfapt 3-5 axes, Mechanisms, Robotics)
Equipment: 2 Silicon Graphics Workstations, EUCLID - software

8. STRUCTURAL AND CONSTRUCTIVE MODELLING OF MECHANISMS USING EUCLID 3  SOFTWARE
Lecturer: Ionel Staretu, PhD, Senior Lecturer
Structure: 12C+12L
Destination: Design Engineers
Content: Solid modelling of mechanisms (CREATE Menu). Animation of mechanisms (Animate Menu). Mechanical systems analysis (Analyze Menu). Complex product modelling applications for mechanical transmissions, mechanical grippers and human prosthesis.
Equipment: 2 Silicon Graphics Workstations, Euclid - software.

9. NUMERICAL AND SYMBOLIC CALCULUS USING MAPLE V PACKAGE
Lecturer: Mircea Vantu, Lecturer
Structure: 10C+20L
Destination: For those needing to experience modern software designed for solving applied engineering problems with numerical and/or symbolical calculus.
Content: The MAPLE Package contains hundred of functions and procedures for calculus as well as a wide range of powerful graphical facilities.
Equipment: 6PCs, 486 and Pentium, MAPLE V software.

10. FUZZY LOGIC AND NEURAL NETWORKS - ROBOTICS APPLICATIONS
Lecturer: Horia Bradau, Assistant Prof.
Structure: 10C+10L
Destination: Design Engineers and researches in the field of robotics, involved in the control and command of robots.
Content: Introduction to the general theory of Fuzzy Logic Control (FLC), FLC applications, brainstorming techniques and applications.
Equipment: 6PCs, 486 and Pentium, MATLAB software

11. THE BASICS OF CREATIVE PRODUCT DESIGN
Lecturer: Ionel Staretu, PhD, Senior Lecturer
Structure: 12C+12L
Destination: Design Engineers
Content: Techniques of creative engineering. Intuitive methods of invention and innovation, improved product design and design for production. Creative product design. Case-study for creative product design.
Equipment: 2 Silicon Graphics Workstations, 6PCs, EUCLID 3 - software.

12. TECHNIQUES OF INVENTION FOR PRACTICAL DEVELOPMENT
Lecturer: Serban Bobancu, PhD, professor
Structure: 12C+12L
Destination: Design Engineers
Content: Psycho-analytical concepts of the mental process of invention. The steps of the creation/invention/innovation process. Outlines of Brainstorming, Philips 66, Delphi and Morphological analysis techniques.  

13. BASICS OF ROBOTICS
Lecturer: Olimpiiu Munteanu, PhD, Senior Lecturer
Structure: 30C+8L
Destination: Engineers wishing to specialize in robotics
Content: Robotics - background, Productivity, concurrent engineering, just-in-time, industrial robots - performance and implementation. Cell and flexible workshop applications. Teleoperation. Mobile Robots. Medical robotics. Microrobotics.
Equipment: Robot and associated software..

14. DESIGN OF INDUSTRIAL ROBOT MECHANICAL SYSTEMS
Lecturer: Olimpiu Munteanu, PhD, Senior Lecturer
Structure: 20C+10L
Destination: Engineers wishing to specialize in robotics
Content: Series robots. Guiding chain. Orienting chain. Guiding chain drive. Orienting chain drive. Parallel robots. ET.
Equipment: Robot and associated software.

15. COMPETITIVE MANAGEMENT
Lecturer: Dan Savescu, PhD,  Senior  Lecturer
Structure: 8C+8L
Destination: Engineering Managers
Content: Management-art or science? Management through objectives. Communication. Staff motivation. Change: the theory of change. Financial management. Quality management.

16. A NEW APPROACH TO MANUFACTURING MANAGEMENT
Lecturer: Elena Eftimie, Assistant Prof.
Structure: 10C
Destination: Design Engineers and Engineering Managers
Content: The increase in living standards leads to an increased requirement for an ON-GOING IMPROVEMENT PROCESS in any organization. This course illustrates how to focus on the process improvements that will have the greatest impact on the organization’s competitive edge.

17. AUTODESK MECHANICAL DESKTOP
Lecturer: Horia Bradau, Assistant Prof.
Structure: 10C+20L
Destination: Design Engineers who use AutoCAD
Content: Learning AutoCAD 13, AutoCAD Designer for 3D parametric design; AutoSurf for surface modelling; Auto Vision for 3D visualization.
Equipment: 6PCs, 486 and Pentium. Mechanical Desktop - software.

18. MODERN CONCEPTS AND METHODS CONCERNING PRODUCT DESIGN
Lecturer: Ion Daj, Lecturer
Structure: 8C
Destination: Design Engineers and Managers
Content: Introduction to design and the creative involvement of the engineer; functionality in engineering; modern analysis methods in the design activity; optimization in design; design for quality.

19. TRENDS IN PRODUCT DEVELOPMENT PRACTICE
Lecturer: Radu Velicu, Assistant Prof.
Structure: 10C+4S
Destination: Design Engineers and Managers
Content: Total design steps, statics. Hardware and software for the design activity. Integrated CAD/CAM: contents and implementation; concurrent engineering: background, infrastructure, implementation and automisation.
Equipment: Videos


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