ICTQual AB Level 6 International Diploma in Industrial & Manufacturing Engineering

ICTQual AB Level 6 International Diploma in Industrial & Manufacturing Engineering

Pursuing a career in industrial and manufacturing engineering offers a pathway to becoming a highly skilled professional in one of the most dynamic and in-demand sectors worldwide. The ICTQual AB Level 6 International Diploma in Industrial & Manufacturing Engineering is a comprehensive three-year, 360-credit programme designed to equip learners with advanced technical knowledge, practical skills, and strategic insights essential for modern industry. It caters to both freshers seeking to enter the field and professionals aiming to accelerate their career growth.

Learners develop expertise across key areas including production systems, quality management, industrial automation, materials science, and sustainable manufacturing practices. The programme emphasises practical application alongside theoretical understanding, enabling learners to manage complex processes, optimise operations, and implement innovative engineering solutions. By completing this diploma, learners gain proficiency in advanced engineering tools, project management techniques, and problem-solving strategies that are highly valued by employers in manufacturing, automotive, aerospace, and energy sectors.

Graduates of this programme enjoy a wide range of career opportunities, from process and production engineering to operations management, industrial consultancy, and research and development roles. In addition to technical skills, learners enhance their leadership, analytical thinking, and decision-making capabilities, preparing them for supervisory and managerial positions within international industrial settings.

The ICTQual AB Level 6 International Diploma in Industrial & Manufacturing Engineering not only ensures mastery of industry-relevant competencies but also empowers learners to contribute effectively to innovation, efficiency, and sustainability in manufacturing processes. By choosing this qualification, learners invest in a globally recognised credential that supports long-term career advancement, professional credibility, and the ability to thrive in a competitive, technology-driven industrial landscape.

Inspire College of Technologies UK is Directly Approved Training Centre of ICTQual AB

The ICTQual AB Level 6 International Diploma in Industrial & Manufacturing Engineering is a comprehensive, three-year, 360-credit programme designed to prepare learners for advanced roles in the global industrial and manufacturing sectors. This qualification equips learners with in-depth knowledge of production systems, industrial processes, automation technologies, materials science, and quality management, ensuring they are ready to meet the evolving demands of modern manufacturing industries.

The programme is structured to provide a progressive learning experience, beginning with foundational concepts in industrial and manufacturing engineering, advancing through intermediate applications, and culminating in advanced topics and practical projects. Learners gain hands-on experience with industry-standard tools, techniques, and methodologies, bridging theoretical knowledge with real-world engineering challenges.

Throughout the diploma, learners develop key professional skills including project management, problem-solving, process optimisation, and operational decision-making. They also explore sustainable manufacturing practices, lean production techniques, and advanced automation technologies, preparing them to contribute effectively to innovative, efficient, and environmentally responsible industrial operations.

Upon completion, graduates are well-positioned for a variety of career opportunities, including production and process engineering, operations management, quality assurance, industrial consultancy, and research and development roles. The programme also supports further professional development, leadership advancement, and specialisation in high-demand industrial sectors.

By enrolling in this diploma, learners gain a globally recognised qualification that combines technical expertise, practical experience, and strategic industry insights. The ICTQual AB Level 6 International Diploma in Industrial & Manufacturing Engineering empowers learners to drive operational excellence, implement innovative solutions, and achieve long-term career growth within the competitive global manufacturing landscape.

This qualification, the ICTQual AB Level 6 International Diploma in Industrial & Manufacturing Engineering, consists of 36 mandatory units.

Year 1 – Foundation in Industrial & Manufacturing Engineering

  1. Principles of Industrial and Manufacturing Engineering
  2. Engineering Mathematics
  3. Fundamentals of Mechanical and Electrical Engineering
  4. Materials Science and Engineering
  5. Engineering Drawing and CAD
  6. Introduction to Manufacturing Processes
  7. Basics of Automation and Control Systems
  8. Production Planning and Operations Management
  9. Quality Fundamentals and Inspection Techniques
  10. Health, Safety, and Environmental Practices in Engineering
  11. Communication and Technical Report Writing
  12. Introduction to Project Management in Engineering

