B.Voc in DIGITAL MANUFACTURING TECHNOLOGY (DMT)

AICTE Approved

B.Voc in Digital Manufacturing Technology

Introduction About B.Voc in Digital Manufacturing Technology

B.Voc in Digital Manufacturing Technology combines theoretical understanding with practical proficiency in advanced digital manufacturing processes. This interdisciplinary program prepares students for the demands of Industry 4.0 by imparting expertise in areas such as computer-aided design (CAD), computer-aided manufacturing (CAM), additive manufacturing, robotics, and automation. Through a hands-on approach, learners gain insight into optimizing production processes, enhancing product quality, and reducing time-to-market. With a focus on emerging technologies and industry-relevant skills, graduates are equipped to drive innovation and competitiveness in the rapidly evolving digital manufacturing landscape, contributing to the advancement of industries worldwide.

Objectives of B.Voc in Digital Manufacturing Technology

  1. Skill Development: To equip students with practical skills and knowledge in digital manufacturing technologies such as CAD, CAM, additive manufacturing, robotics, and automation.
  2. Industry Alignment: To align the curriculum with the requirements of the industry, ensuring graduates are prepared to meet the demands of the rapidly evolving manufacturing sector, particularly in the context of Industry 4.0.
  3. Hands-on Experience: To provide hands-on experience and practical training to students, enabling them to apply theoretical knowledge to real-world manufacturing scenarios.
  4. Innovation: To foster a culture of innovation among students, encouraging them to explore new technologies and methods to improve manufacturing processes and product quality.
  5. Problem-solving Skills: To develop students’ problem-solving abilities, critical thinking skills, and analytical capabilities, enabling them to identify and address challenges encountered in digital manufacturing environments.
  6. Global Competitiveness: To enhance the global competitiveness of graduates by instilling in them the necessary skills, competencies, and mindset to thrive in the international manufacturing landscape.
  7. Entrepreneurship: To nurture entrepreneurial spirit among students, empowering them to establish their own ventures or contribute to the growth of existing manufacturing enterprises through innovative solutions and practices.
Careers & Employability
  • Manufacturing Engineer: Design, implement, and optimize manufacturing processes using digital technologies to improve efficiency and quality.
  • CAD/CAM Technician: Utilize computer-aided design and manufacturing software to develop and refine product designs and manufacturing processes.
  • Robotics Engineer: Design, program, and maintain robotic systems used in manufacturing operations for tasks such as assembly, welding, and material handling.
  • Automation Specialist: Develop and implement automated systems and processes to streamline production and enhance productivity.
  • Additive Manufacturing Specialist: Use 3D printing and additive manufacturing techniques to prototype, customize, and produce parts and products.
  • Quality Assurance Engineer: Ensure product quality by implementing quality control processes and utilizing digital tools for inspection and testing.
  • Supply Chain Analyst: Optimize supply chain processes and logistics using digital technologies to minimize costs and maximize efficiency.
  • Industrial Designer: Create innovative product designs using digital tools and technologies, considering factors such as aesthetics, functionality, and manufacturability.
  • Technical Sales Engineer: Provide technical expertise and support to customers in industries such as manufacturing equipment and software, assisting with product selection and implementation.

Outcomes of the course

  • Specialized Skills: Graduates acquire specialized skills in digital manufacturing technologies such as CAD/CAM, robotics, automation, and additive manufacturing, making them valuable assets in various industries.
  • Industry Readiness: Students are prepared to enter the workforce with hands-on experience and practical knowledge, ready to tackle challenges in the rapidly evolving field of digital manufacturing.
  • Problem-solving Abilities: Through coursework and projects, students develop strong problem-solving abilities, critical thinking skills, and the capacity to innovate solutions to complex manufacturing problems.
  • Adaptability: With exposure to emerging technologies and industry-relevant practices, graduates demonstrate adaptability to technological advancements and changes in manufacturing processes.
  • Employability: The program equips students with the skills and competencies sought after by employers in industries such as automotive, aerospace, electronics, and consumer goods, enhancing their employability and career prospects.
  • Entrepreneurial Opportunities: Graduates have the option to pursue entrepreneurship, leveraging their expertise in digital manufacturing to start their own ventures or consult for existing businesses.
  • Contributions to Industry Advancement: By applying their knowledge and skills, graduates contribute to the advancement of digital manufacturing technologies, driving innovation and competitiveness in the industry.
  • Global Perspective: Through exposure to international best practices and collaborations, students develop a global perspective on digital manufacturing, enabling them to work effectively in diverse cultural and business environments.
  • Continuous Learning: The program instills a mindset of lifelong learning, empowering graduates to stay updated with the latest advancements in digital manufacturing and pursue further education or professional development opportunities.
Semester
Duration
Credits (Cumulative)
Award
I
6 months
20
II
6 months (1yr)
40
Certificate
III
6 months (1.5yrs)
60
IV
6 months (2yrs)
80
Diploma
V
6 months (2.5yrs)
100
VI
6 months (3yrs)
120
B.Voc Degree

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