Senior Composite Engineer (SME1)

About The Position

Requirements

• Bachelor's degree in Aerospace Engineering, Mechanical Engineering, Materials Science, or related field from an ABET-accredited program.
• 15-20+ years of progressive experience in composite materials and structures, with significant aerospace/space systems experience.
• Proven track record of successfully leading complex composite programs for launch vehicle or propulsion applications.
• Extensive experience across the full mission lifecycle (concept, design, analysis, test, qualification, certification, flight operations).
• Deep hands-on experience with space-qualified composite manufacturing processes and materials.
• Experience leading technical teams, mentoring engineers, and managing subcontractor technical performance.
• Demonstrated experience supporting NASA programs, MSFC projects, or similar government spaceflight programs.
• Familiarity with MSFC systems engineering processes, mission assurance requirements, and technical authority structure.
• Expert-level knowledge of composite materials for space applications including: Space-qualified carbon fiber (IM7, T800, T1000, M55J, pitch fiber), aramid (Kevlar), and glass reinforcement systems; Epoxy (977-3, 5320, etc.), BMI, PETI, cyanate ester, and other space-grade resin systems; Sandwich structures with aluminum honeycomb, Nomex, and foam cores; Ceramic matrix composites (CMCs) for high-temperature applications; Material behavior in space and launch environments (outgassing per ASTM E595, thermal cycling, vibration, acoustic, humidity); Cryogenic composite applications (LOX/LH2 compatibility, coefficient of thermal expansion management).
• Mastery of composite design principles: Complex laminate design and optimization for launch vehicle and propulsion loads; Joint design including mechanical fasteners, bonded joints, co-curing, and co-bonding; Damage tolerance, fracture control, and flaw growth analysis per MSFC-STD-3012 and NASA-STD-5019; Design for extreme thermal environments and thermal-structural coupling; Large-scale composite structures (diameters >5m for interstages, fairings, tank structures); Pressure vessel design (composite overwrapped pressure vessels - COPVs); Lightning strike protection per ARP 5412 and ARP 5414; Impact damage (MMOD, hail, handling damage) and environmental protection.
• Advanced analysis capabilities: Non-linear FEA and progressive failure analysis (Hashin, Puck, LaRC failure criteria); Fatigue, fracture mechanics, and long-duration mission life prediction per CMH-17; Coupled thermal-structural-dynamic analysis for launch vehicle environments; Probabilistic analysis and uncertainty quantification; Multi-scale modeling from constituent to structural level (micromechanics to macromechanics); Test-analysis correlation and model validation/updating; Buckling and post-buckling analysis of thin-walled composite structures.
• Comprehensive manufacturing knowledge: Hand layup, autoclave, and out-of-autoclave (OOA) processes; Automated fiber placement (AFP) and automated tape laying (ATL); Resin transfer molding (RTM), VARTM, and vacuum infusion processes; Prepreg systems (unidirectional tape, fabric, tow-preg); Filament winding for pressure vessels and cylindrical structures (launch vehicle cases, COPVs); Thermoplastic composites and in-situ consolidation; Tooling design for large-scale composite structures; Quality control, NDI/NDE methods per ASTM standards: Ultrasonic inspection (pulse-echo, through-transmission, phased array); Thermography (flash, lock-in); X-ray computed tomography (CT); Acoustic emission, shearography; Environmental testing (thermal cycling, vibration per GEVS, acoustic per NASA-HDBK-7004, MMOD/hypervelocity impact); Process development and qualification per ASTM D4762, ASTM D5687.
• Software proficiency: Advanced CAD (CATIA V5/V6, NX/Unigraphics, SolidWorks, or equivalent); FEA tools (ANSYS, Abaqus, MSC Nastran, LS-DYNA, COMSOL); Composite-specific software: HyperSizer (sizing and optimization), Fibersim (composite design and manufacturing), ESAComp (laminate analysis), GENOA (progressive failure analysis), Helius PFA (material modeling), MAC/GMC (micromechanics); Programming/scripting (Python, MATLAB, Fortran) for custom analysis tools and automation; Requirements management tools (DOORS, Jama, Cradle); Configuration management and PLM systems (Windchill, Teamcenter).
• Industry standards expertise: CMH-17 (Composite Materials Handbook) - comprehensive knowledge of all volumes; ASTM standards for composites: D3039 (tensile), D3410 (compression), D3518 (shear), D5528 (Mode I fracture), D6264/D7136 (impact), D7137 (CAI - compression after impact), D2344 (short beam shear), D5379 (V-notched shear), E595 (outgassing), D5687 (process qualification); SACMA Recommended Methods (SRM); ARP standards: ARP 5412 (aircraft lightning test methods), ARP 5414 (aircraft lightning zoning), ARP 4761 (safety assessment); MIL-HDBK-17 (legacy composite design handbook); AGATE (Advanced General Aviation Transport Experiments) methodologies; AS9100 quality management system requirements; ISO standards for quality and environmental management.
• MSFC and NASA standards knowledge: NPR 7120 series (Systems Engineering Processes), NPR 7123 (Systems Engineering Processes and Requirements), NASA-STD-5001 (Structural Design and Test Factors of Safety), NASA-STD-5019 (Fracture Control Requirements), MSFC-STD-3012 (Stress Analysis and Fracture Control), NASA-STD-6016 (Standard Materials and Processes Requirements), MSFC-SPEC-250 (Polymeric Materials, Non-Metallic), NASA-HDBK-7004 (Buckling of Thin-Walled Circular Cylinders), MAPTIS (Materials and Processes Technical Information System) familiarity.
• Understanding of MSFC design and analysis practices.
• Must be a US citizen and have a STAR ID.