Year 2 – Intermediate Studies in Industrial & Manufacturing Engineering

  1. Manufacturing Systems and Technology
  2. Advanced Production Planning and Scheduling
  3. Lean Manufacturing and Continuous Improvement
  4. Industrial Automation and PLC Programming
  5. Supply Chain and Logistics Management
  6. Mechanical Design and Manufacturing Processes
  7. Industrial Maintenance and Reliability Engineering
  8. Computer-Aided Manufacturing (CAM)
  9. Data Acquisition and Process Monitoring
  10. Sustainable Manufacturing and Green Engineering
  11. Applied Research Methods in Engineering
  12. Human Factors and Ergonomics in Manufacturing

Year 3 – Advanced Studies in Industrial & Manufacturing Engineering

  1. Smart Manufacturing and Industry 4.0
  2. Advanced Manufacturing Technologies (Additive, CNC, etc.)
  3. Robotics and Autonomous Systems in Manufacturing
  4. Advanced Quality Management and Six Sigma
  5. Cyber-Physical Systems and IoT in Manufacturing
  6. Supply Chain Optimisation and Global Operations
  7. Advanced Process Engineering and Simulation
  8. Innovation and Product Development in Engineering
  9. Professional Ethics and Sustainability in Manufacturing
  10. Technology Entrepreneurship and Business Development
  11. Infrastructure and Facility Planning for Manufacturing Systems
  12. Final Year Major Project (Capstone Project)

The ICTQual AB Level 6 International Diploma in Industrial & Manufacturing Engineering is designed for learners who want to build a strong professional foundation and advance their careers in the global industrial and manufacturing sectors. It is ideal for both freshers aspiring to enter the field and experienced professionals seeking to upgrade their skills, broaden their expertise, and move into higher-level roles.

This course is suitable for learners who wish to:

  • Gain in-depth knowledge of industrial systems, manufacturing processes, and automation technologies.
  • Develop practical engineering skills to solve complex production and operational challenges.
  • Pursue careers in production engineering, process optimisation, quality management, or operations leadership.
  • Strengthen their understanding of sustainable manufacturing and Industry 4.0 technologies.
  • Enhance professional credibility and prepare for roles in global industries such as automotive, aerospace, energy, and advanced manufacturing.

The programme also provides an excellent pathway for learners aiming to transition into managerial or consultancy positions, as it combines technical expertise with leadership and decision-making skills. Whether you are starting your journey in industrial and manufacturing engineering or aiming for career progression, this diploma offers the knowledge, tools, and industry-focused competencies to thrive in a competitive, technology-driven environment.

Here are the learning outcomes for each study unit:

Year 1 – Foundation in Industrial & Manufacturing Engineering

1. Principles of Industrial and Manufacturing Engineering

  • Understand the core principles of industrial and manufacturing systems
  • Apply engineering concepts to production and operations environments
  • Analyse the role of industrial engineering in modern industries

2. Engineering Mathematics

  • Apply mathematical methods to solve engineering-related problems
  • Use algebra, calculus, and statistics in engineering applications
  • Develop analytical and problem-solving skills for industrial processes

3. Fundamentals of Mechanical and Electrical Engineering

  • Explain mechanical and electrical principles used in engineering systems
  • Apply basic laws of mechanics, electricity, and thermodynamics
  • Integrate mechanical and electrical knowledge in industrial applications

4. Materials Science and Engineering

  • Identify properties and applications of engineering materials
  • Evaluate material selection for manufacturing processes
  • Analyse the impact of material behaviour on product performance

5. Engineering Drawing and CAD

  • Produce technical drawings using conventional and digital tools
  • Apply CAD software for industrial and product design
  • Interpret engineering drawings for manufacturing purposes

6. Introduction to Manufacturing Processes

  • Explain core manufacturing processes such as casting, machining, and forming
  • Identify the advantages and limitations of different manufacturing techniques
  • Relate processes to product design and cost-effectiveness

7. Basics of Automation and Control Systems

  • Understand the principles of automation and control technologies
  • Apply control system concepts in industrial engineering settings
  • Recognise the role of automation in efficiency and productivity

8. Production Planning and Operations Management

  • Apply planning tools for production scheduling and resource allocation
  • Analyse operations management techniques for process optimisation
  • Evaluate strategies for improving efficiency in industrial operations

