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Additive Engineer Jobs in Ohio (NOW HIRING)

Manufacturing Engineer

Dayton, OH · On-site

$90K - $105K/yr

Manufacturing Engineer Dayton, Ohio Our client is dedicated to providing the highest quality of ... Additive Manufacturing. • Perform accurate / professional documentation and presentation of ...

Area EHS Manager

Stow, OH · On-site

$75K - $102K/yr

Americhem is a globally recognized designer and manufacturer of custom color masterbatch, functional additives, engineered compounds and performance technologies. Our business is built around ...

The position will focus on product development efforts using both Additive Manufacturing (AM) and conventional manufacturing methods. This role supports sustainment activities for aerospace and other ...

CAD Designer

Loveland, OH · On-site

$25.75 - $35.75/hr

Create and maintain engineering documentation, including bills of material, drawings, and revision-controlled design packages. * Support Design for Manufacturing, Design for Additive Manufacturing ...

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Showing results 1-20

Additive Engineer information

See Ohio salary details

$48K

$105.2K

$144.5K

How much do additive engineer jobs pay per year?

As of Jul 10, 2026, the average yearly pay for additive engineer in Ohio is $105,241.00, according to ZipRecruiter salary data. Most workers in this role earn between $79,900.00 and $128,300.00 per year, depending on experience, location, and employer.

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

To thrive as an Additive Engineer, you need a strong background in mechanical engineering, materials science, and CAD design, typically supported by a relevant engineering degree. Familiarity with additive manufacturing technologies, 3D modeling software, and certifications such as ASME or ASTM standards for additive processes is essential. Problem-solving abilities, attention to detail, and effective communication are standout soft skills in this field. These skills and qualifications are crucial for ensuring innovative, precise, and reliable additive manufacturing solutions in a rapidly evolving industry.

What are some common challenges an Additive Engineer faces when transitioning prototypes to full-scale production?

Additive Engineers often encounter challenges when scaling from prototyping to full production, such as ensuring consistent print quality across batches, optimizing designs for manufacturability, and selecting appropriate materials that meet performance and certification requirements. They also need to address post-processing considerations and integrate additive manufacturing workflows with existing production systems. Collaboration with design, quality, and manufacturing teams is critical to troubleshoot issues and establish repeatable, efficient processes.

What are Additive Engineers?

Additive Engineers are professionals who specialize in designing, developing, and optimizing processes for additive manufacturing, commonly known as 3D printing. They work with advanced software and hardware to create prototypes and end-use parts from digital models, often using materials like plastics, metals, or composites. Additive Engineers collaborate with designers, production teams, and clients to ensure quality, efficiency, and innovation in manufacturing. Their expertise is crucial for industries such as aerospace, automotive, healthcare, and consumer products.

What is the difference between Additive Engineer vs Mechanical Engineer?

AspectAdditive EngineerMechanical Engineer
CredentialsBachelor's in Mechanical, Materials, or Manufacturing Engineering; certifications in additive manufacturingBachelor's or higher in Mechanical Engineering; professional engineer (PE) license optional
Work EnvironmentDesigning and testing 3D printed parts, working with additive manufacturing equipmentDesigning, analyzing, and testing mechanical systems, often in labs or manufacturing settings
Industry UsagePrimarily in aerospace, automotive, healthcare, and manufacturing sectors utilizing 3D printingBroadly in manufacturing, automotive, aerospace, and product design industries

While both roles involve engineering principles, Additive Engineers specialize in 3D printing technologies and additive manufacturing processes, whereas Mechanical Engineers focus on traditional mechanical design and analysis. Additive Engineers often work closely with manufacturing teams to develop innovative 3D printed solutions, making their roles distinct yet complementary within the engineering field.

What are popular job titles related to Additive Engineer jobs in Ohio? For Additive Engineer jobs in Ohio, the most frequently searched job titles are:
What job categories do people searching Additive Engineer jobs in Ohio look for? The top searched job categories for Additive Engineer jobs in Ohio are:
Infographic showing various Additive Engineer job openings in Ohio as of July 2026, with employment types broken down into 1% As Needed, 87% Full Time, 9% Part Time, 2% Contract, and 1% Nights. Highlights an 96% Physical, 1% Hybrid, and 3% Remote job distribution, with an average salary of $105,241 per year, or $50.6 per hour.
Sr Application Operations Engineer

