LICQual Level 3 Certificate in Quality Control and Quality Assurance (QA/QC) in Mechanical

In the fast-evolving world of mechanical engineering, maintaining consistent quality and ensuring safety compliance is critical to long-term success. Industries such as manufacturing, automotive, aerospace, HVAC, and oil & gas demand professionals who are trained in Quality Control (QC) and Quality Assurance (QA) to uphold high-performance standards in every component and system.

The LICQual Level 3 Certificate in Quality Control and Quality Assurance (QA/QC) in Mechanical is an internationally recognized qualification that offers essential, practical knowledge in mechanical QA/QC processes. Designed for aspiring technicians, engineers, and quality professionals, this certificate helps bridge the gap between technical execution and quality governance.

This comprehensive Level 3 certification provides a clear and structured approach to understanding the fundamentals of mechanical quality control and assurance. Learners are trained to apply quality principles, inspection techniques, and documentation practices to real-world mechanical engineering operations.

Equips learners with practical, in-demand skills that can be directly applied in real mechanical work environments.Perfect for early-career professionals, engineering students, or skilled workers transitioning into quality-focused roles.

The LICQual Level 3 Certificate in Quality Control and Quality Assurance (QA/QC) in Mechanical is a gateway to a promising career in quality management. With a strong focus on practical skills, global standards, and flexible learning, this program prepares you to meet the demands of modern mechanical industries where precision, safety, and compliance are non-negotiable.

LICQual Level 3 Certificate in Quality Control and Quality Assurance (QA/QC) in Mechanical
  • LICQual Level 3 Certificate in Quality Control and Quality Assurance (QA/QC) in Mechanical
  • 6 Mandatory Units
  • 4-6 months

Following are the mandatory units of LICQual Level 3 Certificate in Quality Control and Quality Assurance (QA/QC) in Mechanical

Unit Ref#Unit TitleCreditGLH
LICQ2200140-1Introduction to Quality Control and Quality Assurance in Mechanical Engineering420
LICQ2200140-2Mechanical Engineering Quality Management Systems (QMS)420
LICQ2200140-3Inspection and Testing Techniques in Mechanical Engineering420
LICQ2200140-4Non-Destructive Testing (NDT) in Mechanical Engineering420
LICQ2200140-5Root Cause Analysis (RCA) and Problem-Solving in Mechanical Engineering420
LICQ2200140-6Materials and Processes in Quality Control for Mechanical Engineering420

GLH (Guided Learning Hours) and TQT (Total Qualification Time) are terms commonly used in vocational qualifications to help define the amount of time a learner is expected to spend on their studies.

1. GLH (Guided Learning Hours)

GLH refers to the number of hours a learner spends being directly taught, supervised, or supported during their course. This includes the time spent in activities such as:

  • Classroom instruction
  • Practical workshops
  • One-on-one tutoring or mentoring sessions
  • Online learning sessions with tutor support

In other words, GLH represents the time that learners are actively engaged with their instructors or learning activities.

2. TQT (Total Qualification Time)

TQT represents the total amount of time a learner is expected to invest in completing a qualification, including:

  • GLH (Guided Learning Hours): Time spent on direct learning, as explained above.
  • Self-Directed Learning: This includes time spent on independent study, research, assignment completion, preparation for exams, and any other work the learner does outside of direct teaching hours.

TQT is a broader measure that includes all the time required to achieve the qualification. It helps learners and employers understand the overall commitment required for the qualification.

Key Differences Between GLH and TQT:

  • GLH focuses on direct learning with guidance or supervision.
  • TQT includes GLH as well as independent study time and other learning-related activities.

Example:

If a qualification has a TQT of 600 hours and a GLH of 250 hours, it means the learner should spend 250 hours in direct learning (classroom, online, or tutor-led sessions) and 350 hours on independent study or research.

By the end of this course, learners will be able to:

Unit 1: Introduction to Quality Control and Quality Assurance in Mechanical Engineering

By the end of this unit, learners will be able to:

  • Define the concepts of Quality Control (QC) and Quality Assurance (QA) and explain their roles in mechanical engineering.
  • Distinguish between QC and QA in mechanical manufacturing and production.
  • Explain the significance of quality standards and regulations (e.g., ISO 9001, ASME) in mechanical engineering.
  • Recognize the stages of product development where QA/QC measures are applied, from design to manufacturing and final inspection.
  • Describe the relationship between quality management practices and overall business success in mechanical engineering industries.
  • Identify the tools and techniques used in QA/QC to ensure the quality of mechanical products.

Unit 2: Mechanical Engineering Quality Management Systems (QMS)

By the end of this unit, learners will be able to:

  • Explain the fundamental principles of Quality Management Systems (QMS) in mechanical engineering.
  • Identify the key components of a QMS, including quality policies, procedures, objectives, and performance measures.
  • Understand how to implement a QMS within a mechanical engineering environment to meet industry standards.
  • Apply the process approach within QMS to ensure effective planning, control, and improvement of mechanical processes.
  • Evaluate the importance of continuous improvement (e.g., PDCA cycle) in enhancing product and process quality in mechanical engineering.
  • Demonstrate an understanding of documentation control and its role in maintaining compliance with QMS requirements.

