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Additive Manufacturing Jobs in Portland, OR (NOW HIRING)

This role offers the opportunity to work on advanced structural and mechanical systems utilizing composites, metallic structures, additive manufacturing, and cutting-edge design methodologies. If you ...

Warehouse Associate - New Hire Bonus!

Canby, OR · On-site

$16.75 - $19.75/hr

... additive manufacturing post-processing, and turnkey production services that help customers eliminate risk, protect uptime, and maintain consistent quality. Our national footprint combines local ...

Mechanical Engineer II

Tualatin, OR · On-site

$98K - $110K/yr

Experience or understanding in additive manufacturing for prototyping and fixture manufacturing * Experience or understanding of hand tools and basic machine-shop equipment * Requires excellent ...

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Additive Manufacturing information

See Portland, OR salary details

$14

$26

$36

How much do additive manufacturing jobs pay per hour?

As of Jul 14, 2026, the average hourly pay for additive manufacturing in Portland, OR is $26.46, according to ZipRecruiter salary data. Most workers in this role earn between $21.39 and $30.58 per hour, depending on experience, location, and employer.

What is the difference between Additive Manufacturing vs CNC Machinist?

AspectAdditive ManufacturingCNC Machinist
CredentialsTypically requires technical training or certification in 3D printing technologiesRequires machining certifications or technical training in CNC operations
Work EnvironmentWorks in labs or manufacturing facilities with 3D printers and related equipmentWorks in machine shops or manufacturing plants operating CNC machines
Industry UsageUsed in prototyping, custom parts, and complex geometriesUsed for precision manufacturing of metal and plastic parts
Search & Comparison IntentOften compared for manufacturing processes involving digital fabricationCompared for traditional subtractive manufacturing skills

While both roles are involved in manufacturing, Additive Manufacturing focuses on building parts layer-by-layer using 3D printing technologies, whereas CNC Machinists operate subtractive machines to carve parts from raw materials. Understanding these differences helps in choosing the right career path or job search focus within the manufacturing industry.

What skills do you need for additive manufacturing?

Additive manufacturing professionals need strong technical skills in CAD software, 3D modeling, and familiarity with various 3D printing technologies such as FDM, SLA, or SLS. Knowledge of materials science, precision measurement, and post-processing techniques is also important, along with problem-solving abilities and attention to detail. Certifications in additive manufacturing or related fields can enhance job prospects.

Is additive manufacturing a good career?

Additive manufacturing is a growing field that involves designing and operating 3D printing equipment, often requiring skills in engineering, materials science, and computer-aided design. Careers in this area can offer opportunities in industries such as aerospace, healthcare, and automotive, with roles typically requiring technical training or certifications. The industry is expected to expand as technology advances, making it a viable career choice for those interested in innovative manufacturing processes.

How much do additive manufacturing technicians make?

Additive manufacturing technicians typically earn a median annual salary of around $50,000 to $60,000, depending on experience, location, and certifications. Skilled technicians familiar with 3D printing technologies and CAD software may earn higher wages, especially in advanced manufacturing environments.

What Is Additive Manufacturing?

Additive manufacturing (AM) is the process of creating products by adding material using one or more techniques. This is the opposite of subtractive manufacturing, which produces products by removing material. Many products are produced using a combination of these two techniques. To manufacture a plastic shape, you may use additive manufacturing to layer plastic materials then use subtractive manufacturing to cut and shape the plastic. In recent years, AM has started to focus on advanced techniques like 3D printing, where complex products are created layer by layer, using one or more materials. The main job in AM is that of an additive manufacturing engineer, although rapid prototyping may utilize this process to create a small model of a potential product.

What is additive manufacturing?

Additive manufacturing, often referred to as 3D printing, is a process of creating objects by adding material layer by layer, based on a digital model. Unlike traditional manufacturing methods that remove material from a solid block, additive manufacturing builds products directly from raw materials such as plastics, metals, or composites. This technology enables complex designs, rapid prototyping, and customization that would be difficult or impossible with conventional manufacturing processes.

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

To excel in Additive Manufacturing, a solid understanding of engineering principles, 3D modeling, and materials science is typically required, often supported by a degree in engineering or a related field. Familiarity with CAD software, 3D printers, and quality assurance systems, as well as certifications like SME Additive Manufacturing Certification, is highly beneficial. Strong problem-solving, attention to detail, and effective communication skills help professionals innovate and collaborate in dynamic production environments. These competencies are essential for ensuring precision, efficiency, and the successful implementation of advanced manufacturing technologies.

What are some typical challenges faced in an Additive Manufacturing role, and how can they be addressed?

Professionals in Additive Manufacturing often encounter challenges such as ensuring part quality, optimizing print parameters, and troubleshooting equipment malfunctions. Working closely with engineering teams and using advanced simulation software can help address issues related to design for additive processes. Regular calibration of machinery and staying updated on the latest material advancements are also key strategies for overcoming common hurdles. Collaboration and ongoing training play a significant role in maintaining production efficiency and quality standards.

What are the highest paying jobs in manufacturing?