Sr Application Operations Engineer

GE Aerospace

Peebles, OH • On-site

Full-time

Re-posted 6 days ago


GE Aerospace rating

8.9

Company rating: 8.9 out of 10

Based on 174 frontline employees who took The Breakroom Quiz

5th of 61 rated aerospace companies


Job description

Job Description Summary
The Sr. Application Operations Engineer will serve as a key technical owner for hardware-connected applications and manufacturing technology integrations across shop, lab, and test environments. This role partners closely with DT, engineering, manufacturing, and operations leadership to deploy, support, and improve digital solutions that directly enable Safety, Quality, Delivery, and Cost (SQDC) priorities.
In this role, you will work at the intersection of software, hardware, and manufacturing operations, translating shopfloor and engineering needs into stable, secure, and high-performing technical solutions. You will support and improve connected systems involving machine connectivity, industrial I/O, sensors, IoT-enabled devices, National Instruments platforms, data acquisition, HMI/SCADA, and additive manufacturing / 3D printing-related technologies. The role also requires the ability to work effectively with electronic hardware, interpret schematics, and read engineering drawings and prints to support troubleshooting, integration, and implementation activities.
The ideal candidate brings strong technical depth, hands-on troubleshooting capability, and a proactive approach to continuous improvement in manufacturing technology environments.
Job Description
Roles and Responsibilities:
  • Lead the deployment, configuration, integration, support, and continuous improvement of hardware-enabled applications and connected manufacturing technologies.
  • Support digital factory capabilities including machine connectivity, industrial I/O, sensor enablement, IoT/edge devices, data acquisition, mobility, and equipment-to-application integration.
  • Provide technical support for site-specific software and platforms such as factory management, analytics, HMI/SCADA, test applications, and connected engineering tools.
  • Support National Instruments-based platforms, instrumentation, and data acquisition environments used in lab, test, and manufacturing applications.
  • Support additive manufacturing / 3D printing systems and related workflows, including equipment interfaces, application support, and troubleshooting where applicable.
  • Interpret electrical and electronic schematics, wiring diagrams, and engineering prints to support system integration, issue resolution, and equipment/application interfacing.
  • Monitor application and system performance, identify issues, and implement solutions to ensure reliability, availability, and performance.
  • Respond to and resolve user-, customer-, and system-reported incidents involving applications, hardware interfaces, instrumentation, or connected equipment, minimizing downtime and business impact.
  • Partner with DT, engineering, manufacturing, maintenance, and equipment stakeholders to identify root causes and implement corrective and preventive actions.
  • Maintain awareness of deployments, infrastructure updates, and equipment changes that may affect system availability, and proactively prevent disruptions.
  • Develop and maintain documentation for system configurations, application integrations, hardware interfaces, support procedures, and technical standards.
  • Ensure conformance with established architecture, standards, cybersecurity expectations, and operational support practices.
  • Identify opportunities to improve reliability, standardization, automation, and supportability across connected systems and applications.
  • Work independently on projects while contributing across the team, managing scope, priorities, and execution against deadlines.
  • Partner with users, product/service owners, and operational leaders on new capability introductions, changes, and transitions to steady-state support.

Minimum Qualifications:
  • Bachelor's degree from accredited university or college with minimum of 2 years of professional experience OR Associates degree with minimum of 5 years of professional experience OR High School Diploma with minimum of 7 years of professional experience
  • Note: Military experience is equivalent to professional experience
  • Eligibility Requirement:
  • -Legal authorization to work in the U.S. is required. We will not sponsor individuals for employment visas, now or in the future, for this job.

Desired Characteristics:
Technical Expertise
  • Experience supporting hardware/software solutions in a shop floor manufacturing, lab, or test environment
  • Experience with machine connectivity, industrial I/O, instrumentation, sensors, and equipment integration
  • Experience with IoT / edge-connected devices and data acquisition architecture
  • Experience with National Instruments hardware/software, DAQ systems, or automated test environments
  • Experience supporting HMI/SCADA, factory management, analytics, or digital manufacturing applications
  • Experience with 3D printing / additive manufacturing systems and related workflows
  • Understanding of electronic systems and components in support of troubleshooting, integration, and equipment interfacing
  • Ability to read and interpret electrical schematics, wiring diagrams, and engineering drawings / prints
  • Experience with SQL, scripting, application servers, web-based tools, and systems integration
  • Experience with networking infrastructure in operational or industrial environments
  • Ability to apply technical standards and architecture concepts to support and project work
  • Interest in current and emerging technologies demonstrated through training, job experience, and/or industry activities

Business Acumen
  • Understands key cross-functional concepts that impact manufacturing and operations
  • Aware of business priorities and organizational dynamics
  • Understands the importance of aligning digital and hardware-enabled solutions to SQDC priorities

Leadership
  • Works independently while knowing when to seek guidance or escalate
  • Helps drive technical direction within assigned systems, integrations, or projects
  • Supports team success through collaboration, knowledge sharing, and mentoring where appropriate
  • Identifies and raises issues, risks, constraints, and improvement opportunities

Personal Attributes
  • High level of energy and enthusiasm with the ability to thrive in a fast-paced environment
  • Demonstrated customer focus and commitment to practical, high-value solutions
  • Change-oriented and proactive in identifying and implementing improvements
  • Strong oral and written communication skills
  • Strong analytical, troubleshooting, and problem-solving skills
  • Ability to manage multiple priorities effectively
  • Self-motivated and passionate about learning new technologies
  • Open-minded to new ideas, perspectives, and methods
  • Quality- and cost-driven with strong attention to reliability and performance

This role requires access to U.S. export-controlled information. Therefore, employment will be contingent upon the ability to prove that you meet the status of a U.S. Person as one of the following: U.S. lawful permanent resident, U.S. Citizen, have been granted asylee or refugee status (i.e., a protected individual under the Immigration and Naturalization Act, 8 U.S.C. 1324b(a)(3)).
Additional Information
GE Aerospace offers a great work environment, professional development, challenging careers, and competitive compensation. GE Aerospace is an Equal Opportunity Employer. Employment decisions are made without regard to race, color, religion, national or ethnic origin, sex, sexual orientation, gender identity or expression, age, disability, protected veteran status or other characteristics protected by law.
GE Aerospace will only employ those who are legally authorized to work in the United States for this opening. Any offer of employment is conditioned upon the successful completion of a drug screen (as applicable).
Relocation Assistance Provided: No

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