Machining aircraft components using CNC milling machines

URN: SEMAE3221
Business Sectors (Suites): Aeronautical Engineering Suite 3
Developed by: Enginuity
Approved on: 2021

Overview

This standard identifies the competences you need to operate Computer Numerical Control (CNC) three axis or five axis milling machines or CNC machining centres, in accordance with approved procedures to produce aircraft components. It covers both fixed wing and rotary winged aircraft components. You will take charge of the prepared machine and check that it is ready for the machining operations to be performed. This will involve checking that all the required components and consumables are present and that the machine has been approved for production. In operating the machine, you will be expected to follow the correct procedures for calling up the operating program, dealing with any error messages and executing the program activities safely and correctly.

The aircraft components produced will have a number of different features, including such features as flat faces, angled faces, internal and external profiles, slots, steps, holes which are linearly or circularly pitched and special profiles such as convex or concave. You will be required to continuously monitor the machining operations, making any necessary adjustments to machine parameters, in line with your permitted authority. Meeting production targets will be an important issue and your production records must show consistent and satisfactory performance.

Your responsibilities will require you to comply with organisational policy and procedures for the activities undertaken and to report any problems with the machine, tooling, materials or machining activities that you cannot personally resolve, or are outside your permitted authority, to the relevant people. You will be expected to work to instructions, taking personal responsibility for your own actions and for the quality and accuracy of the work that you produce.

Your underpinning knowledge will be sufficient to provide a good understanding of your work and will enable you to adopt an informed approach to applying CNC milling procedures in an aeronautical manufacturing environment. You will have an understanding of the CNC milling process and its application and will know about the equipment, tooling, materials and consumables, in adequate depth to provide a sound background to the machine operation and for carrying out the activities to the required aircraft specification.

You will understand the safety precautions required when working with the machine and its associated tools and equipment. You will be required to demonstrate safe working practices throughout and will understand the responsibility you owe to yourself and others in the workplace.

Setting up of the machine, its tooling and associated workholding devices are the subjects of other standards.


Performance criteria

You must be able to:

  1. work safely at all times, complying with health and safety and other relevant regulations, directives and guidelines
  2. confirm that the equipment is set up and ready for operation
  3. follow the defined procedures for starting and running the operating system
  4. deal promptly and effectively with error messages or equipment faults that are within your control and report those that cannot be solved
  5. monitor the computer process and ensure that the production output is to the required specification
  6. produce machined components

  7. check the completed components for accuracy

  8. complete the relevant documentation in accordance with organisational requirements

  9. shut down the equipment to a safe condition on conclusion of the activities

  10. leave the work area and machine in a safe and appropriate condition on completion of the activities

Knowledge and Understanding

You need to know and understand:

  1. the specific safety precautions to be taken when working with CNC milling machines and equipment
  2. the requirements and importance of understanding and applying human factors as defined by the regulatory requirements and the potential impact if these are not adhered to
  3. the safety mechanisms on the machine and the procedures for checking that they are operating correctly
  4. how to start and stop the machine in both normal and emergency situations
  5. the hazards associated with working on CNC milling machines (such as use of power operated workholding devices, moving machinery, automatic machine operation, handling cutting tools, lifting and handling workholding devices, hot and airborne metal particles) and how to minimise them and reduce any risks
  6. the importance of wearing the appropriate protective clothing and equipment (PPE) and of keeping the work area clean and tidy
  7. the application of a range of CNC milling machines, such as three axis, five axis and machining centres
  8. where to obtain component drawings, specifications and/or job instructions required for the components being machined
  9. how to extract and use information from engineering drawings or data and related specifications (to include symbols and conventions to appropriate CAA, FAA, BS, ISO or BSEN standards) in relation to work undertaken
  10. how to interpret first and third angle drawings, imperial and metric systems of measurement, workpiece reference points and system of tolerancing
  11. how to interpret the visual display and understand the various messages displayed
  12. the function of error messages and what to do when an error message is displayed
  13. how to find the correct restart point in the program when the machine has been stopped before completion of the program
  14. the operation of the various hand and automatic modes of machine control (such as program operating and control buttons)
  15. how to operate the machine using single block run, full program run and feed/speed override controls
  16. why you would conduct a full dry run and single block run
  17. how to make adjustments to the program operating parameters to take account of tool wear
  18. how to set and secure the workpiece to the machine table/workholding device; the effects of clamping the workpiece; and how material removal can cause warping/distortion of the finished workpiece
  19. the various types of milling cutters used and how they are located and secured to the machine spindle, tool magazine or carousel
  20. the safe and correct handling and storage of tooling
  21. how to check that the milling cutters are in a serviceable condition and the effects that worn cutters will have on the finished work
  22. the problems that can occur with the milling activities and how these can be overcome
  23. the application of cutting fluids with regard to different materials being machined
  24. the quality control procedures used, inspection checks that need to be carried out and the equipment that is used
  25. the extent of your own responsibility and to whom you should report if you have problems that you cannot resolve