Unit 3: Inspection and Testing Techniques in Mechanical Engineering

By the end of this unit, learners will be able to:

  • Identify different inspection techniques and testing methods used in mechanical engineering, such as visual inspection, dimensional measurement, and functional testing.
  • Demonstrate the proper use of measurement tools and instruments (e.g., calipers, micrometers, and dial indicators) for quality inspections.
  • Describe the role of inspection in ensuring compliance with engineering specifications and standards.
  • Explain the importance of testing for product performance, reliability, and durability.
  • Analyze inspection and test results to determine conformity to mechanical product standards and specifications.
  • Apply inspection and testing techniques to detect defects, non-conformities, and process variations.

Unit 4: Non-Destructive Testing (NDT) in Mechanical Engineering

By the end of this unit, learners will be able to:

  • Understand the principles of Non-Destructive Testing (NDT) and its significance in assessing mechanical materials without causing damage.
  • Identify the main NDT methods, including ultrasonic testing (UT), radiographic testing (RT), magnetic particle testing (MPT), dye penetrant testing (DPT), and eddy current testing (ECT).
  • Describe the equipment and procedures for performing each NDT method in mechanical engineering.
  • Assess the advantages and limitations of different NDT methods based on material type, geometry, and application.
  • Interpret NDT results to identify defects such as cracks, voids, corrosion, and other structural weaknesses.
  • Document and report NDT findings in accordance with industry standards and regulations.

Unit 5: Root Cause Analysis (RCA) and Problem-Solving in Mechanical Engineering

By the end of this unit, learners will be able to:

  • Explain the concept and importance of Root Cause Analysis (RCA) in identifying and resolving quality issues in mechanical engineering.
  • Apply problem-solving tools and techniques (e.g., the 5 Whys, Fishbone diagram, FMEA) to determine the underlying causes of mechanical failures or quality defects.
  • Demonstrate how to gather and analyze data to support RCA efforts, including using historical data, inspection results, and material specifications.
  • Propose corrective actions based on root cause findings to prevent future occurrences of similar issues.
  • Implement preventive actions in response to RCA findings and monitor their effectiveness over time.
  • Evaluate the impact of root cause solutions on overall product quality, performance, and process efficiency.

Unit 6: Materials and Processes in Quality Control for Mechanical Engineering

By the end of this unit, learners will be able to:

  • Identify various materials commonly used in mechanical engineering (e.g., metals, polymers, composites) and their properties that impact quality.
  • Explain the role of materials selection in the design and manufacturing of mechanical products.
  • Understand the key manufacturing processes in mechanical engineering (e.g., casting, forging, machining, welding, additive manufacturing) and their impact on product quality.
  • Assess the effects of different manufacturing processes on material properties and product performance.
  • Evaluate the potential for defects in materials and processes, such as porosity, distortion, and dimensional inaccuracies, and recommend methods for detection and correction.
  • Apply quality control methods to ensure materials and processes meet specified mechanical and performance standards.

Benefits of the LICQual Level 3 Certificate in Quality Control and Quality Assurance (QA/QC) in Mechanical

1. Globally Recognized Qualification

Issued by LICQual, a respected international awarding body, this Level 3 Certificate is recognized across various industries and countries. It enhances your credibility and opens doors to global career opportunities in mechanical engineering and quality management.

2. Industry-Relevant Skills

The course equips learners with practical, job-ready knowledge in mechanical quality control, including inspection techniques, quality documentation, and compliance with ISO, ASME, and other relevant standards. These are essential skills for working in industries such as:

  • Automotive
  • Manufacturing
  • Aerospace
  • HVAC
  • Oil & Gas

3. 100% Assignment-Based – No Exams

The program is assessed through practical assignments and real-world tasks, allowing learners to focus on applying their knowledge rather than memorizing theory for exams. This makes the course more accessible and aligned with professional work environments.

4. Enhances Employability

Professionals with QA/QC qualifications are in high demand. This certification significantly boosts your employability by demonstrating your ability to uphold quality standards and ensure compliance in mechanical systems and processes.

5. Flexible Online Learning

Delivered entirely online, the course offers flexible study schedules, allowing learners to balance education with full-time jobs, apprenticeships, or personal commitments. You can learn at your own pace, from anywhere in the world.

6. Foundation for Career Advancement

Whether you’re entering the workforce or looking to specialize in quality control, this certificate acts as a stepping stone to more advanced qualifications and roles. It can lead to job titles such as:

  • Mechanical QC Inspector
  • QA/QC Technician
  • Production Quality Supervisor
  • Maintenance Quality Officer

7. Strong Entry Point for Technical Professionals

Ideal for mechanical engineering diploma holders, technicians, and new graduates, the course is designed to provide a smooth entry into the world of quality assurance, without requiring previous QA/QC experience.

8. Prepares for Compliance Audits and Quality Systems

Gain hands-on understanding of Quality Management Systems (QMS) and how to prepare for and participate in internal or external audits, making you a valuable asset in any mechanical or production environment.

