The ICTQual AB Level 5 Diploma in Quality Control – Mechanical is an advanced qualification designed for professionals aiming to master quality assurance and control practices within the mechanical engineering and manufacturing industries. As global industries demand stricter compliance with quality standards, this diploma equips learners with the technical, managerial, and analytical skills necessary to uphold quality across complex mechanical systems and production processes.
This comprehensive program covers in-depth modules on quality planning, mechanical inspection techniques, defect analysis, risk assessment, and process optimization. Learners gain a firm understanding of international standards such as ISO 9001, ASME, and API, and how to apply these frameworks effectively in real-world scenarios. The course emphasizes both theoretical knowledge and hands-on application, preparing learners to lead and implement quality assurance systems in mechanical environments.
Ideal for quality control inspectors, production supervisors, mechanical engineers, and aspiring quality managers, this diploma enhances both competency and career prospects. Graduates of this program will be well-equipped to take on mid-to-senior level roles in mechanical quality control, ensuring systems are efficient, safe, and compliant with regulatory and customer expectations.
Inspire College of Technologies UK is Directly Approved Training Centre of ICTQual AB
The ICTQual AB Level 5 Diploma in Quality Control – Mechanical offers a comprehensive and structured curriculum that focuses on the critical principles of quality assurance and control in the mechanical engineering and manufacturing sectors. This program is designed to deepen learners’ understanding of how to manage, evaluate, and enhance quality in industrial processes, components, and mechanical systems to meet international standards and customer expectations.
The course explores advanced topics such as mechanical testing methods, quality auditing, non-destructive testing (NDT), statistical process control (SPC), root cause analysis, and corrective/preventive action planning. It also includes modules on technical documentation, compliance with ISO 9001 and other relevant standards (e.g., ASME, API), and quality leadership practices. Learners are trained to apply these tools and techniques in various real-world situations to improve efficiency, reliability, and compliance within mechanical operations.
By the end of the program, participants will be equipped to lead quality control departments, conduct audits, ensure continuous improvement, and manage quality systems in mechanical industries such as automotive, aerospace, energy, and manufacturing. The diploma supports career progression into supervisory and management roles and prepares learners to implement strategic quality initiatives that align with industry benchmarks and regulatory requirements.
This qualification, the ICTQual AB Level 5 Diploma in Quality Control Mechanical, consists of 10 mandatory units.
Mandatory Units
| Sr# | Unit Title | Level |
|---|---|---|
| 1 | Advanced Mechanical Quality Control Systems and Methodologies | 5 |
| 2 | ISO Standards and International Mechanical Compliance Frameworks | 5 |
| 3 | Precision Measurement Techniques and Calibration Procedures | 5 |
| 4 | Non-Destructive Testing (NDT) Techniques and Applications | 5 |
| 5 | Quality Control in Welding, Fabrication, and Assembly Operations | 5 |
| 6 | Root Cause Analysis and Corrective/Preventive Action Planning (CAPA) | 5 |
| 7 | Statistical Process Control (SPC) and Quality Data Analysis | 5 |
| 8 | Quality Planning and Auditing in Mechanical Engineering Projects | 5 |
| 9 | Integration of Quality Control with Lean Manufacturing and Six Sigma | 5 |
| 10 | Leadership and Supervisory Skills in Mechanical Quality Management | 5 |
The ICTQual AB Level 5 Diploma in Quality Control – Mechanical is designed for individuals aiming to advance their expertise and leadership within the field of mechanical quality assurance. This course is particularly suitable for professionals who are already working in technical or industrial environments and wish to formalize or upgrade their quality control skills.
This course is ideal for:
- Mechanical Engineers and Technicians looking to transition into quality-focused roles or advance into senior QA/QC positions.
- Quality Control Inspectors and Auditors seeking to deepen their knowledge of standards, inspection methods, and reporting systems.
- Production and Manufacturing Supervisors who want to enhance product quality, reduce defects, and ensure process reliability.
- Professionals in automotive, aerospace, HVAC, machinery, or energy sectors where mechanical quality control is a key operational focus.
- Graduates of Level 3 or Level 4 quality or mechanical qualifications who are ready to progress to higher-level competencies.
- Individuals seeking roles in quality assurance leadership, including Quality Managers, Process Improvement Coordinators, or Compliance Officers.
This diploma is well-suited for those committed to ensuring the highest levels of mechanical quality and compliance in industrial and manufacturing environments, offering practical skills and recognized credentials for career growth.
Here are the learning outcomes for each study unit:
Advanced Mechanical Quality Control Systems and Methodologies
- Analyse and apply advanced mechanical quality control systems used in industrial environments
- Evaluate methodologies for improving product quality and reducing variability
- Implement integrated systems to ensure continuous quality improvement
ISO Standards and International Mechanical Compliance Frameworks
- Interpret and apply relevant ISO and international mechanical standards
- Assess mechanical systems for compliance with global regulatory frameworks
- Develop quality control procedures aligned with international benchmarks
Precision Measurement Techniques and Calibration Procedures
- Operate advanced precision measuring instruments for mechanical components
- Execute calibration procedures to ensure measurement accuracy and reliability
- Establish measurement systems analysis (MSA) for mechanical quality processes
Non-Destructive Testing (NDT) Techniques and Applications
- Apply advanced NDT methods such as ultrasonic, radiographic, and magnetic particle testing
- Evaluate component integrity using non-invasive inspection techniques
- Interpret NDT results and integrate findings into quality assessments
Quality Control in Welding, Fabrication, and Assembly Operations
- Inspect and assess quality parameters in welding and fabrication processes
- Monitor assembly operations for compliance with mechanical quality standards
- Identify common defects and ensure process conformance in production
Root Cause Analysis and Corrective/Preventive Action Planning (CAPA)
- Conduct thorough root cause analysis using structured problem-solving tools
- Develop and implement effective CAPA strategies to eliminate recurring issues
- Monitor the impact of corrective actions on mechanical process improvement
Statistical Process Control (SPC) and Quality Data Analysis
- Utilise SPC tools to monitor and control mechanical manufacturing processes
- Analyse quality data to identify trends, process variations, and potential risks
- Create control charts and reports to support data-driven decision-making
Quality Planning and Auditing in Mechanical Engineering Projects
- Design comprehensive quality plans for mechanical engineering operations
- Conduct internal and supplier audits in accordance with quality management systems
- Report findings and recommend improvements for continual process enhancement
Integration of Quality Control with Lean Manufacturing and Six Sigma
- Combine quality control methods with Lean and Six Sigma approaches
- Improve process efficiency while maintaining product integrity and compliance
- Drive performance improvements through structured quality initiatives
Leadership and Supervisory Skills in Mechanical Quality Management
- Apply leadership principles to manage mechanical quality teams effectively
- Oversee inspection and testing operations with professional authority
- Foster a culture of quality through team engagement and clear communication
