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Additive Jobs in Florida (NOW HIRING)

The Additive Manufacturing Technician Apprentice will support the setup, operation, and maintenance of additive manufacturing equipment, including metal 3D printers and post-processing tools. This ...

The Additive Manufacturing Technician Apprentice will support the setup, operation, and maintenance of additive manufacturing equipment, including metal 3D printers and post-processing tools. This ...

ATI in Margate, FL is looking for an Additive Manufacturing Technician to join our team! This is an onsite, day shift position typically working Monday - Friday. The primary purpose of this job is to ...

ATI in Margate, FL is looking for an Additive Manufacturing Technician to join our team! This is an onsite, day shift position typically working Monday - Friday. The primary purpose of this job is to ...

ATI in Margate, FL is looking for an Additive Manufacturing Technician to join our team! This is an onsite, day shift position typically working Monday - Friday. The primary purpose of this job is to ...

Join Schaeffer Oil -- a trusted American-made brand with over 185+ years of proven performance in the lubricants and fuel additives industry. We're looking for experienced, self-motivated sales reps ...

Join Schaeffer Oil -- a trusted American-made brand with over 185+ years of proven performance in the lubricants and fuel additives industry. We're looking for experienced, self-motivated sales reps ...

Join Schaeffer Oil -- a trusted American-made brand with over 185+ years of proven performance in the lubricants and fuel additives industry. We're looking for experienced, self-motivated sales reps ...

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Additive information

What are additive manufacturing engineers?

Additive manufacturing engineers are professionals who specialize in the design, development, and optimization of products using additive manufacturing processes, commonly known as 3D printing. They work with advanced technologies to build objects layer by layer from digital models, using materials like plastics, metals, and composites. Their responsibilities include selecting suitable materials, choosing appropriate printing methods, ensuring quality control, and improving production efficiency. Additive manufacturing engineers are employed in industries such as aerospace, automotive, healthcare, and consumer goods, where they help innovate and streamline manufacturing processes.

What are some common challenges faced by professionals in additive manufacturing roles, and how can they be addressed?

Professionals in additive manufacturing often face challenges related to material consistency, equipment maintenance, and ensuring quality control of printed parts. Staying up to date with rapidly evolving technologies and adapting to new software or hardware can also be demanding. These challenges can be addressed through ongoing training, collaborating closely with engineering and quality assurance teams, and participating in industry forums to share best practices and solutions.

What is the difference between Additive vs CNC Machinist?

AspectAdditiveCNC Machinist
Required CredentialsTypically requires certifications in additive manufacturing or 3D printingRequires certifications in CNC programming and machining
Work EnvironmentOften in labs or manufacturing facilities focused on 3D printingIn machine shops or manufacturing plants operating CNC machines
Industry UsageUsed in aerospace, healthcare, and prototyping sectorsCommon in automotive, aerospace, and manufacturing industries
Common Search/ComparisonOften compared for manufacturing methods and skillsCompared for precision machining and programming skills

While both Additive and CNC Machinist roles are involved in manufacturing, Additive focuses on 3D printing techniques, whereas CNC Machinists operate computer-controlled machines for subtractive manufacturing. Understanding these differences helps in choosing the right career path or job focus within manufacturing industries.

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

To thrive as an Additive Manufacturing Engineer, you need a solid background in mechanical engineering, materials science, and 3D modeling, often supported by a relevant engineering degree. Familiarity with CAD software, 3D printing systems (such as FDM, SLS, or SLA), and certification in additive manufacturing technologies is typically expected. Strong problem-solving abilities, attention to detail, and effective teamwork help individuals excel in this role. These skills are crucial for ensuring the efficient design, prototyping, and production of high-quality components using advanced manufacturing techniques.

UAS Chief Engineer- Additive Manufacturing

AEVEX

Tampa, FL

Other

Re-posted 19 days ago


Job description

The UAS Chief Engineer provides technical leadership, strategic direction, and execution oversight for the design, development, integration, and sustainment of advanced additively manufacturing unmanned systems. This role is responsible for end-to-end system engineering across air, ground, maritime, and/or multi-domain unmanned platforms, ensuring mission effectiveness, survivability, cybersecurity resilience, and compliance with applicable defense standards and regulations. The Chief Engineer serves as the primary technical authority for their assigned platform or product area, guiding cross-functional engineering teams, aligning technical roadmaps with customer requirements, and ensuring delivery of high-performance, secure, and reliable systems within cost and schedule constraints. This position works closely with government stakeholders, program management, operations, and executive leadership.

