{"id":94358,"date":"2026-05-18T17:07:51","date_gmt":"2026-05-18T17:07:51","guid":{"rendered":"https:\/\/teeptrak.com\/aerospace-as9100-mes-implementation-2027\/"},"modified":"2026-06-08T13:24:21","modified_gmt":"2026-06-08T13:24:21","slug":"aerospace-as9100-mes-implementation-2027","status":"publish","type":"post","link":"https:\/\/teeptrak.com\/en\/aerospace-as9100-mes-implementation-2027\/","title":{"rendered":"Aerospace AS9100 MES implementation 2027: configuration management, FAI, NADCAP, traceability"},"content":{"rendered":"
\nTL;DR \u2014 Aerospace AS9100 MES implementation in 60 words<\/strong>
\nAS9100D:2016 is the aerospace QMS standard (ISO 9001 + aerospace-specific). MES implementation 2027 must support: configuration management per unit (each unit), First Article Inspection (FAI) AS9102, NADCAP special processes traceability, AS9145 PPAP aerospace. Vendors: iBASEt Solumina (leader), Dassault Apriso, Siemens Opcenter Aerospace. Deployment 18-30 months, $3-15M typical for Tier 1.\n<\/div>\n

Aerospace and defense manufacturing operates under the most stringent quality requirements of any industrial sector: AS9100D:2016<\/strong> Quality Management System (mandatory for aviation, space, defense suppliers), NADCAP<\/strong> (National Aerospace and Defense Contractors Accreditation Program) for special processes, AS9102<\/strong> First Article Inspection (FAI), AS9145<\/strong> Advanced Product Quality Planning (APQP) aerospace, and OEM-specific requirements from Boeing, Airbus, Lockheed Martin, Raytheon, Northrop Grumman, GE Aerospace, Pratt & Whitney, Safran, Rolls-Royce. MES implementation in this environment requires configuration management each unit<\/strong> (each individual unit traced with full as-built record), depth far exceeding automotive Tier 1. This guide details AS9100D requirements, NADCAP integration, AS9102 FAI, AS9145 PPAP, leading MES vendors (iBASEt Solumina, Dassault Apriso, Siemens Opcenter Aerospace), and deployment patterns for Boeing 787 \/ Airbus A350 \/ military programs.<\/p>\n

AS9100D:2016 quality management system framework<\/h2>\n

AS9100D:2016<\/strong> (Rev D, equivalent EN 9100:2018 in Europe and JISQ 9100:2016 in Japan) is the aviation, space and defense quality management system standard. Built on ISO 9001:2015 with 100+ aerospace-specific requirements added. Key requirements impacting MES:<\/p>\n

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  • Clause 8.1.1<\/strong>: Operational Risk Management \u2014 risk-based approach to manufacturing processes<\/li>\n
  • Clause 8.1.2<\/strong>: Configuration Management \u2014 control of product configuration each unit through lifecycle<\/li>\n
  • Clause 8.1.3<\/strong>: Product Safety \u2014 safety considerations integrated in design and production<\/li>\n
  • Clause 8.1.4<\/strong>: Prevention of Counterfeit Parts \u2014 supplier chain controls + verification<\/li>\n
  • Clause 8.4.3<\/strong>: Information for External Providers \u2014 flow-down of requirements to suppliers<\/li>\n
  • Clause 8.5.1.2<\/strong>: Production Documentation \u2014 detailed work instructions, control plans<\/li>\n
  • Clause 8.5.1.3<\/strong>: Control of Production Process Changes \u2014 formal change control<\/li>\n
  • Clause 8.5.2<\/strong>: Identification and Traceability \u2014 bidirectional traceability raw material to finished product<\/li>\n
  • Clause 8.5.3<\/strong>: Property Belonging to Customers or External Providers \u2014 control of customer-furnished material<\/li>\n
  • Clause 8.5.4<\/strong>: Preservation \u2014 storage and handling protecting product<\/li>\n
  • Clause 9.1.1<\/strong>: Monitoring, Measurement, Analysis \u2014 KPIs including FPY (First Pass Yield), defect rates, escape rate<\/li>\n<\/ul>\n

    Configuration management: the core aerospace MES capability<\/h2>\n

    Aerospace differs fundamentally from automotive in configuration management each unit<\/strong>: every individual aircraft, engine, missile, satellite has a unique configuration record traceable through lifecycle (manufacture \u2192 service \u2192 repair \u2192 retirement \u2192 recycle). The MES must support:<\/p>\n

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    • Configuration baseline<\/strong>: agreed-upon initial configuration (Type Certificate, Production Certificate)<\/li>\n
    • Configuration change management<\/strong>: ECP (Engineering Change Proposal), ECO (Engineering Change Order), formal approval flow<\/li>\n
    • As-Designed (AsD)<\/strong>: engineering definition (CAD, drawings, specifications)<\/li>\n
    • As-Planned (AsP)<\/strong>: planned production process (routing, BOM, work instructions)<\/li>\n
    • As-Built (AsB)<\/strong>: actual built record per unit (serial numbers each component, deviations, repairs, inspections)<\/li>\n
    • As-Maintained (AsM)<\/strong>: service history (in-service modifications, repairs, life-limited parts)<\/li>\n<\/ul>\n

      Concrete example: a Boeing 787 has approximately 6 million individual parts, each potentially with unique serial number and traceability requirements. The MES must record which specific part (by serial number) was installed at which station, which operator, which torque value, which inspection result, etc. Multiply across 100,000+ deliveries (commercial + military aviation globally) and the data scale becomes massive.<\/p>\n

      NADCAP special processes<\/h2>\n

      NADCAP<\/strong> (National Aerospace and Defense Contractors Accreditation Program, administered by PRI – Performance Review Institute) accredits suppliers performing aerospace special processes \u2014 processes where output cannot be fully verified by inspection alone. Major NADCAP categories:<\/p>\n

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      • AC7108<\/strong>: Chemical Processing (anodizing, plating, etching, passivation)<\/li>\n
      • AC7110<\/strong>: Heat Treating (annealing, hardening, tempering, stress relief)<\/li>\n
      • AC7114<\/strong>: Coatings (paint, primer, organic coatings)<\/li>\n
      • AC7116<\/strong>: Non-conventional Machining and Surface Enhancement<\/li>\n
      • AC7118<\/strong>: Composites (layup, autoclave, NDI)<\/li>\n
      • AC7119<\/strong>: Surface Enhancement (peening, polishing)<\/li>\n
      • AC7126<\/strong>: Aerospace Quality System \/ AS9100 audit<\/li>\n
      • AC7130<\/strong>: Conventional Machining as a Special Process<\/li>\n
      • AC7141<\/strong>: Material Test Laboratories<\/li>\n
      • AC7142<\/strong>: Non-destructive Testing (X-ray, ultrasonic, magnetic particle, dye penetrant)<\/li>\n
      • AC7146<\/strong>: Welding<\/li>\n
      • AC7150<\/strong>: Sealants<\/li>\n
      • AC7200<\/strong>: Composites (additional)<\/li>\n<\/ul>\n

        MES implications: traceability per NADCAP-accredited process step (operator, equipment, parameters, environmental conditions), audit-ready records, integration with NADCAP audit cycles (typically every 12-24 months).<\/p>\n

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