9. Career Growth & Further Education

After earning the Level 3 Certificate, learners can pursue:

  • LICQual Level 4 or 5 Diplomas in Mechanical Quality Control
  • ISO 9001 Internal/Lead Auditor training
  • Specialized certifications in Mechanical Engineering or Quality Engineering

10. Boosts Workplace Confidence

By mastering inspection protocols, measurement tools, and reporting standards, you’ll feel more confident taking on QA/QC responsibilities and making informed quality decisions in technical environments.

This diploma is ideal for:

  • LICQual Level 3 Certificate in Quality Control and Quality Assurance (QA/QC) in Mechanical is ideal for individuals looking to advance their career in the mechanical engineering sector, specifically in the field of Quality Control (QC) and Quality Assurance (QA).
  • LICQual Level 3 Certificate in Quality Control and Quality Assurance (QA/QC) in Mechanical is designed for those who wish to develop a solid understanding of QA/QC principles and practices, with a focus on mechanical systems, products, and components.
  • LICQual Level 3 Certificate in Quality Control and Quality Assurance (QA/QC) in Mechanical is suitable for professionals who are already working in or planning to enter roles related to quality management, product inspection, testing, and compliance in mechanical engineering.
  • This qualification is also ideal for individuals transitioning into quality assurance and control from a different technical background, or those looking to formalize and enhance their practical experience in the mechanical industry.
  • LICQual Level 3 Certificate in Quality Control and Quality Assurance (QA/QC) in Mechanical is recommended for anyone aiming to work in quality management roles, including quality inspectors, quality engineers, and production managers, where knowledge of mechanical quality standards is essential.
  • It is also beneficial for those seeking to gain a globally recognized certification to boost their career prospects and demonstrate their expertise in QA/QC within the mechanical engineering industry.
  • Ideal candidates should be motivated, detail-oriented, and interested in pursuing a professional career in quality management within the mechanical engineering or manufacturing sectors.

Entry Requirements

  • To enroll in the LICQual Level 3 Certificate in Quality Control and Quality Assurance (QA/QC) in Mechanical Engineering,applicants must meet the following criteria:
  • Age Requirement:
  • Applicants must be at least 16 years old.
  • Educational Background:
  • A minimum of a Level 2 qualification (or equivalent) in a relevant field, such as mechanical engineering, manufacturing, or a technical discipline, is required. Applicants should have a solid foundation in subjects like mathematics, science, and technical drawing. Candidates with prior knowledge or training in quality management principles will benefit, but this is not a mandatory requirement.
  • Experience:
  • s work experience in the mechanical engineering or manufacturing industries is not mandatory, it is highly recommended. Practical experience in a related field will help candidates better understand the concepts and applications of Quality Control (QC) and Quality Assurance (QA).
  • English Language Competency:
  • Since the course will be delivered in English, applicants must demonstrate a good understanding of the English language. Proficiency in reading, writing, and understanding technical English is essential to succeed in this qualification. Candidates whose first language is not English may need to provide evidence of language proficiency through recognized tests such as IELTS (minimum band score of 5.5) or equivalent.

Register Now

Jon
buttler
jonbuttler@gmail.com
+44 7441 396751
+44 7441 396751
LICQual Level 3 Certificate in Quality Control and Quality Assurance (QA/QC) in Mechanical
United Kingdom

Qualification Process

Qualification Process for the LICQual Level 3 Certificate in Quality Control and Quality Assurance (QA/QC) in Mechanical

  1. Self-Assessment:
    Begin by evaluating your eligibility to ensure you meet the qualification requirements, including work experience, knowledge, and language proficiency.
  2. Registration:
    Complete your registration by submitting the required documents, including a scanned copy of a valid ID, and paying the registration fee.
  3. Induction:
    An assessor will conduct an induction to confirm your eligibility for the course and explain the evidence requirements. If you do not meet the criteria, your registration will be canceled, and the fee will be refunded.
  4. Assignmnets & Evidence Submission:
    Provide all assignmnets and the necessary evidence based on the assessment criteria outlined in the course. If you are unsure of the required evidence, consult with the assessor for guidance on the type and nature of evidence needed.
  5. Feedback and Revision:
    The assessor will review your submitted evidence and provide feedback. Evidence that meets the criteria will be marked as “Criteria Met,” while any gaps will be identified. You will be asked to revise and resubmit if needed.
  6. Competence Evidence:
    Submit final evidence demonstrating that all learning outcomes have been met. This evidence will be marked as “Criteria Met” by the assessor once it is satisfactory.
  7. Internal Quality Assurance (IQA):
    The Internal Quality Assurance Verifier (IQA) will review your evidence to ensure consistency, quality, and compliance with standards.
  8. External Verification:
    The IQA will submit your portfolio to LICQual External Quality Assurance Verifiers (EQA) for final confirmation. The EQA may contact you directly to verify the authenticity of your evidence.
  9. Certification:
    Upon successful completion of all checks, LICQual will issue your official certificate, confirming that you have attained the LICQual Level 3 Certificate in Quality Control and Quality Assurance (QA/QC) in Mechanical.

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