Apprentice Machinist

ADVANCED ENGINE RESEARCH LTD

ESSEX (SS13 1LE)

Closes in 8 days (Tuesday 7 July 2026 at 11:59pm)

Posted on 29 June 2026

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Contents

Summary

To support the machine shop team in the manufacture and finishing of precision components, while developing practical engineering skills through structured training and on-the-job experience.

Wage

£16,640 for your first year, then could increase depending on your age

National Minimum Wage rate for apprentices

Minimum wage rates (opens in new tab)

Eligible to discretionary annual increase.

Training course
Machining technician (level 3)
Hours
Monday - Friday - 40 hours including college release. Start time approx. 7.30am - might be earlier depending on age.

40 hours a week

Start date

Wednesday 2 September 2026

Duration

3 years 9 months

Positions available

2

Work

Most of your apprenticeship is spent working. You’ll learn on the job by getting hands-on experience.

What you'll do at work

  • Assist in the setup and operation of CNC and manual machines (e.g. lathes, mills) under supervision
  • Learn to read and interpret engineering drawings and specifications
  • Support the production of components to required quality standards and tolerances
  • Carry out basic measurements using tools such as verniers, micrometers, and gauges
  • Maintain a clean, organised, and safe working environment
  • Follow all health and safety procedures and company policies at all times
  • Assist with routine maintenance of machines and equipment
  • Participate in training programmes, both on-site and through external learning providers
  • Complete required coursework and assessments as part of the apprenticeship

Where you'll work

UNIT 6 REPTON CLOSE
BURNT MILLS IND ESTATE
BASILDON
ESSEX
SS13 1LE

Training

Apprenticeships include time away from working for specialist training. You’ll study to gain professional knowledge and skills.

Training provider

SOUTH ESSEX COLLEGE OF FURTHER AND HIGHER EDUCATION

Training course

Machining technician (level 3)

Understanding apprenticeship levels (opens in new tab)

