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Manufacturing Process Engineer Jobs in Portland, OR

onsemi

Process Engineer - Etch

Gresham, OR · On-site

As an Process Engineer - Etch at onsemi's premier 200mm manufacturing facility in Gresham, Oregon, you will work in a dynamic team environment, perform preventive, corrective, and diagnostic ...

onsemi

Process Engineer - Etch

Gresham, OR

As an Process Engineer - Etch at onsemi's premier 200mm manufacturing facility in Gresham, Oregon, you will work in a dynamic team environment, perform preventive, corrective, and diagnostic ...

Siltronic

Process Engineer I-III

Portland, OR · On-site

Siltronic is one of the world's leading manufacturers of highly specialized hyper pure silicon ... Core Competencies & Behavioral Expectations Process Engineering & Technical Knowledge Applies ...

TSMC

Principal Process Engineer-Etch

Camas, WA · On-site

$108K - $156K/yr

At TSMC Washington, you'll thrive where innovation meets precision manufacturing, and integrity ... As a principal process engineer minimizes process variations and excursions in product ...

TSMC

Principal Process Engineer-Etch

Camas, WA

$108K - $156K/yr

At TSMC Washington, you'll thrive where innovation meets precision manufacturing, and integrity ... As a principal process engineer minimizes process variations and excursions in product ...

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All JobsManufacturing Process Engineer JobsManufacturing Process Engineer Jobs in Portland, OR

Manufacturing Process Engineer information

See Portland, OR salary details

$53.6K

$93.5K

$134.7K

How much do manufacturing process engineer jobs pay per year?

As of Jun 16, 2026, the average yearly pay for manufacturing process engineer in Portland, OR is $93,530.00, according to ZipRecruiter salary data. Most workers in this role earn between $77,900.00 and $103,900.00 per year, depending on experience, location, and employer.

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

To thrive as a Manufacturing Process Engineer, you need a solid background in engineering principles, process optimization, and quality control, usually supported by a degree in mechanical, industrial, or manufacturing engineering. Familiarity with CAD software, statistical process control (SPC) tools, Lean/Six Sigma methodologies, and enterprise resource planning (ERP) systems is typically required. Strong problem-solving abilities, analytical thinking, and effective communication skills help distinguish top performers in this role. These skills and qualifications are crucial for improving efficiency, ensuring product quality, and driving continuous improvement in manufacturing operations.

What engineer makes $500,000 a year?

While most manufacturing process engineers earn less than $200,000 annually, some senior or specialized engineers with extensive experience, advanced skills, or leadership roles can reach or exceed $500,000 a year, especially in high-cost-of-living areas or large corporations. Achieving this level often requires advanced certifications, significant responsibility, and a track record of impactful results.

What are some common challenges faced by Manufacturing Process Engineers in optimizing production lines?

Manufacturing Process Engineers often encounter challenges such as balancing efficiency with product quality, integrating new technologies without disrupting ongoing operations, and troubleshooting bottlenecks in the production line. They must work closely with cross-functional teams—including quality assurance, maintenance, and operations—to identify root causes of inefficiencies and implement sustainable solutions. Adapting to evolving industry standards and continuous improvement initiatives is also a key part of the role, requiring flexibility and strong problem-solving skills.

What engineers make $300,000 a year?

Senior manufacturing process engineers with extensive experience, advanced skills in automation and process optimization, and often specialized certifications can earn salaries approaching or exceeding $300,000 annually. High-level roles in industries such as aerospace, semiconductor manufacturing, or oil and gas tend to offer these compensation levels, especially with leadership responsibilities and significant project management duties.

What is the difference between Manufacturing Process Engineer vs Manufacturing Engineer?

