Senior Composite Engineer (SME1)

Amentum • Full-time • Huntsville • 2h ago

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Position Overview

A highly experienced composite structures expert responsible for supporting NASA Marshall Space Flight Center (MSFC) programs through leading advanced composite design and development activities for launch vehicle and propulsion systems. This contractor position provides technical leadership across mission-critical projects and serves as a subject matter expert (SME) for composite materials and structures in extreme aerospace environments. This role requires deep technical expertise in space-qualified composites, strategic thinking, and the ability to drive innovation in next-generation launch and propulsion systems while ensuring compliance with MSFC and NASA standards. Must be a US citizen and have a STAR ID.

Key Responsibilities

Technical Leadership:

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 structure, such as 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 the most 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

Strategic Design and Analysis:

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

Program and Technical Management:

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

Manufacturing and Production Excellence:

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

Standards, Requirements, and Mission Assurance:

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

Mentorship, Collaboration, and Knowledge Management:

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

Required Qualifications

Education:

Bachelor's degree in Aerospace Engineering, Mechanical Engineering, Materials Science, or related field from an ABET-accredited program
Master's degree or PhD strongly preferred

Experience:

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
Experience supporting large-scale launch vehicle development programs strongly preferred

Technical Expertise:

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

Essential Functions

Work Environment:

Office environment. Requires ability to provide clear, concise, accurate and timely communication, both verbally and in writing (100%). Requires ability to interact professionally with co-workers, management, and client (100%). Requires travel in the domestic USA (5%). Requires ability to work at a computer for long periods of time (100%).

Physical Requirements:

Requires sitting for extended periods of time in meetings with peers, management, and with our client at NASA facilities to discuss technical issues (10%). Also, requires sitting for extended periods of time at a desk to write reports and perform engineering tasks (80%). Requires ability to use stairs or elevators for access between floors and multiple buildings at NASA and our facilities (10%).

Equipment and Machines:

Requires ability to operate a personal computer, a telephone, fax machine, copier, calculator, and other general office equipment (100%).

Attendance:

Normal workday 7:30-4:30, Monday thru Friday. Minimal overtime may be required (10%) to meet schedule milestones and to support technical demands of the job. Regular attendance is a necessity, and adequate arrangements for delegating duties during absences are required.

Other Essential Functions:

The ability to work independently with minimal supervision, and to make rational decisions, and to exercise good judgment is essential (100%). Grooming and dress must be appropriate for the position and must not impose a safety risk/hazard to the employee or others.

Proof of U.S. Citizenship is required.

#ESSCA #ASED #Amentum

Compensation Details:

SME1

The compensation range or hourly rate listed for this position is provided as a good-faith estimate of what the company intends to offer for this role at the time this posting was issued. Actual compensation may vary based on factors such as job responsibilities, education, experience, skills, internal equity, market data, applicable collective bargaining agreements, and relevant laws.

Benefits Overview:

Our health and welfare benefits are designed to support you and your priorities. Offerings include:

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

Note: Benefits may vary based on employment type, location, and applicable agreements. Positions governed by a Collective Bargaining Agreement (CBA), the McNamara-O'Hara Service Contract Act (SCA), or other employment contracts may include different provisions/benefits.

Original Posting:

06/05/2026 - Until Filled

Amentum anticipates this job requisition will remain open for at least three days, with a closing date no earlier than three days after the original posting. This timeline may change based on business needs.

Amentum is proud to be an Equal Opportunity Employer. Our hiring practices provide equal opportunity for employment without regard to race, sex, sexual orientation, pregnancy (including pregnancy, childbirth, breastfeeding, or medical conditions related to pregnancy, childbirth, or breastfeeding), age, ancestry, United States military or veteran status, color, religion, creed, marital or domestic partner status, medical condition, genetic information, national origin, citizenship status, low-income status, or mental or physical disability so long as the essential functions of the job can be performed with or without reasonable accommodation, or any other protected category under federal, state, or local law. Learn more about your rights under Federal laws and supplemental language at Labor Laws Posters.