Scope/range


Scope Performance

  1. Carry out all of the following during the machining activities:

    1. obtain and use the appropriate documentation (such as job instructions, drawings, quality control documentation)
    2. adhere to procedures or systems in place for risk assessment, COSHH, personal protective equipment and other relevant safety regulations and procedures to realise a safe system of work
    3. check that the operating program is at the correct start point
    4. ensure that machine guards are in place and correctly adjusted
    5. ensure that components are correctly positioned and held securely without distortion
    6. check and maintain cutting tools in a safe and usable condition
    7. ensure that the workpiece is clear of the machine spindle before starting the machine
    8. use safe working practices and start-up procedures at all times
    9. adjust machine settings, as required, to maintain the required accuracy
  2. Operate one of the following CNC milling machines:

    1. three axis milling machine
    2. multi-axis milling machine
    3. machining centre
  3. Produce machined aircraft components, which combine different operations and cover eight of the following:

    1. flat faces            
    2. holes on pitch circles  
    3. external profiles
    4. steps/shoulders           
    5. parallel faces      
    6. holes linearly pitched
    7. enclosed slots/recesses
    8. angular faces    
    9. circular/curved profiles
    10. internal profiles     
    11. open ended slots
    12. tapped holes
    13. special forms (such as concave, convex)
    14. faces that are square to each other
  4. Machine aircraft components made from one of the following types of material:

    1. ferrous    
    2. non-ferrous
    3. non-metallic
  5. Carry out the necessary checks during production, for accuracy of five of the following

    1. dimensions               
    2. hole size/fit       
    3. angles     
    4. slots
    5. squareness         
    6. surface finish    
    7. flatness           
    8. recesses
  6. Produce aircraft components within all the relevant quality and accuracy standards, as applicable to the operations performed:

    1. dimensional tolerance equivalent to BS EN ISO 286-1 or BS 1916-1 Grade 7
    2. surface finish 63µin or 1.6µm
    3. reamed and bored holes within H8
    4. flatness and squareness 0.001" per inch or 0.025mm per 25mm
    5. angles within +/- 0.5 degree
  7. Machine aircraft components which comply with one of the following standards:

    1. Civil Aviation Authority (CAA)/European Aviation Safety Agency (EASA)
    2. Ministry of Defence (MoD)
    3. Military Aviation Authority (MAA)
    4. Aerospace Quality Management Standards (AS)            
    5. Federal Aviation Authority (FAA)
    6. Aerospace Quality Management Standards (AS)
    7. BS, ISO or BSEN standards and procedures
    8. customer standards and requirements
    9. company standards and procedures
    10. manufacturers standards and procedures
  8. Complete the relevant paperwork, to include one from the following and pass it to the appropriate people:

    1. build records                 
    2. job cards             
    3. log cards       
    4. aircraft log
    5. other specific recording method

Scope Knowledge


Values


Behaviours

You will be able to apply the appropriate behaviours required in the workplace to meet the job profile and overall company objectives, such as:

  • strong work ethic
  • positive attitude
  • team player
  • dependability
  • responsibility
  • honesty
  • integrity
  • motivation
  • commitment

Skills


Glossary


Links To Other NOS


External Links


Version Number

2

Indicative Review Date

2024

Validity

Current

Status

Original

Originating Organisation

Enginuity

Original URN

SEMAE3221

Relevant Occupations

Engineer, Engineering, Engineering and Manufacturing Technologies, Engineering Technicians

SOC Code

5234

Keywords

Engineering; manufacturing; aeronautical; aircraft components; mechanical; machining; CNC three axis; CNC five axis; machine centre; ; milling; flat surface; profile