9. Quality Fundamentals and Inspection Techniques

  • Understand quality assurance principles in manufacturing
  • Apply inspection methods and measurement tools to assess product quality
  • Develop skills to support compliance with industry standards

10. Health, Safety, and Environmental Practices in Engineering

  • Recognise safety and environmental regulations in engineering operations
  • Apply workplace health and safety practices in industrial settings
  • Evaluate sustainable practices for minimising environmental impact

11. Communication and Technical Report Writing

  • Develop professional technical communication skills
  • Write structured engineering reports and documentation
  • Present technical data effectively to different audiences

12. Introduction to Project Management in Engineering

  • Understand project management principles in engineering contexts
  • Apply tools such as Gantt charts and project scheduling software
  • Analyse project risks, budgets, and performance measures

Year 2 – Intermediate Studies in Industrial & Manufacturing Engineering

13. Manufacturing Systems and Technology

  • Explain the structure and function of modern manufacturing systems
  • Assess the impact of technology integration in industrial production
  • Apply system-based approaches to solve manufacturing challenges

14. Advanced Production Planning and Scheduling

  • Apply advanced planning methods for efficient operations
  • Use scheduling techniques to balance demand and production capacity
  • Optimise workflows in manufacturing environments

15. Lean Manufacturing and Continuous Improvement

  • Apply lean principles to reduce waste and enhance efficiency
  • Understand continuous improvement techniques such as Kaizen
  • Implement lean tools to support operational excellence

16. Industrial Automation and PLC Programming

  • Understand PLC architecture and applications in automation
  • Develop basic PLC programmes for industrial control systems
  • Apply automation technologies to improve productivity

17. Supply Chain and Logistics Management

  • Analyse supply chain structures and their role in manufacturing success
  • Apply logistics management principles to optimise material flow
  • Evaluate strategies for global supply chain efficiency

18. Mechanical Design and Manufacturing Processes

  • Apply design principles to develop manufacturing-ready products
  • Integrate design with process selection for cost-effective production
  • Assess the impact of design on product performance and quality

19. Industrial Maintenance and Reliability Engineering

  • Understand maintenance strategies for industrial equipment
  • Apply reliability engineering principles to extend asset life
  • Evaluate preventive and predictive maintenance practices

20. Computer-Aided Manufacturing (CAM)

  • Use CAM software to support manufacturing processes
  • Apply digital techniques for toolpath design and machining operations
  • Integrate CAD and CAM for product development

21. Data Acquisition and Process Monitoring

  • Understand data collection methods in industrial systems
  • Apply process monitoring tools to improve efficiency
  • Evaluate the role of data in predictive maintenance and quality assurance

22. Sustainable Manufacturing and Green Engineering

  • Recognise sustainability principles in industrial production
  • Apply eco-friendly practices to reduce waste and emissions
  • Analyse green technologies for energy-efficient manufacturing

23. Applied Research Methods in Engineering

  • Understand research methodologies in industrial engineering
  • Apply data collection, analysis, and interpretation techniques
  • Develop skills to conduct independent engineering research

24. Human Factors and Ergonomics in Manufacturing

  • Evaluate the role of ergonomics in workplace design
  • Apply human factors principles to enhance safety and efficiency
  • Assess the impact of ergonomics on productivity and wellbeing

Year 3 – Advanced Studies in Industrial & Manufacturing Engineering

25. Smart Manufacturing and Industry 4.0

  • Understand Industry 4.0 principles and smart manufacturing technologies
  • Apply digital tools for automation, AI, and data integration
  • Analyse the impact of smart factories on global industries

26. Advanced Manufacturing Technologies (Additive, CNC, etc.)

  • Explore advanced processes such as additive manufacturing and CNC machining
  • Evaluate the role of emerging technologies in product innovation
  • Apply advanced techniques to improve product design and efficiency

27. Robotics and Autonomous Systems in Manufacturing

  • Understand robotics applications in industrial environments
  • Apply automation and robotic systems to enhance production
  • Evaluate the integration of autonomous systems in manufacturing

28. Advanced Quality Management and Six Sigma

  • Apply Six Sigma tools for process improvement and defect reduction
  • Analyse advanced quality management strategies for industrial operations
  • Implement statistical methods to support continuous improvement