In additive manufacturing, high-paying roles include additive manufacturing engineers, senior process engineers, and manufacturing managers, often requiring specialized skills in 3D printing technologies, CAD software, and quality control. These positions typically offer higher salaries due to technical expertise, experience, and leadership responsibilities within advanced manufacturing environments.
What are the most commonly searched types of Additive Manufacturing jobs in Portland, OR? The most popular types of Additive Manufacturing jobs in Portland, OR are:
What are popular job titles related to Additive Manufacturing jobs in Portland, OR? For Additive Manufacturing jobs in Portland, OR, the most frequently searched job titles are:
What job categories do people searching Additive Manufacturing jobs in Portland, OR look for? The top searched job categories for Additive Manufacturing jobs in Portland, OR are:
What cities near Portland, OR are hiring for Additive Manufacturing jobs? Cities near Portland, OR with the most Additive Manufacturing job openings:
Infographic showing various Additive Manufacturing job openings in Portland, OR as of July 2026, with employment types broken down into 93% Full Time, and 7% Contract. Highlights an 100% In-person job distribution, with an average salary of $55,029 per year, or $26.5 per hour.
Mechanical Engineer, Space Hardware (Early Career)

Mechanical Engineer, Space Hardware (Early Career)

IRPI

Wilsonville, OR • On-site

$85K - $115K/yr

Full-time

Medical, Dental, Retirement, PTO

This job post has expired today. Applications are no longer accepted.


Job description

IRPI is pioneering the hardware that sustains life and enables exploration beyond Earth.

We develop flight hardware for spacecraft, habitats, and suits-covering systems for CO removal, air revitalization, hydroponics, biological sample preparation, waste management, and fire safety. Our projects range from condensing heat exchangers and filtration systems to propellant management devices, lunar lander components, and advanced suit subsystems.

What sets IRPI apart is how we unite research, mechanical design, and fluid/thermal engineering to deliver robust, flight-ready systems. We rapidly turn bold concepts into tested hardware that expands the boundaries of human presence in space.

Your Mission

This role offers a rare opportunity to design, prototype, and test real spaceflight hardware at the start of your career. At IRPI, engineers contribute across the full lifecycle-from CAD and analysis to in-house additive manufacturing, lab validation, and production-on active NASA and commercial space programs. You'll collaborate with and learn from senior engineers with flight experience, gaining hands-on exposure that few early-career positions can match.

If you're driven by curiosity, precision, and the desire to see your designs fly, IRPI is where you can start building the future of space systems.

This position requires access to export-controlled technology. Only U.S. citizens or nationals are eligible. Applications will be accepted on an ongoing basis until the requisition is closed.

Key Responsibilities
  • Assist senior engineers with analysis, design, and trade studies for mechanical, thermal, and fluid systems.
  • Contribute ideas during whiteboard sessions and design reviews.
  • Create and revise SolidWorks parts, assemblies, and detailed drawings.
  • Maintain bills of materials and configuration control.
  • Operate additive manufacturing equipment and shop tools to fabricate prototypes and test fixtures.
  • Assemble test articles and assist in flight-hardware builds.
  • Instrument hardware, execute test procedures, and collect data for a variety of fluid-thermal systems.
  • Troubleshoot test setups and document deviations.
  • Process test data using Excel, MATLAB, or Python; generate clear plots and engineering conclusions.
  • Work closely with a variety of teams across NASA partners, commercial space operators, and suppliers.
  • Embrace feedback, and contribute to a culture of continuous improvement, high integrity, and excellence.

This role is ideal for early-career engineers who are hands-on, have a strong work ethic, are curious, and eager to develop full-lifecycle hardware skills while supporting real space missions.

Requirements

Minimum Qualifications
  • B.S. in Mechanical Engineering or related field
  • Solid grasp of design, heat-transfer, fluid mechanics, thermodynamics, and materials.
  • Proficiency in SolidWorks for parts, assemblies, and detailed drawings (or equivalent 3D CAD)
  • Demonstrated hands-on aptitude-prototype fabrication, testrig assembly, and use of common shop tool
  • Clear, concise technical writing and verbal communication skills
Preferred Qualifications
  • M.S. in Mechanical or Aerospace Engineering with experience in research, mechanical design, and/or fluids/thermal systems
  • 1-3 years experience gained through internships, co-ops, senior projects, or research assistantships
  • Working knowledge of FEA/CFD and data-analysis scripting in MATLAB or Python
  • Experience with test instrumentation and data acquisition (e.g., LabVIEW)
  • Familiarity with additive manufacturing and traditional machining processes
  • Exposure to aerospace qualification standards (NASA-STD-5001, MIL-STD-1540, or similar)

Benefits

Compensation & Perks
  • Salary: $85,000 - $115,000, based on experience and degree
  • Health & Wellness: Comprehensive medical and dental insurance for employees and families
  • Retirement: Employer contributions to help you build long-term security
  • Time Off: Generous paid vacation, sick leave, and holiday schedule
  • Family Support: Paid parental leave and flexibility to support work-life balance
  • Performance Rewards: Annual bonus opportunities tied to company and individual success
  • Professional Growth: Hands-on experience with flight hardware, mentorship from senior engineers, and opportunities to contribute to cutting-edge space programs from day one
  • Mission-Driven Work: Be part of a team developing breakthrough space hardware that directly impacts the future of exploration
How to Apply

Be sure to answer all application questions fully and thoughtfully. Our hiring team reviews every application and may also consider you for other positions that align with your skills and interests.

If you have a thesis, dissertation, or technical presentation (M.S. or Ph.D. work), please include it. A cover letter is optional but encouraged if it provides details not captured in your resume.

Equal Opportunity Employer

IRPI is an Equal Opportunity Employer. We evaluate qualified applicants without regard to race, color, religion, sex, gender identity or expression, sexual orientation, national origin, age, disability, veteran status, marital status, or any other legally protected category.