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Project Engineer Tooling Jobs (NOW HIRING)

Job Title: Project Engineer The Project Engineer leads new product development and launch ... Support tooling tryouts, process validation, and production launch activities for molding and ...

Job Title: Project Engineer The Project Engineer leads new product development and launch ... Support tooling tryouts, process validation, and production launch activities for molding and ...

This position will work closely with members of the Quality Assurance, Manufacturing, Tooling, Materials Science and Process Engineering teams to deliver projects to help achieve organizational goals.

This position will work closely with members of the Quality Assurance, Manufacturing, Tooling, Materials Science and Process Engineering teams to deliver projects to help achieve organizational goals.

Senior Project Engineer

Milwaukee, WI ยท On-site

$102K - $133K/yr

Work with project managers, product development engineers, tooling engineers, process engineers ... automation, quality, and others to ensure success. * Quoting assistance. Support product management ...

This role combines engineering and project management responsibilities across product design, tooling development, process validation, customer coordination, and launch execution. The ideal candidate ...

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Project Engineer Tooling information

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$54K

$110K

$163.5K

How much do project engineer tooling jobs pay per year?

As of Jul 9, 2026, the average yearly pay for project engineer tooling in the United States is $109,987.00, according to ZipRecruiter salary data. Most workers in this role earn between $83,000.00 and $123,000.00 per year, depending on experience, location, and employer.

What is the difference between Project Engineer Tooling vs Manufacturing Engineer?

AspectProject Engineer ToolingManufacturing Engineer
CredentialsBachelor's in Engineering, certifications in tooling or manufacturingBachelor's in Mechanical, Industrial, or Manufacturing Engineering
Work EnvironmentDesign, develop, and implement tooling solutions in manufacturing settingsOptimize manufacturing processes, improve production efficiency
Employer & Industry UsageAutomotive, aerospace, consumer electronics manufacturingMass production industries, factory settings

Project Engineer Tooling focuses on designing and implementing tooling solutions for manufacturing processes, while Manufacturing Engineers work on optimizing overall production efficiency. Both roles require engineering backgrounds and are integral to manufacturing industries, but their specific responsibilities differ.

What are the key skills and qualifications needed to thrive as a Project Engineer Tooling, and why are they important?

To thrive as a Project Engineer Tooling, you need a solid background in mechanical engineering or a related field, experience in tooling design, and knowledge of manufacturing processes. Familiarity with CAD software (such as SolidWorks or AutoCAD), project management tools, and industry-specific standards or certifications (like Six Sigma or PMP) is typically required. Strong problem-solving, communication, and organizational skills help you collaborate effectively and manage complex projects. These skills ensure efficient tooling development, on-time project delivery, and seamless coordination between engineering, production, and quality teams.

What does a Project Engineer Tooling do?

A Project Engineer Tooling is responsible for designing, developing, and managing the tools, molds, and fixtures required for manufacturing processes. They coordinate projects from conception through production, ensuring tooling meets quality, cost, and timeline requirements. Their duties often include collaborating with design teams, suppliers, and production staff to optimize tool performance and address technical challenges. Project Engineer Tooling professionals play a key role in ensuring efficient and reliable manufacturing operations.

What are the typical challenges faced by a Project Engineer Tooling during the launch of a new manufacturing tool?

A Project Engineer Tooling often encounters challenges such as managing tight deadlines, ensuring precise tool specifications, and coordinating with cross-functional teams like design, production, and quality assurance. During new tool launches, unexpected technical issues or delays from suppliers can arise, requiring quick problem-solving and effective communication. Successfully navigating these challenges involves strong project management skills, adaptability, and the ability to collaborate closely with both internal teams and external vendors.
More about Project Engineer Tooling jobs
What cities are hiring for Project Engineer Tooling jobs? Cities with the most Project Engineer Tooling job openings:
What states have the most Project Engineer Tooling jobs? States with the most job openings for Project Engineer Tooling jobs include:
Principal Mechanical Engineer, Tooling

Principal Mechanical Engineer, Tooling

Relativity Space

Long Beach, CA โ€ข On-site

Other

Re-posted 27 days ago


Job description

About the Team:ย 

The Tooling and Factory Automation team sits at the intersection of design, manufacturing, and automation, making everything from large-scale structural fixtures to small tools that directly enable Terran R's production. As a design group embedded within the manufacturing organization, we dig deep into the needs of our internal partners to understand root problems, propose solutions, and deliver hardware to help build faster, scale smarter, and work better. The team is also at the forefront of Relativity's growing factory automation efforts, an increasingly critical part of scaling production of Terran R at existing and future facilities. You'll have the autonomy to make decisions, field solutions, and see them in action on the factory floor. Ultimately, you're not just designing tools or automated processes; you're defining how rockets and factories get built.

About the Role:

The Mechanical Design Engineers are responsible for the design and development of tools and factory automation equipment that support manufacturing. The Mechanical Engineering team works closely with Design and Manufacturing, turning top-level requirements and concepts into functional delivered equipment. The Mechanical Design Engineering team brings a high level of innovation and ingenuity into the design process, as they are tasked with building out a highly automated production facility.ย 

  • Develop high quality development and production tooling and automation solutions for the Terran vehicle and Aeon engine programs
  • Capable of integrating concepts and principles of mechanical design and analysis of several different projects in a fast-paced environment - projects will vary in size and scale
  • Ability to interpret and apply sound design and drafting standards (ASME Y14.5) in creating tooling drawing definitions
  • Handle a wide range of technical problems and familiar with all types of material handling, assembly fixtures, off-loaders, rotisseries, test fixtures, structural weldments, environmental chambers, and custom machines
  • Close collaboration with component designers, manufacturing engineers, and integration engineering to achieve the best possible cradle to grave metrics (safety, cost, quality, cycle time, delivery, reliability, life, and maintenance/refurbishment)
  • Manage projects including vendor selection, fabrication, inspection, equipment installation, and commissioning of toolingย 

About You:ย ย 

  • Bachelor of Science degree in manufacturing engineering, mechanical engineering or equivalentย 
  • 15+ years of work or project experience with design, build, and commissioning of tooling and fixtures for manufacturing, assembly and testย 
  • Experience using CAD and FEA-based analysis software (NX and ANSYS Workbench preferred) for structural applicationsย 
  • Experience in full-cycle project completionย 
  • Experience in strategic buildout and project management of tooling supporting productionย 

Nice to haves but not required:ย ย 

  • Strong expertise in design for manufacturability and design for assembly including experience taking products from prototype design to production
  • Solid understanding of common manufacturing materials, GD&T, and tolerance/stack-up analysis
  • Solid understanding of common manufacturing processes and machines including mills, lathes, welding, sheet-metal bending, lifting/rigging, assembly, inspection, etc.
  • Experience with custom machine design: motors, actuators, linear rails/actuators, pneumatics, bearings, etc.