29. Cyber-Physical Systems and IoT in Manufacturing

  • Understand the integration of IoT in industrial environments
  • Apply cyber-physical systems for monitoring and control
  • Analyse the role of digital connectivity in smart manufacturing

30. Supply Chain Optimisation and Global Operations

  • Apply advanced optimisation techniques for supply chain performance
  • Analyse strategies for managing global operations
  • Evaluate supply chain resilience and risk management practices

31. Advanced Process Engineering and Simulation

  • Apply simulation tools to model and optimise industrial processes
  • Analyse process performance using engineering software
  • Use simulation for decision-making in manufacturing

32. Innovation and Product Development in Engineering

  • Understand the stages of product innovation and design
  • Apply engineering principles to develop new products
  • Evaluate strategies for competitive product development

33. Professional Ethics and Sustainability in Manufacturing

  • Recognise ethical challenges in industrial engineering
  • Apply sustainability principles to decision-making in manufacturing
  • Evaluate the impact of ethics on professional practice

34. Technology Entrepreneurship and Business Development

  • Understand entrepreneurship in the context of engineering industries
  • Apply business development strategies to industrial projects
  • Evaluate opportunities for innovation-driven ventures

35. Infrastructure and Facility Planning for Manufacturing Systems

  • Understand facility layout and infrastructure design principles
  • Apply planning tools for efficient use of manufacturing space
  • Analyse the impact of facility design on productivity and cost

36. Final Year Major Project (Capstone Project)

  • Conduct an independent project applying advanced engineering knowledge
  • Demonstrate problem-solving, research, and project management skills
  • Present innovative solutions to real-world industrial and manufacturing challenges

Learners enrolled in the ICTQual AB Level 6 International Diploma in Industrial & Manufacturing Engineering follow a structured academic and professional development pathway that ensures both theoretical knowledge and practical skills are achieved to international standards.

This qualification is designed as a three-year programme with 36 mandatory units, carrying a total of 360 credits. Each year progressively builds advanced expertise, starting with foundational engineering knowledge in Year 1, moving into intermediate studies with a focus on manufacturing systems, automation, and supply chain in Year 2, and culminating with advanced industrial applications, Industry 4.0 technologies, and a major capstone project in Year 3.

The certification route ensures that learners:

  • Progress through clearly defined learning milestones aligned with global industrial and manufacturing needs
  • Gain credits for each successfully completed unit across the three years of study
  • Apply knowledge through practical projects, research activities, and problem-solving tasks
  • Complete the programme with a final major project that demonstrates innovation, leadership, and professional capability

Upon successful completion of all units and assessments, learners are awarded the ICTQual AB Level 6 International Diploma in Industrial & Manufacturing Engineering, a qualification that validates their readiness for professional engineering roles, advanced technical positions, and further academic progression.

This structured certification route provides a solid platform for learners to pursue careers in manufacturing, industrial design, production engineering, quality management, operations leadership, and global supply chain management, while also preparing them for postgraduate studies in related fields.

Register Now

Jon
buttler
+44 7441 396751
jonbuttler@gmail.com
+44 7441 396751
16-01-1993
71-75 Shelton Street, Covent Garden
London
E1 7AA
United Kingdom

FAQ’s About ICTQual AB Level 6 International Diploma in Industrial & Manufacturing Engineering

It is a professional qualification designed to provide learners with advanced knowledge and practical skills in industrial systems, manufacturing technologies, automation, quality management, and Industry 4.0 applications.

The diploma is delivered over three years, structured into 36 mandatory units with a total of 360 credits, ensuring comprehensive academic and professional development.

The programme is ideal for freshers looking to build a career in industrial and manufacturing engineering, as well as professionals seeking to enhance their technical expertise, leadership skills, and career progression opportunities.

Learners can pursue roles such as production engineer, process engineer, manufacturing systems specialist, quality manager, operations leader, supply chain professional, or industrial automation specialist in global industries including automotive, aerospace, energy, and advanced manufacturing.

Yes, the course combines theoretical knowledge with applied learning through projects, research activities, process simulations, and a final-year capstone project to prepare learners for real-world industrial challenges.

Yes, the diploma is developed to meet international standards, supporting learners in gaining professional recognition and employability in global industrial and manufacturing sectors.

Similar Posts