What you'll learn

Course contents
  • Comply with statutory health and safety regulations and procedures.
  • Comply with environmental, ethical and sustainability regulations and procedures: safe disposal of waste, re-cycling or re-use of materials and efficient use of resources.
  • Prepare and set up conventional or CNC machines.
  • Operate and adjust conventional or CNC machines.
  • Apply risk assessment and hazard identification processes and procedures in the work area.
  • Monitor, obtain and check stock and supplies, and complete stock returns.
  • Record information - paper based or electronic. For example, energy usage, job sheets, risk assessments, equipment service records, test results, handover documents and manufacturers' documentation, asset management records, work sheets, checklists, waste environmental records and any legal reporting requirements.
  • Read and interpret information. For example, data and documentation used to produce machined components.
  • Apply engineering, mathematical and scientific principles.
  • Plan and organise own work and resources.
  • Follow and apply inspection, quality assurance procedures and processes.
  • Select machining process.
  • Select and setup tooling and work holding devices.
  • Set and adjust machine operating parameters. For example, setting feeds and speeds for roughing and finishing operations, loading, proving and validating programs when using a CNC machine tool.
  • Apply machining operations and techniques to produce complex components with features. For example, parallel; stepped; angular diameters and faces; grooves; slots; recesses and undercuts; radii and chamfers; internal and external forms and profiles; reamed; bored; drilled and electro eroded holes; internal and external screw threads.
  • Measure and check components.
  • Select and check condition of tools and equipment. Identify issues, resolve and take action as needed.
  • Identify and action issues in the manufacturing process.
  • Apply fault-finding and diagnostic testing procedures to identify faults. Diagnose and resolve issues. Escalate issues.
  • Maintain the work area and return any resources and consumables.
  • Communicate with others verbally. For example, colleagues and stakeholders.
  • Follow machine shut down, safe isolation, handover, start up or warm up procedures. Escalate issues.
  • Apply continuous improvement techniques. Devise suggestions for improvement.
  • Apply ethical principles.
  • Apply team working principles.
  • Comply with statutory health and safety regulations and procedures.
  • Comply with environmental, ethical and sustainability regulations and procedures: safe disposal of waste, re-cycling or re-use of materials and efficient use of resources.
  • Prepare and set up conventional or CNC machines.
  • Operate and adjust conventional or CNC machines.
  • Apply risk assessment and hazard identification processes and procedures in the work area.
  • Monitor, obtain and check stock and supplies, and complete stock returns.
  • Record information - paper based or electronic. For example, energy usage, job sheets, risk assessments, equipment service records, test results, handover documents and manufacturers' documentation, asset management records, work sheets, checklists, waste environmental records and any legal reporting requirements.
  • Read and interpret information. For example, data and documentation used to produce machined components.
  • Apply engineering, mathematical and scientific principles.
  • Plan and organise own work and resources.
  • Follow and apply inspection, quality assurance procedures and processes.
  • Select machining process.
  • Select and setup tooling and work holding devices.
  • Set and adjust machine operating parameters. For example, setting feeds and speeds for roughing and finishing operations, loading, proving and validating programs when using a CNC machine tool.
  • Apply machining operations and techniques to produce complex components with features. For example, parallel; stepped; angular diameters and faces; grooves; slots; recesses and undercuts; radii and chamfers; internal and external forms and profiles; reamed; bored; drilled and electro eroded holes; internal and external screw threads.
  • Measure and check components.
  • Select and check condition of tools and equipment. Identify issues, resolve and take action as needed.
  • Identify and action issues in the manufacturing process.
  • Apply fault-finding and diagnostic testing procedures to identify faults. Diagnose and resolve issues. Escalate issues.
  • Maintain the work area and return any resources and consumables.
  • Communicate with others verbally. For example, colleagues and stakeholders.
  • Follow machine shut down, safe isolation, handover, start up or warm up procedures. Escalate issues.
  • Apply continuous improvement techniques. Devise suggestions for improvement.
  • Apply ethical principles.
  • Apply team working principles.

Training schedule

You will spend 4 days with the employer and 1 day in college at our Luckyn Lane Campus, in Basildon. 

Requirements

Essential qualifications

GCSE in:

Maths and English (grade 4)

Share if you have other relevant qualifications and industry experience. The apprenticeship can be adjusted to reflect what you already know.

Skills

  • Communication skills
  • Attention to detail
  • Problem solving skills
  • Analytical skills
  • Logical
  • Team working
  • Initiative
  • Non judgemental
  • Patience

About this employer

Advanced Engine Research supply technologically advanced high-performance engine solutions to the automotive and motorsport industry. Through employment of the best engineers, the latest design tools and advanced electronic control systems, AER is a world leader in producing high performance, fuel efficient low mass engines.

Since 1999, AER has powered teams to forty-three championships including two class victories at the 24 Hours of Le Mans, two at the 24 Hours of Daytona, three at the 12 Hours of Sebring and four at the ten-hour Petit Le Mans. AER has been the chosen engine supplier for numerous single make series including GP3, Indy Lights, World Series Light and World Series by Nissan, in addition to this AER has a long history of providing technical assistance to automotive manufacturers and F1 engine suppliers.

 

After this apprenticeship

Your earnings can increase over time with an apprenticeship. Find out about potential future pay (opens in new tab).

Successful completion of the apprenticeship may lead to:

  • Qualified CNC Machinist role
  • Advanced engineering training (e.g. Level 3/4 qualifications)
  • Opportunities within production, quality, or engineering functions

Ask a question

The contact for this apprenticeship is:

SOUTH ESSEX COLLEGE OF FURTHER AND HIGHER EDUCATION

Diane Ridgley

diane.ridgley@southessex.ac.uk

01702221858

The reference code for this apprenticeship is VAC2000037351.

Apply now

Closes in 8 days (Tuesday 7 July 2026 at 11:59pm)