This course is affiliated to NCVT, Govt. of India
Duration :?3 years of study and 1 year of Industrial training.
Tool and Die Engineering is a very highly skilled and specialized profession and requires intricate and precise fitment and machining of jobs with exposure to modern techniques. A Tool Engineer should be capable of designing, selecting the correct material and deciding on the manufacturing process of Tools, Dies, Jigs and Fixtures to a high degree of precision.
The students are taught Computer Basics, AutoCAD, Creo, EDM Technology, CAD/CAM Technology, Basic Electronics, Hydraulics and Pneumatics, Quality Control, Manufacturing Technology and Workshop Calculation, Engineering Drawing / Tool Design Drawing, Automation Technology and Management Principles.
They get vast practical exposure in Turning, Milling, Grinding, all types of Bench work, Forging, Welding, Lapping, Scraping, CNC Machining and Manufacturing of Press tools, Plastic Moulds, Die-Casting tools, Jigs and Fixtures.
Our Tool & Die Engineering ?students are privileged to receive the German Diploma, which aids for their employment in European Industries
This course is affiliated to NCVT, Govt. of India
Duration:?2 years of study and 1 year of Industrial training.
Close toleranced parts are necessary for all engineering applications. As such, the requirement calls for skilled machinist with knowledge of modern quality systems and precise manufacturing techniques using highly sophisticated machines and tools. This course is deviced in such a way that each trainee gets ample opportunity to see, learn and practice the trade with relevant theory.
The students are taught Computer Basics, AutoCAD, CAD / CAM Technology (Keller -Germany), EDM Technology, Quality Control, Basic Electronics, Hydraulics & Pneumatics, Manufacturing Process, Workshop Calculation and Engineering Drawing. They get vast practical exposure in Turning, Milling, Grinding, All types of Bench work, Forging, Welding, Lapping, Scraping and CNC programming and machining. They are be capable of programming, machining and manufacturing of components well within the lead time planned. This will be a well disciplined and rigorous training programme.
Duration:?3 years of study and 1 year of Industrial Training
Mechatronics, as a word, represents a combination of “mecha” from Mechanisms and “tronics” from Electronics.
Mechatronics is the synergetic integration of mechanical engineering with electronic and intelligent computer control in the design and manufacturing of industrial products and processes.
Mechatronics students study a range of disciplines. They are well equipped to go into a wide range of?Jobs in electrical, electronics, mechanical or control engineering as well as software development and?Management positions.
The students are taught on different concepts in the following disciplines:
- Mechanical Engineering
- Electrical & Electronics Engineering
- Control Systems Engineering
- Automation Technology
- Computer Engineering
- Training on Festo Modular Production System
Excellent Employment Prospects
- There is lot of scope of Mechatronics Engineering as it incorporates the idea of Electronics &?Mechanical Engineering into one entity.
- Common career paths for our students in various Industries which include :?Machinery, Metallurgy, Electronics, Food, Light, Pulp and Paper, Chemical, Automobile,?Robotics, IT, Automation, Marine, Power Plants, etc
Our Mechatronics ?students are privileged to receive the German Diploma, which aids for their employment in European Industries
Tool design is a specialized phase of tool engineering. A tool design specialist devotes his entire working time to design tools. The basic task of the tool designer is to provide drawing or model of a tool or set of tools to produce the part / assembly. A tool designer must know manufacturing procedures and Standards. The tool designer must understand how tools perform their functions. A mastery of drafting and modeling techniques are essential to a tool designer. 80% of the total training period is provided for practical and the remaining 20% is allotted for theoretical studies.
Duration:?1 year (Advanced Diploma Course)
Mechatronics integrates the classical fields of mechanical engineering, electrical engineering, computer engineering and information technology to establish basic principles for a contemporary Engineering design methodology.
The students are taught on different concepts in the following disciplines
- Modular Production System (MPS) Stations
- Hands on Exposure with Mitsubishi Robot
- Hydraulics and Pneumatics Training
- Training on Power frames and Drive Technology
70% of the total training period is provided for practicals and the remaining 30% is used for theoretical studies. The training centre is well equipped with state-of-the-art machineries, equipment and design software.
Welding is a major process in fabrication and assembly of machineries and equipment. It is adopted in most of the engineering fields, in construction of buildings, bridges, flyovers, Automobiles, airplanes, ships, etc. Skilled welders are required in Project sites of petroleum, power, machineries, consumables and various light and medium engineering industries.
GTTI has started a state-of-the-art welding institute in technical association with Welding Industries Malaysia and various courses are offered to cater for the above mentioned fields. Training is imparted in Arc, MIG, TIG, Spot, Laser and Submerged Welding skills. Students are also exposed to Gas welding, Gas cutting and Plasma cutting techniques.
Courses offered in Welding
Our courses offered in welding are mainly classified into 5 major types with different specialization and duration. Our welding technology curriculum is designed to provide students with the knowledge and skills to become an efficient welder.
Duration (1 Week)
Gas welding, Arc welding, MIG?welding, TIG??welding.
Duration (3 Weeks) approved by IIW ( Indian Institute of ?Wellding ?)
Oxy-acetylene gas welding, Arc welding (MMAW ), MIG?welding (GMAW), TIG?welding (GTAW)
Industry oriented course:
(10 Weeks) approved by IIW, ?MMAW?structural welding, GMAW?structural welding, GMAW??auto sector welding
Boiler & pressure vessel welding (12 Weeks)
(1 Week) approved by?IIW, ?GTAW?on aluminum, GTAW?on stainless steel, GTAW?on copper & its alloys, GMAW?on aluminum
Pipe welding (2 Weeks)
- Certificate course in welding technology (24 Weeks) approved by?IIW
- Diploma in welding technology (48 Weeks) approved by?IIW Familiarization for engineering students (2 Weeks)
Placement assistance is assured for Industry-oriented and Regular courses