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Director Additive Manufacturing Engineer Jobs (NOW HIRING)

$93K - $127K/yr

Job Title: Sr. Associate, Additive Manufacturing Engineer Job ID: 40294 Job Location: Canoga Park, CA Job Schedule: 9/80: Employees work 9 out of every 14 days - totaling 80 hours worked - and have ...

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Director Additive Manufacturing Engineer information

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$73K

$194.7K

$254K

How much do director additive manufacturing engineer jobs pay per year?

As of Jul 17, 2026, the average yearly pay for director additive manufacturing engineer in the United States is $194,709.00, according to ZipRecruiter salary data. Most workers in this role earn between $141,500.00 and $253,000.00 per year, depending on experience, location, and employer.

What are the key skills and qualifications needed to thrive as a Director Additive Manufacturing Engineer, and why are they important?

To excel as a Director Additive Manufacturing Engineer, you need deep expertise in materials science, mechanical engineering, and additive manufacturing processes, typically backed by an advanced engineering degree and significant industry experience. Familiarity with CAD software, simulation tools, 3D printing hardware, and certifications like Six Sigma or ASME Additive Manufacturing standards are highly valued. Strategic leadership, project management, and strong communication skills distinguish top performers in directing multidisciplinary teams and driving innovation. These competencies are crucial for effectively leading complex manufacturing projects, ensuring product quality, and advancing organizational goals in a rapidly evolving field.

What does a Director Additive Manufacturing Engineer do?

A Director Additive Manufacturing Engineer leads and oversees the development, implementation, and optimization of additive manufacturing (3D printing) processes within an organization. They are responsible for managing teams, setting strategic direction, and ensuring that advanced manufacturing technologies align with business goals. This role often involves collaborating with R&D, production, and quality assurance departments to drive innovation, improve efficiency, and support new product development. Additionally, they stay updated on industry trends and ensure compliance with safety and regulatory standards.

What is the difference between Director Additive Manufacturing Engineer vs Additive Manufacturing Engineer?

AspectDirector Additive Manufacturing EngineerAdditive Manufacturing Engineer
CredentialsBachelor's or Master's in Engineering, often with leadership experienceBachelor's or Master's in Engineering or related field
Work EnvironmentStrategic planning, team leadership, cross-department collaborationDesign, develop, and optimize additive manufacturing processes
Employer & Industry UsageManufacturing firms, R&D departments, corporate leadershipManufacturing companies, prototyping labs, R&D teams

The main difference is that the Director Additive Manufacturing Engineer focuses on strategic oversight, leadership, and high-level project management, while the Additive Manufacturing Engineer is more involved in technical development, process optimization, and hands-on engineering tasks. Both roles require relevant technical credentials, but the director position emphasizes leadership and strategic planning within the additive manufacturing industry.

How does a Director Additive Manufacturing Engineer typically collaborate with cross-functional teams to drive innovation?

As a Director Additive Manufacturing Engineer, you will regularly work with R&D, product development, and operations teams to integrate additive manufacturing solutions into new and existing products. Collaboration involves leading technical discussions, aligning project goals, and ensuring that additive manufacturing processes meet both engineering requirements and business objectives. You’ll also mentor engineering teams, facilitate knowledge sharing, and represent the department in strategic planning meetings, making strong communication and leadership skills essential for success.
More about Director Additive Manufacturing Engineer jobs
What cities are hiring for Director Additive Manufacturing Engineer jobs? Cities with the most Director Additive Manufacturing Engineer job openings:
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What states have the most Director Additive Manufacturing Engineer jobs? States with the most job openings for Director Additive Manufacturing Engineer jobs include:
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Infographic showing various Director Additive Manufacturing Engineer job openings in the United States as of July 2026, with employment types broken down into 3% Locum Tenens, 83% Full Time, 4% Part Time, 2% Contract, 1% Nights, and 7% Summer. Highlights an 96% Physical, 1% Hybrid, and 3% Remote job distribution, with an average salary of $194,709 per year, or $93.6 per hour.
Additive Manufacturing Engineer II, PBF

Additive Manufacturing Engineer II, PBF

Relativity Space

Long Beach, CA

$76K - $98K/yr

Other

Posted 8 days ago


Job description

About the Team: 

The Powder Bed Fusion Additive Manufacturing team is pushing the boundaries of what's possible in rocket propulsion hardware. Responsible for development, process, and production, the team oversees initial concept to final hardware with rigorous quality and precision. From developing print parameters on state-of-the-art 3D printers to enabling fast iteration for partner departments, the team plays a critical role in taking engine designs from concept to hot fire. The team was instrumental in producing Aeon 1 engines for Terran 1 launch and is now pioneering next-generation processes and designs for our Aeon R engines that will power Terran R. With flight hardware production scaling up rapidly, now is the time to join and make a direct impact.

About the Role:

  • Own build preparation, print programming strategy, manufacturing planning, and technical execution for assigned PBF hardware or product groups
  • Provide feedback to design team on printability, DfAM improvements, part consolidation opportunities, and manufacturability trade-offs
  • Develop and maintain controlled PBF process documentation, build standards, work instructions, verification plans, and engineering decision records
  • Partner with materials engineering to understand qualification requirements, proposed process changes, and the evidence needed to verify and release those changes
  • Lead nonconformance investigations for assigned hardware, including data review, root-cause hypotheses, risk assessment, corrective action recommendations, and clear technical summaries
  • Identify recurring NCs and implement preventive actions in collaboration with process engineering, quality, and design
  • Coordinate with PBF process engineering, machine owners, inspection, quality, design, post-processing, machining, and program teams to remove blockers and protect hardware delivery
  • Evaluate process changes involving parameters, scan strategy, support design, build layout, powder state, machine configuration, heat treatment, depowdering, or inspection criteria
  • Use production and quality data to identify trends such as material failures, machine errors, queue bottlenecks, and documentation gaps
  • Create dashboards, checklists, templates, or standard work that improve team throughput, quality, and reproducibility
  • Mentor interns or newer engineers in PBF fundamentals, documentation quality, problem solving, and cross-functional communication
  • Represent PBF Development Engineering in technical reviews, risk discussions, readiness reviews, and partner-team meetings

About You:

  • Bachelor's degree in Mechanical Engineering, Materials Science, Manufacturing Engineering, Aerospace Engineering, or related field
  • 2+ years in metal additive manufacturing, manufacturing engineering, aerospace hardware, materials/process engineering, or related fields (full time industry experience)
  • Working knowledge of LPBF process variables, build preparation, support strategy, inspection, heat treatment, nonconformance processes, and configuration control
  • Proficiency with LPBF additive manufacturing of metallic materials and understanding of DfAM fundamentals
  • Hands-on experience with work orders, work instruction creation, and non-conformance resolution
  • Experience with AM tools such as EOSprint, Magics, 3dxpert, Flow, and CAD tools such as Siemens NX (preferred) or Solidworks
  • Comfort working with production data, quality records, engineering drawings, specifications, and ambiguous technical constraints

Nice to haves but not required:  

  • Experience owning additive manufacturing products through the AM lifecycle (work orders, non conformances, etc.); through machining and further post processing
  • Experience with metal powder handling, tensile testing, metallography, CT/inspection data analysis, or aerospace qualification programs
  • Experience writing or revising process specifications, qualification plans, acceptance criteria, change-control packages, or AS9100-aligned documentation
  • Experience using Jira, MES/ERP systems, Power BI, Tableau, Python, Minitab, or other tools for workflow management and technical data analysis