Assembling structures for experimental vehicle engineering using a manual/semi-automatic welding process

URN: SEMAUT3041
Business Sectors (Suites): Automotive Engineering Suite 3
Developed by: Enginuity
Approved on: 30 Mar 2020

Overview

This standard identifies the competences you need to assemble and weld fabricated items and other components into structures used for experimental vehicle development activities, in accordance with instructions and/or approved welding procedures. You will achieve this by producing fillet welds and/or partial butt welds in plate, sheet, sections, pipe or tube, using a manual/semi-automatic welding process such as manual metal arc (MMA), MIG, MAG, TIG, flux-cored wire, inert shield or oxy fuel gas welding equipment. You will be required to check that all the workholding equipment and manipulating devices required are available and in a usable condition. You will be expected to check the welding equipment to ensure that all the leads/cables, hoses and wire-feed mechanisms are securely connected and free from damage.

In preparing to weld you will need to set and adjust the welding conditions, in line with the instructions or welding procedure specification. You must operate the equipment safely and correctly and make any necessary adjustments to settings, in line with your permitted authority, in order to produce the welded joints to the required specification. You will be required to demonstrate your capability to produce the welds of the required quality, and this could be through tests according to current industry standards, codes of practice and legislation.

Your responsibilities will require you to comply with organisational policy and procedures for the welding activities undertaken, and to report any problems with the welding equipment, or welding activities that you cannot resolve, or that are outside your permitted authority, to the relevant people. You will be expected to work to instructions, 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 be sufficient to provide a sound basis for your work, and will provide an understanding of how the particular welding process works. You will know about the equipment, materials and consumables, in adequate depth to provide a sound background for the welding operations to be performed, and for ensuring that the work output is produced to the required specification.

You will understand the safety precautions required when working with the welding 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 relevant joining procedure and job instructions
  3. check that the joint preparation complies with the specification
  4. check that joining and related equipment and consumables are as specified and fit for purpose
  5. make the joints as specified using the appropriate thermal joining technique
  6. produce joints of the required quality and of specified dimensional accuracy
  7.  check that the joint preparation and assembly complies with the specification
  8. deal promptly with excess and waste materials and temporary attachments, in line with approved and agreed procedures
  9. deal promptly and effectively with problems within your control and report those that cannot be solved
  10. ensure that work records are completed, stored securely and available to others as per organisational requirements
  11.  leave the work area in a safe condition on completion of the activities, as per organisational and legal requirements

Knowledge and Understanding

You need to know and understand:

  1. the specific safety precautions to be taken whilst carrying out the  activities (including any specific legislation, regulations or codes of practice relating to the activities, equipment or materials)
  2. the health and safety requirements of the work area and the activities, and the responsibility these requirements place on you
  3. the hazards associated with  the activities, and how to minimise them and reduce risks
  4. the personal protective equipment and clothing (PPE) to be worn during the activities
  5. the manual/semi-automatic welding process selected:different types of welding equipment (such as basic principles of fusion welding, AC and DC power sources, ancillary equipment, power ranges, care of equipment, terminology used in welding, flame setting)
  6. extracting information required from drawings and welding procedure specifications (interpretation of welding symbols, scope, content and application of the welding procedure specification)
  7. the consumables associated with the chosen welding process (types of electrodes and/or filler metal and their application, types of shielding gas and their application, gas supply and control; correct control, storage and drying of electrodes and filler wire)
  8. the types and features of welded joints in pipe (fillet and butt welds, single and multi-run welds, welding positions, weld quality)
  9. methods of setting up and restraining the joint to achieve correct location of components and control of distortion (edge preparation, use of jigs and fixtures, manipulators and positioners, tack welding size and spacing in relationship to material thickness and component size, use of temporary attachments, pre-setting)
  10. preparing the welding equipment, and checks that need to be made to ensure that it is safe, tested and ready to use (electrical connections, power return and earthing arrangements; equipment calibration before use, setting welding parameters, care and maintenance of the equipment)
  11. the techniques of operating the welding equipment to produce a range of joints in the various joint positions (fine tuning parameters, correct manipulation of the welding gun or electrode, safe closing down of the welding equipment)
  12. the importance of complying with job instructions and the welding procedure specification
  13. the problems that can occur with the welding activities, and how these can be overcome (causes of distortion and methods of control, effects of welding on materials and sources of weld defects; methods of prevention)
  14. the organisational quality systems used and weld standards to be achieved; weld inspection and test procedures used (including visual and non-destructive tests)
  15. the extent of your own responsibility and to whom you should report if you have problems that you cannot resolve
  16. how to access, use and maintain information to comply with organisational requirements and legislation

Scope/range


Scope Performance

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

    1. obtain and use the appropriate documentation (such as job instructions, drawings, weld procedure specifications, quality control documentation)
    2. adhere to procedures or systems in place for risk assessment, hazardous substances, personal protective equipment and other relevant safety regulations and procedures to realise a safe system of work
    3. check that all cables, welding leads and gas hoses are in a safe, tested and serviceable condition
    4. check that all tools and equipment to be used are within current calibration/certification dates
    5. correctly prepare the faces of the materials to be welded
    6. use safe and appropriate welding methods and procedures at all times
    7. return all tools and equipment to the correct location on completion of the welding activities
    8. leave the work area in a safe and appropriate condition on completion of the activities
    9. produce welded joints that meet the requirements of the specification
  2. Set up, check, adjust and use welding and related equipment for one of the following welding processes:

    1. manual metal arc (MMA)
    2. TIG                      
    3. flux cored wire
    4. MIG/MAG                          
    5. plasma arc           
    6. oxy fuel gas welding
  3. Use consumables as specified in the welding procedure specification, covering either:

    1. two types of electrode from:
    2. rutile                            
    3. nickel alloy
    4. basic                            
    5. stainless steel
    6. cellulosic                       
    7. other

OR
8. two types of filler wire from different material groups, using shielding gases (where applicable)

  1. Produce fillet welded joints and/or partial butt welds in two of the following forms of material:

    1. plate                    
    2. sections              
    3. pipe/tube            
    4. sheet                  
    5. other specific form
  2. Weld joints according to approved welding procedures, in good access situations, in two of the following positions:

    1. flat (PA)                                      
    2. horizontal Vertical (PB)               
    3. vertical Upwards (PF)
    4. horizontal (PC)                           
    5. vertical Downwards (PG)             
    6. overhead (PE or PD)
  3. Check components which comply with all of the following quality and accuracy standards:

    1. achieve a minimum weld quality equivalent to the level given in industry standards, codes of practice and procedures
    2.  the application standard or specification
    3. meet the required dimensional accuracy within specified tolerance

Scope Knowledge


Values


Behaviours


Skills


Glossary


Links To Other NOS


External Links


Version Number

2

Indicative Review Date

31 Mar 2023

Validity

Current

Status

Original

Originating Organisation

Semta

Original URN

SEMAUT3041

Relevant Occupations

Engineering, Engineering and Manufacturing Technologies, Science and Engineering Technicians, Vehicle Trades

SOC Code

5231

Keywords

engineering; automotive; manufacturing; assembling; structures; experimental vehicles; manual welding; semi-automatic welding; oxy fuel gas weld; arc weld; MIG/TIG; MMA