Gravotech - Aerospace part marking

What are the best aerospace part marking solutions?

Permanent aerospace part marking solutions ensure compliance and traceability across your supply chain with precision laser and mechanical technologies.

Aerospace manufacturing demands direct part marking on critical components for efficient identification and traceability. Gravotech aerospace marking solutions comply with ATA Spec 2000, MIL-STD-130, AS9132, and EASA Part 21 Subpart Q standards. Our laser markers and dot peen machines create high-quality datamatrix codes on titanium, aluminum alloys, stainless steel, and composite materials. These marking technologies deliver complete aircraft traceability, identifying every component from turbine blades to fasteners across decades of service.

Safety regulations require permanent marking systems that prevent counterfeit parts from entering supply chains. Subcontractors must deliver fully identified components to manufacturers, eliminating tampering risks and ensuring obsolete parts cannot be reused or resold. This permanent identification protects aircraft safety by tracking component origins and preventing stress-related failures from unidentified materials.

What are the most adapted solutions for aerospace part marking?

Our industrial laser stations are perfect for aerospace part marking: they guarantee high-contrast marking with a very short cycle time without contact with the part. Different laser sources and power levels and marking areas are available depending on your application.

  • Laser stations (WeLase™, LW2 & LW3) : perfect for small to large parts when small cycle times are required
  • Laser tables (LS100, LS100EX, LS900): easily place several parts for batch laser marking
  • Integrable lasers (Mini-inline): integrate your laser marking head in security when marking very large aerospace parts

Small laser engraver for all kind of engravings.

WeLase™ compact laser engraver

WELASE

LASER STATION
  • Marking area: 110 x 110 mm
  • Materials: Organic materials (wood, glass, leather, paper), painted surfaces, metals and plastics
  • Applications: Personalization, Identification
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Medium fully automated laser marking station.

LW2 fully automated laser marking station

LW2

LASER STATION
  • Marking area: up to 205 x 205 mm
  • Materials: Metals and plastics
  • Applications: Identification, personalization
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Large fully automated laser workstation with Fiber, Hybrid or Green sources

LW3 large fully automated laser marking station with Fiber, Hybrid or Green sources

LW3

LASER STATION
  • Marking area: up to 875 x 300 mm
  • Materials: Metals and plastics
  • Applications: Identification, personalization
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Small CO2 laser engraver and cutter for personalization, signage and creative.

LS100 CO2 laser engraver

LS100

LASER TABLE
  • Marking area: 460 x 305 mm
  • Materials: Plastics, wood, glass and other organic materials and painted surfaces
  • Applications: Personalization, creative and signage
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Large laser engraver and cutter that can do everything.

LS900 large laser engraver and cutter with CO2, Fiber and Edge sources

LS900

LASER TABLE
  • Marking area: 610 x 610 mm
  • Materials: Plastics, wood, glass and other organic materials, painted surfaces and metals
  • Applications: Personalization, signage, creative
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Laser protection nose for integrable laser markers.

Mini-Inline laser protection nose for integrable laser markers

Mini-inline

INTEGRABLE LASER MARKER
  • Marking area: 32 x 42 mm
  • Materials: Plastics and metal
  • Applications: Identification, manufacturing
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    Our dot-peen and rotary marking machines offer high-precision marking and a great return on investment. They meet your aerospace part identification and traceability marking requirements while increasing quality and volumes. Mark both small and large parts thanks to their open marking area. 

    • Dot-peen station (IMPACT): cost-effective dot-by-dot, or continuous line marking of datamatrixes and alphanumeric codes on every metal and most plastic parts
    • Rotary machines (IS400): esthetic and deep marking of logos and identifying numbers on every metal and plastic part

    Standalone dot peen marking station.

    Impact benchtop dot peen marking machine

    IMPACT

    DOT PEEN STATION
    • Technology: electromagnetic & pneumatic
    • Marking area: 100 x 120 mm
    • Materials: Metals, plastics
    • Application: Identification
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    Medium CNC engraving machine for flat and cylinder engraving on metal and plastic.

    IS400 CNC engraving machine

    IS400 – IS400 Volume

    CNC ENGRAVING TABLE
    • Marking area: 305 x 210 mm
    • Materials: Plastics, metals and organic materials (glass, wood)
    • Applications: Personalization, identification, signage, creative
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      Which machine for aerospace identification?