Essential Functions

  • Provide overall technical leadership for additive manufactured unmanned system development programs, from concept through deployment and sustainment.
  • Serve as the technical authority for system architecture, design trade studies, integration strategies, and risk management.
  • Research and drive advancements in designs centered around additive manufacturing of UAS across the portfolio
  • Lead system engineering processes including requirements development, decomposition, verification, validation, and configuration management.
  • Oversee multidisciplinary engineering teams (mechanical, electrical, software, controls, AI/ML, autonomy, communications, cybersecurity, and systems engineering).
  • Develop and maintain technical roadmaps aligned with defense customer needs and emerging operational requirements.
  • Ensure compliance with applicable DoD standards, MIL-STDs, airworthiness/safety certifications, cybersecurity frameworks (e.g., RMF), and export regulations (e.g., ITAR/EAR).
  • Direct integration of autonomy, navigation, sensors, communications, propulsion, and payload systems into cohesive, mission-ready platforms.
  • Lead major technical reviews (SRR, PDR, CDR, TRR, PRR), ensuring readiness and program maturity at each phase.
  • Identify, assess, and mitigate technical risks related to reliability, survivability, resilience, and mission performance.
  • Support proposal development, customer briefings, and technical strategy discussions with government and defense partners.
  • Foster innovation in autonomy, AI-enabled decision-making, resilient communications, and human-machine teaming.
  • Mentor senior engineering staff and establish best practices in additive manufacturing, systems engineering, and product development.
  • Perform other duties as assigned.

Standard Essential Functions

  • Regular and reliable attendance on a full time basis [or in accordance with posted schedule].
  • Responsible for exhibiting professional behavior with both internal and external business associates that reflects positively on the company and is consistent with the company's policies and practices.
  • Embodies AEVEX's cultural values and aligns daily actions with department goals and company culture.

Qualifications and Competencies

  • Security Clearance-Ability to obtain/maintain a Top Secret/SCI DoD clearance, U.S. Citizenship required.
  • Demonstrated expertise in complex systems engineering for unmanned or autonomous defense systems.
  • Extensive knowledge in additive manufacturing of UAS systems; composites, polymers, metals.
  • Strong working knowledge of DfX principles; Design for Manufacturability, Procurement, Testability, Modularity, Cost.
  • Strong knowledge of platform integration across hardware, embedded systems, software, autonomy, and communications.
  • Proven ability to lead large, multidisciplinary technical teams in a regulated defense environment.
  • Deep understanding of systems architecture, model-based systems engineering (MBSE), and lifecycle management.
  • Familiarity with defense acquisition processes and government contracting environments.
  • Working knowledge of cybersecurity requirements for defense systems, including secure communications and resilient architectures.
  • Exceptional analytical, problem-solving, and decision-making skills.
  • Strong written and verbal communication skills, with experience presenting to senior defense stakeholders.
  • Understand of supply chain as it relates to autonomous systems development, rapid production scaling and design for manufacturing.

Education / Certifications

  • Bachelor's degree in Aerospace Engineering, Electrical Engineering, Mechanical Engineering, Systems Engineering, Computer Engineering, or a related technical field required.
  • Master's degree in Engineering, Systems Engineering, Robotics, Computer Science, or related field preferred.

Experience

  • 15+ years of progressive engineering experience in defense, aerospace, robotics, or autonomous systems development.
  • 10+ years of experience with progressive technical experience in engineering roles, with a proven track record of technical design and development
  • 7+ years in senior technical leadership roles (e.g., Lead Engineer, Chief Engineer, Technical Director, or equivalent).
  • 7+ years in senior technical engineering roles centered around additive manufacturing principles, programs, and execution
  • Demonstrated experience leading at least one full lifecycle unmanned or autonomous system development program.
  • Experience interfacing directly with DoD customers, prime contractors, and/or government program offices.
  • Background in integrating sensors, navigation systems, propulsion systems, C2 systems, autonomy software, or mission payloads into operational platforms.
  • Experience with test and evaluation planning, field demonstrations, and operational deployment support.
  • Experience with manufacturing technologies that enable rapid development, test and demonstration of capabilities.
  • Experience with safety-critical systems and applicable certification standards.

Physical Requirements

The physical demands described here are representative of those that must be met by an employee to successfully perform the essential functions of this job. Reasonable accommodations may be made to enable individuals with disabilities to perform the essential functions. While performing the duties the employee is: Frequently required to sit, and to reach to use computers and other office equipment For the purpose of this summary, occasionally is used to represent up to 1/3 of the time given to the work day, frequently represents 1/3 to 2/3 of the time and constantly represents 2/3 or more of the time.