Post-Diploma Certificate in International Business Management
The Southern Alberta Institute of Technology (SAIT), located in Calgary, Canada, offers...
Diploma in Machining Technology
Calgary
INTAKE: September
Program Overview
The Diploma in Machining Technology at the Southern Alberta Institute of Technology (SAIT) is a comprehensive program designed to prepare students for careers in the manufacturing and machining industry. This program provides students with hands-on training and theoretical knowledge in precision machining, computer numerical control (CNC) machining, tool and die making, and manufacturing processes. Students learn from experienced instructors and gain practical experience in SAIT's state-of-the-art machining labs, equipping them with the skills and expertise needed to excel in the field of machining technology.
Curriculum: The curriculum of the Diploma in Machining Technology covers a wide range of topics essential for aspiring machinists and manufacturing professionals. Courses include blueprint reading, precision measurement, machine tool operation, CNC programming, metallurgy, machining processes, and quality control. Students also learn about computer-aided design (CAD) and computer-aided manufacturing (CAM) software, as well as safety procedures and industry regulations. The program emphasizes hands-on learning through lab exercises, machining projects, and practical applications, allowing students to develop technical skills and problem-solving abilities.
Research Focus: While the primary focus of SAIT's machining technology program is on practical skill development, research initiatives within the field may include investigating advanced machining techniques, exploring new materials and coatings for cutting tools, optimizing machining processes for efficiency and precision, or developing innovative solutions to manufacturing challenges. Research opportunities may arise through collaboration with industry partners, participation in applied research projects, or engagement with academic research in manufacturing and materials science.
Industry Engagement: SAIT maintains strong connections with the manufacturing industry to ensure that its curriculum remains relevant and responsive to industry needs. The institute collaborates with machining companies, manufacturing facilities, industry associations, and government agencies. Through industry partnerships, students gain access to internships, co-op placements, industry certifications, and networking events. Industry professionals provide valuable insights, mentorship, and feedback, helping students stay current with industry trends and best practices in machining technology.
Global Perspective: In today's globalized manufacturing landscape, a global perspective is essential for machinists and manufacturing professionals. While SAIT's program primarily focuses on Canadian machining standards and practices, it may incorporate elements of international manufacturing trends, cross-cultural machining considerations, and global supply chain issues. Students may have opportunities to study global manufacturing processes, explore international machining technologies, or participate in international machining competitions to gain a broader understanding of global machining practices and perspectives.
Location
Calgary
Score
IELTS 6
Tuition Fee
CAD 19950
Application Fees: CAD $ 150
Academic Requirements: The university generally requires a minimum average grade of 60% or higher in the final year of high school or the overall average for all completed high school years. However, specific program requirements may vary, and some programs may have higher admission standards.
English Language Proficiency:
- IELTS: An overall band score of 6.0, with no individual band score less than 6.
- TOEFL: A minimum score of 80 on the internet-based test (iBT).
- PTE: A minimum score of 53 on the Pearson Test of English.
- DET: A minimum score of 115 on the Duolingo English Test.
At the Southern Alberta Institute of Technology (SAIT) in Canada, international students pursuing undergraduate diplomas have access to various scholarship opportunities to support their educational journey.
Entrance Scholarships: SAIT offers entrance scholarships to outstanding international students based on academic merit, leadership qualities, extracurricular activities, and community involvement. These scholarships are awarded to students entering their first year of studies and can cover a portion of tuition fees.
Continuing Scholarships: Continuing scholarships are available to international students who have demonstrated exceptional academic performance during their studies at SAIT. These scholarships reward students for their continued dedication and excellence in their chosen field of study, providing financial assistance for subsequent years of education.
Program-Specific Scholarships: Some scholarships at SAIT are specific to certain diploma programs. International students enrolled in particular programs may be eligible for scholarships tailored to their field of study. These scholarships recognize academic achievement, passion, and potential within a specific discipline.
Diversity Scholarships: SAIT values diversity and inclusivity in its student body. As such, the institute offers diversity scholarships to international students from underrepresented backgrounds or minority groups. These scholarships aim to foster a diverse and inclusive learning environment by providing financial support to deserving students.
Need-Based Scholarships: In addition to merit-based scholarships, SAIT also provides need-based scholarships to international students who demonstrate financial need. These scholarships assist students who may face financial barriers in pursuing their education, ensuring that talented individuals have access to educational opportunities regardless of their financial circumstances.
Graduates of the Diploma in Machining Technology program at the Southern Alberta Institute of Technology (SAIT) are equipped with the skills and knowledge necessary to pursue rewarding careers in the manufacturing and machining industry.
Machinist: Graduates may work as machinists, operating machine tools such as lathes, milling machines, and grinders to produce precision metal parts for various industries. They interpret engineering drawings, set up machines, select cutting tools, and monitor machining processes to ensure accuracy and quality of finished components.
CNC Operator: With expertise in computer numerical control (CNC) machining, graduates can pursue careers as CNC operators, programming and operating CNC machines to manufacture complex parts with high precision and efficiency. They interpret CAD/CAM drawings, input machining parameters, and monitor machine performance to produce parts according to specifications.
Tool and Die Maker: Graduates may specialize as tool and die makers, designing, fabricating, and repairing specialized tools, dies, and molds used in manufacturing processes. They use precision measuring instruments, machining equipment, and CAD/CAM software to create tooling solutions that meet the needs of production processes.
Manufacturing Technician: Graduates can work as manufacturing technicians, supporting production processes in manufacturing facilities. They assist machinists and engineers in setting up machines, troubleshooting equipment issues, performing quality inspections, and implementing process improvements to optimize production efficiency.
Production Supervisor: With experience and leadership skills, graduates may advance into roles as production supervisors, overseeing manufacturing operations and personnel in machining workshops or production plants. They manage production schedules, allocate resources, ensure compliance with safety regulations, and lead teams to achieve production targets and quality standards.
Quality Control Inspector: Graduates may work as quality control inspectors, responsible for inspecting machined parts and components to ensure they meet specified tolerances and quality requirements. They use precision measurement tools, perform visual inspections, and document inspection results to maintain product quality and integrity.
CNC Programmer: With advanced knowledge of CNC machining and programming, graduates can pursue careers as CNC programmers, developing machining programs and toolpaths for CNC machines. They optimize machining processes, troubleshoot programming errors, and collaborate with engineers and machinists to implement efficient machining solutions.
Manufacturing Engineer: Graduates with a strong technical background may work as manufacturing engineers, designing and improving manufacturing processes, equipment, and systems. They analyze production workflows, recommend process enhancements, and implement technological innovations to increase productivity, reduce costs, and enhance product quality.
Metal Fabricator: Graduates may work as metal fabricators, specializing in the fabrication and assembly of metal components and structures for industrial applications. They use welding, cutting, and forming techniques to create custom metal parts, assemblies, and prototypes according to engineering specifications.
Research and Development Technician: Graduates may work as research and development technicians, supporting R&D initiatives in manufacturing companies or research institutions. They assist engineers and scientists in conducting experiments, testing new materials, and evaluating prototype designs to advance technological innovations in machining and manufacturing.