      TechnologyMachinesApplicationsAdvantagesLimitsEquipment price
      Dot peen
      • Impact
      • Datamatrix
      • ID plates
      • Hard metals
      • Deep marking
      • Resistant to post-treatments
      • Surface contact required
      		$-$$
      Rotary
      • IS400
      • ID and signage plates
      • Very large parts
      • Deep marking
      • Esthetic marking
      • Longer cycle time
      		$$-$$$
      Laser
      • Welase™
      • LW2
      • LW3
      • Small part marking
      • Titanium or aluminum engraving
      • High-definition logos
      • No contact
      • High contrast
      • Fast
      • Initial investment
      		$$-$$$

      What technologies are used for aerospace part marking?

      Aerospace part marking with laser


      The laser technology is a contactless identification method. The part surface remains intact as only the superficial layer of the material is heated to create a contrasting black marking. This also ensures that the mechanical properties of the part aren’t modified.
      To mark parts sensible to heat transfers, our Green laser source ensures what is called "Cold-marking". Which is, laser marking without any heat buildup on the part’s surface.

      Laser marking is fast, making it perfectly suitable for high-production needs. The high contrast ensures quick data reading, either by an operator for alphabetical characters or by a scanner for 1D or 2D codes.

      Our industrial laser stations are equipped with an integrated Z axis for automatic adjustment of the laser head, ensuring high-quality traceability marking on your aerospace parts.

      Laser marked DataMatrix code and serial numbers on a machined metal component

      Aerospace part marking with dot peen


      The dot-peen marking technology pushes the material to engrave a series of numbers or a Datamatrix code. No material is removed or weakened during this process. This ensures that the marking remains intact after post-treatments and maintains high durability over time.

      Certain aerospace standards specify a required depth for compliance, and dot-peen marking machines enable adherence to these depth requirements.

      Our Impact eZ m (electromagnetic version) includes a sensor that automatically detects the part and adjusts the Z axis accordingly, ensuring consistently high-quality part identification.

      Close-up of a dot peen Datamatrix code marking on metal

      Integrable and industry compliant


      Our industrial laser and dot-peen marking machines seamlessly integrate with your existing infrastructure, including central servers, PCs, PLCs, and barcode scanners, maximizing ROI and facilitating communication within your plant network.

      These robust permanent marking systems are capable of creating deep and durable markings on even the toughest metals, both pre and post-treatment, ensuring legibility and durability in the most challenging environments. The complete traceability from manufacturing to maintenance guarantees part authenticity and compliance with the highest aerospace standards.

      Gravotech XF510r dot peen machine integrated on a production line

      What compliance standards apply to aerospace component marking?

      Aerospace part marking for different parts and shapes


      The variety of our aerospace part marking technologies makes it possible to trace and identify a wide range of parts with a unique identification code, whatever their shapes or materials:

      • Turbine components (blades, vanes, flanges…)
      • Fasteners (nuts, bolts, washers, screws, rivets…)
      • System components (pumps, engines, generators, moving shafts, electronic boxes…)
      • Airframe parts (landing gear, brake disks, thrust reversers…)
      • Power plant parts (nozzles, assemblies, transmission systems…)
      • Cabins (seats, lights, switches, control panels…)
      • ID plates (equipment and machine identification nameplates)

      These parts can be made of the following alloys: Aluminium, Titanium, Magnesium, Cobalt, Steel, Stainless steel, Carbon fiber.

      Contact us to learn more
      Metal component marked with a Datamatrix code and serial number

      Various norms for aerospace part marking


      The standards upon which you rely vary depending on the country, type of traceability marking, and material of the part. The main aerospace industry standards include AS478-3, AIM-DPM, MIL-STD-130, EASA Part 21 Subpart Q, ATA SPEC2000, SAE, NASA, UID, JES, RRES and SAE International AS9132. 

      Some of these standards encompass various requirements for parts:

      • HR (Hardness Rating): the marking must not create points of weakening or excessive wear.
      • Mechanical resistance: the marking must not affect the tensile, compressive, fatigue, or corrosion resistance of the part.
      • Weight and material density: the marking must not significantly modify the part weight or affect its density.

      Other standards focus on the aerospace part marking quality to ensure reliable proofreading, such as the AIM-DPM standard.  

      Contact us to learn more
      Aerospace part marking
      Gravotech engraving machine warranty

      Global ID Solutions

      For key accounts and industrial leaders

      You are a global industrial company looking for a trusted partner for your identification needs?

      With a rich legacy of innovation and a deep understanding of industry requirements, Gravotech offers a wide range of solutions for identification requirements.

      Through a collaborative approach, Gravotech works closely with its clients to understand their unique needs and challenges, allowing them to develop solutions that deliver consistent and precise results. With a global network of dedicated support professionals, Gravotech ensures that Key Accounts receive prompt assistance and ongoing technical support, maximizing uptime and minimizing downtime.

