Setting CNC turning machines for production of aircraft components

URN: SEMAE3218
Business Sectors (Suites): Aeronautical Engineering Suite 3
Developed by: Enginuity
Approved on: 2021

Overview

This standard identifies the competences you need to prepare and set up Computer Numerical Control (CNC) turning 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 be expected to select the appropriate workholding devices and to mount and secure them to the machine spindle. You will also be required to select the appropriate cutting tools, mount and secure them to the appropriate tool holding devices and place the cutting tools in the relevant positions within the tool posts, turrets, slides or tool change magazine/carousel, where this is applicable.

You will need to ensure that all the tools have been allocated a relevant tool number and that the relevant data on their co-ordinates and datum positions are entered into the operating program and machine. This will involve loading and proving component programs, checking for errors/faults, editing and saving program changes.

You must produce trial components and prove the machine is working satisfactorily before declaring the machine ready for production. Making adjustments to settings to achieve specification and solving machine-related problems during production, will also form part of your role.

Your responsibilities will require you to comply with organisational policy and procedures for the machine setting activities undertaken and to report any problems with the equipment, tooling, programs or setting-up activities that you cannot personally resolve, or are outside your permitted authority, to the relevant people. You will be expected to work with a minimum of supervision, taking personal responsibility for your own actions and for the quality and accuracy of the work that you carry out.

Your underpinning knowledge will provide a good understanding of your work and will provide an informed approach to the setting-up procedures used in an aeronautical manufacturing environment. You will understand the CNC turning machine used and its application and will know about the workholding devices, tooling, machine operating programmes and setting-up procedures, in adequate depth to provide a sound basis for setting up the equipment, correcting faults and ensuring the work output is produced 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.


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. follow the correct specifications for the component to be produced
  3. determine what has to be done and how the machine will be set to achieve this
  4. mount, set and secure the required workholding devices, workpiece and cutting tools
  5. set the machine tool operating parameters to achieve the component specification
  6. check that all safety mechanisms are in place and that the equipment is set correctly for the required operations
  7. deal promptly and effectively with problems within your control and report those that cannot be solved
  8. leave the work area and machine in a safe and appropriate condition on completion of the activities

  9. complete relevant paperwork, in accordance with organisational requirements


Knowledge and Understanding

You need to know and understand:

  1. the specific safety precautions to be taken when setting up workholding devices and tooling on CNC lathes
  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. how to start and stop the machine in normal and emergency situations
  4. the importance of ensuring that the machine is isolated from the power supply before mounting cutting tools and workholding devices
  5. the importance of wearing the appropriate protective clothing and equipment (PPE) and of keeping the work area clean and tidy
  6. the hazards associated with working on CNC lathes (such as use of power operated chucks, moving machinery, automatic machine operation, handling cutting tools, lifting and handling workholding devices, hot and airborne metal particles) and how to minimise them
  7. how to handle and store cutting tools, safely and correctly
  8. how to handle and store operating programs, safely and correctly
  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. the range of workholding methods and devices that are used on CNC lathes
  12. why it is important to set the workholding device in relationship to the machine datum's and reference points
  13. the methods of setting the workholding devices and the tools and equipment that can be used
  14. the range of cutting tools that are used on CNC lathes, and typical applications
  15. how to check that the cutting tools are in a safe and serviceable condition
  16. the use of tungsten carbide, ceramic and diamond indexible tips and the factors which will determine their selection and use (such as the condition of material supplied, hardness of the material, the cutting characteristics of the material, tolerances to be achieved, component surface finish and specifications)
  17. the various tool holding devices that are used and the methods of correctly mounting and securing the cutting tools to the tool holders
  18. the advantages of using pre-set tooling and how to set the tooling using setting jigs/fixtures
  19. the use of tool posts, magazines and carousels and how to position and identify the tools in relationship to the operating program
  20. how to place the machine into the correct operating mode and how to access the program edit facility in order to enter tooling data, such as tool datums, positions, lengths, offsets and radius compensation
  21. how to conduct trial runs using single block run, dry run and feed and speed override controls
  22. the methods of measuring and checking trail components against the specification and the tools and equipment that can be used
  23. the items that you need to check before allowing the machine to operate in full program run mode
  24. how the various types of materials used will affect the feeds and speeds that can be used
  25. the application of cutting fluids with regard to a range of different materials and why some materials do not require the use of cutting fluids
  26. typical problems that can occur with the setting up of the tooling and workholding devices and what to do if they occur
  27. 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 setting-up 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. follow safe practice/approved setting up procedures at all times
    4. confirm that the correct operating program has been loaded
    5. check that the tooling is in a usable condition
    6. ensure that the workpiece is correctly positioned and secured without distortion
    7. update the program tool data, as applicable
    8. ensure that correctly adjusted machine guards are in place
  2. Prepare one of the following CNC turning machines in readiness for production:

    1. CNC lathe 
    2. CNC machining centre
  3. Position and secure workpieces using two of the following workholding methods and devices:

    1. chucks with hard jaws 
    2. chucks with soft jaws    
    3. fixtures                       
    4. drive centres
    5. collet chucks 
    6. faceplates
    7. magnetic/pneumatic devices
    8. other workholding devices
  4. Select and mount the appropriate tool holding device and eight of the following types of cutting tool:

    1. roughing tool 
    2. screw-thread tool  
    3. centre drills    
    4. reamers
    5. finishing tool    
    6. profiling tools    
    7. twist/core drills 
    8. maxi-tipped drills
    9. parting-off tool   
    10. form tools     
    11. boring tools
  5. Prepare the tooling for operation, by carrying out all the following activities, as applicable to the machine type:

    1. positioning tools in the correct position in the tool posts, turrets, magazine or carousel
    2. checking tools have a specific tool number in relation to the operating program
    3. entering all relevant tool data to the operating program (tool lengths, tool offsets, radius compensation)
    4. pre-setting tooling using setting jigs/fixtures
    5. setting tool datum      
    6. saving changes to the program
  6. Set up the machine to produce aircraft components combining several different operations, covering ten from:

    1. parallel diameters       
    2. internal profiles     
    3. eccentric diameters
    4. stepped diameters       
    5. external profiles  
    6. external screw threads
    7. tapered diameters     
    8. reamed holes
    9. internal screw threads
    10. flat faces                    
    11. tapped holes    
    12. chamfers and radii
    13. internal undercuts    
    14. drilled holes 
    15. bored holes
    16. external undercuts    
    17. parting-off      
    18. grooves
  7. Machine one of the following types of material:

    1. ferrous   
    2. non-ferrous
    3. non-metallic
  8. Set the machine to produce aircraft components within all of the following 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. angles within +/- 0.5 degree
    5. screw threads BS medium fit
  9. Set the machine to produce 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
  10. 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

SEMAE3218

Relevant Occupations

Engineer, Engineering, Engineering and Manufacturing Technologies, Engineering Technicians

SOC Code

5234

Keywords

Engineering; manufacturing; aeronautical; aircraft components; mechanical; setting; CNC lathe; machine centre; lathe parameters; turning tools; holding device