Nice To Haves

• Master's degree or PhD strongly preferred.
• Experience supporting large-scale launch vehicle development programs strongly preferred.

Responsibilities

• Serve as the technical authority and SME for composite materials, design, analysis, and manufacturing supporting MSFC programs.
• Lead the development of complex composite structures for spacecraft structures (primary and secondary), launch vehicles, propulsion systems, in-space stages, and lander systems.
• Define technical approaches and design philosophies for composite programs aligned with MSFC mission requirements.
• Drive innovation in composite materials, processes, and design methodologies for launch vehicle and propulsion applications.
• Resolve challenging composite technical issues across multiple MSFC programs and projects.
• Provide composite technical guidance and direction to engineering teams and subcontractors.
• Champion best practices, lessons learned, and continuous improvement across composite programs.
• Interface with MSFC civil servant engineers, technical authorities, program/project managers, and other contractor organizations at a senior technical level.
• Support MSFC technology development initiatives and advanced concepts studies.
• Lead design of highly complex composite structures for launch vehicle environments (ascent loads, acoustic, vibration, thermal, cryogenic).
• Perform and oversee advanced structural analysis including non-linear, damage tolerance, fracture mechanics, and long-duration mission life prediction.
• Develop novel composite solutions for challenging mission requirements: Cryogenic propellant tanks and tank structures, launch vehicle interstages, adapters, and fairings, deployable structures for in-space applications, composite cases for solid rocket motors, thermal protection and insulation systems, high-temperature propulsion component structures.
• Establish design criteria, requirements, and verification/validation approaches per MSFC systems engineering processes.
• Conduct trade studies involving multiple disciplines (structures, thermal, materials, propulsion, manufacturing).
• Validate designs through comprehensive analysis, environmental testing, and test-analysis correlation.
• Lead failure investigations and anomaly resolution with root cause analysis and corrective action implementation.
• Support technology readiness level (TRL) advancement activities from concept through TRL 9.
• Lead composite engineering activities for major MSFC programs including: Space Launch System (SLS), Human Landing System (HLS), In-Space Propulsion systems, Advanced propulsion concepts, Commercial crew/cargo vehicle support.
• Manage technical scope, schedules, budgets, and deliverables for composite work packages.
• Coordinate with systems engineering, loads/dynamics, materials engineering, manufacturing engineering, quality, and safety teams.
• Support proposal development for MSFC contracts with technical content, approaches, and cost estimates.
• Prepare and present technical reviews (PDR, CDR, TRR, FRR, etc.) to MSFC review boards and technical authorities.
• Participate in MSFC technical interchange meetings (TIMs), design working groups, and technical panels.
• Represent the contractor organization at technical conferences and industry forums.
• Ensure compliance with contract technical requirements and deliverables.
• Support Program/Project Control Board activities and change request evaluations.
• Lead development and qualification of advanced manufacturing processes for space-qualified composites.
• Oversee transition from technology development to flight production.
• Provide technical oversight of composite subcontractors and suppliers.
• Troubleshoot complex manufacturing issues and implement solutions.
• Develop manufacturing specifications, process controls, and acceptance criteria per MSFC quality standards.
• Review and approve first article inspection reports, manufacturing readiness reviews, and production readiness reviews.
• Champion cost reduction initiatives while maintaining mission assurance and flight safety.
• Support make-vs-buy decisions and source selection technical evaluation.
• Interface with MSFC Manufacturing Engineering Laboratory (MEL) for process development support.
• Lead verification and validation activities for composite structures per MSFC and NASA requirements.
• Ensure compliance with MSFC standards including: MSFC-STD-3012 (Stress Analysis and Fracture Control Requirements for Spaceflight Hardware), MSFC-SPEC-250 (Polymeric Materials, Non-Metallic), MSFC fracture control and damage tolerance requirements, MSFC design and analysis guidelines.
• Apply NASA standards: NASA-STD-5001 (Structural Design and Test Factors of Safety), NASA-STD-5019 (Fracture Control Requirements for Spaceflight Hardware), NASA-STD-6016 (Standard Materials and Processes Requirements for Spacecraft), NPR 7120 series (Systems Engineering Processes), NPR 7123 (Systems Engineering Processes and Requirements).
• Ensure compliance with industry composite standards: CMH-17 (Composite Materials Handbook), ASTM composite test standards, SACMA recommended methods, ARP, MIL-HDBK, and other applicable specifications.
• Support MSFC safety review processes and Safety Technical Review Boards (STRBs).
• Interface with MSFC Materials and Processes Laboratory for materials qualification support.
• Support Materials Review Board (MRB) and configuration control processes.
• Support certification of flight readiness for composite structures.
• Interface with NASA Engineering and Safety Center (NESC) during independent assessments.
• Mentor junior and mid-level engineers and contractor personnel in composite design and analysis.
• Develop internal training materials and conduct technical workshops.
• Build and develop composite engineering capabilities within the contractor organization.
• Foster collaboration with MSFC civil servants, other contractors, and university partners.
• Contribute to technical documentation, lessons learned databases, and design guidelines.
• Support knowledge capture and transfer for long-duration programs.
• Participate in professional society activities representing the contractor and MSFC community.

Benefits

• Health, dental, and vision insurance
• Paid time off and holidays
• Retirement benefits (including 401(k) matching)
• Educational reimbursement
• Parental leave
• Employee stock purchase plan
• Tax-saving options
• Disability and life insurance
• Pet insurance