      Contact us
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      FAQ: The 4 questions most frequently asked of our experts

      🔽Is laser part marking the preferred method for aerospace parts?

      Yes, laser marking is favored when surface integrity is paramount because it has the ability to leave a permanent, high-contrast marking without damaging the part. Some materials can only be marked with a laser to avoid damaging the surface structure (it must be smooth and unchanged, engraved without being altered).

      🔽What is cold marking, and why is it used for heat-sensitive aerospace parts?

      Cold-marking is a process unique to Green laser sources (compatible with the WeLase™, LW2, LW3 or an integrable laser). Because of its specific wavelength, it generates significantly less thermal reaction on the part's surface. This is essential for aerospace components with low tolerance for structural or chemical alteration, ensuring that the part's performance and safety remain 100% intact over the long term.

      🔽What is the best machine for aerospace part marking? 

      The LW2 laser station is often considered the most versatile due to its speed and ability to mark various materials without contact. For deep marking, the Impact dot peen station is preferred. The best choice depends on the sensitivity of your part, its fragility, and the required marking depth.

      🔽What types of aerospace typical materials can be marked (e.g., titanium, aluminum, carbon fiber)?

      All major alloys and materials used in aerospace can be marked, including titanium, stainless steel, aluminum, magnesium, and cobalt. Gravotech offers specialized solutions (laser or mechanical) for carbon fiber and various high-performance plastics used in cabins and cockpits, ensuring clear identification regardless of the material's weight or density.

      Direct part marking of a Datamatrix code on a metal turbine part Direct part marking of a Datamatrix code on a metal turbine part
      Deep marking of a turbine blade Deep marking of a turbine blade
      Datamatrix laser marking on metal part Datamatrix laser marking on metal part
      Direct marking on a turbine blade Direct marking on a turbine blade
      Dot peen stylus marking a metal aerospace part with serial number and Datamatrix Dot peen stylus marking a metal aerospace part with serial number and Datamatrix
      Metal part engraved with a serial number and a dot peen Datamatrix code Metal part engraved with a serial number and a dot peen Datamatrix code
      Aerospace part marking Aerospace part marking
      Datamatrix
      Rotary engraved steel part with datamatrix and serial number identification Rotary engraved steel part with datamatrix and serial number identification
      Datamatrix marking on metal part for traceability and part identification Datamatrix marking on metal part for traceability and part identification
      Metal part with a precise laser engraving and Datamatrix code Metal part with a precise laser engraving and Datamatrix code
      Close-up of a Datamatrix code and serial number made by laser engraving on a metal surface Close-up of a Datamatrix code and serial number made by laser engraving on a metal surface
      Close-up of dot peen marking showing a Datamatrix code and a serial number on a black metal part Close-up of dot peen marking showing a Datamatrix code and a serial number on a black metal part

      Other content you might like

      Identification and compliance

      Metal component marked with a Datamatrix code and serial number

      Different parts

      & shapes

      The variety of our aerospace part marking technologies makes it possible to trace and identify a wide range of parts with a unique identification code, whatever their shapes or materials:

      • Turbine components (blades, vanes, flanges…)
      • Fasteners (nuts, bolts, washers, screws, rivets…)
      • System components (pumps, engines, generators, moving shafts, electronic boxes…)
      • Airframe parts (landing gear, brake disks, thrust reversers…)
      • Power plant parts (nozzles, assemblies, transmission systems…)
      • Cabins (seats, lights, switches, control panels…) 
      • ID plates (equipment and machine identification nameplates)

      These parts can be made of the following alloys: Aluminium, Titanium, Magnesium, Cobalt, Steel, Stainless steel, Carbon fiber.

      Contact us to learn more
      Aerospace part marking

      Various norms

      with strict requirements

      The standards upon which you rely vary depending on the country, type of traceability marking, and material of the part. The main aerospace industry standards include AS478-3, AIM-DPM, MIL-STD-130, EASA Part 21 Subpart Q, ATA SPEC2000, SAE, NASA, UID, JES, RRES and SAE International AS9132. 

      Some of these standards encompass various requirements for parts:

      • HR (Hardness Rating): the marking must not create points of weakening or excessive wear.
      • Mechanical resistance: the marking must not affect the tensile, compressive, fatigue, or corrosion resistance of the part.
      • Weight and material density: the marking must not significantly modify the part weight or affect its density.

      Other standards focus on the aerospace part marking quality to ensure reliable proofreading, such as the AIM-DPM standard.  

      Contact us to learn more