AspectManufacturing Process EngineerManufacturing Engineer
Primary FocusDesigning, analyzing, and improving manufacturing processesOverseeing overall manufacturing operations and production workflows
Typical ResponsibilitiesProcess optimization, troubleshooting, implementing new technologiesProduction planning, equipment management, quality control
CredentialsBachelor's in engineering, certifications like Six Sigma often preferredBachelor's in engineering or manufacturing, similar certifications
Work EnvironmentFactories, labs, process development settingsFactories, production lines, plant management

While both roles require engineering backgrounds and similar certifications, Manufacturing Process Engineers focus on refining manufacturing processes, whereas Manufacturing Engineers oversee the entire production process. Understanding these distinctions helps in choosing the right career path or job search focus.

What does a process manufacturing engineer do?

A process manufacturing engineer designs, develops, and optimizes manufacturing processes to improve efficiency, quality, and safety. They analyze production workflows, troubleshoot issues, and implement process improvements using tools like Six Sigma and CAD software. The role often requires knowledge of automation, quality standards, and continuous improvement methodologies.

Are process engineers paid well?

Process engineers typically earn competitive salaries that vary based on experience, location, and industry. They often receive additional benefits such as bonuses and professional development opportunities, reflecting the technical skills and problem-solving expertise required for the role.

What does a Manufacturing Process Engineer do?

A Manufacturing Process Engineer is responsible for designing, implementing, and optimizing manufacturing processes within a production facility. Their main goal is to improve efficiency, reduce costs, and ensure product quality by analyzing workflows, selecting appropriate equipment, and troubleshooting production issues. They often collaborate with other engineers, quality assurance teams, and production staff to develop and refine processes. This role may also involve implementing automation, maintaining safety standards, and supporting continuous improvement initiatives.
What are popular job titles related to Manufacturing Process Engineer jobs in Portland, OR? For Manufacturing Process Engineer jobs in Portland, OR, the most frequently searched job titles are:
What job categories do people searching Manufacturing Process Engineer jobs in Portland, OR look for? The top searched job categories for Manufacturing Process Engineer jobs in Portland, OR are:
Manufacturing Process Engineer jobs near you
Manufacturing Engineer II

Manufacturing Engineer II

Ascentec Engineering

Tualatin, OR • On-site

$80K - $105K/yr

Full-time

Medical, Dental, Vision, Life, Retirement, PTO

Posted 20 days ago

Job description

Ascentec Engineering is hiring a Manufacturing Engineer II to serve as an experienced technical contributor responsible for independently managing manufacturing processes, leading moderate-complexity NPI projects, and providing technical guidance to junior engineers. This role demonstrates proven capability in process optimization, cost reduction initiatives, and cross-functional collaboration while developing toward advanced technical leadership and strategic process development. The position requires solid hands-on machining knowledge, the ability to analyze engineering drawings for manufacturability, and demonstrated competence in project management.
This position is on-site (not remote/not hybrid) at our Tualatin headquarters and is not eligible for Visa sponsorship or transfer of Visa sponsorship.
Requirements
JOB RESPONSIBILITIES:
MANUFACTURING PROCESS OWNERSHIP & OPTIMIZATION
Process Development & Refinement:
  • Independently develop and implement manufacturing processes for moderate-complexity components and assemblies
  • Lead NPI projects from concept through full production transition with minimal oversight
  • Optimize existing processes to improve cycle time, yield, and cost-effectiveness
  • Design and validate manufacturing tooling, fixtures, and work-holding solutions
  • Conduct time studies and establish standard work documentation for production operations

Advanced Problem-Solving:
  • Lead root cause analysis investigations for quality escapes and process failures
  • Develop and implement corrective and preventive actions (CAPA) with measurable effectiveness
  • Apply statistical methods (DOE, capability studies) to optimize process parameters
  • Troubleshoot complex machining issues involving multi-axis operations, tight tolerances, and difficult materials
  • Identify and eliminate sources of variation in manufacturing processes

Technical Documentation:
  • Create comprehensive work instructions, process maps, and control plans
  • Develop and maintain process FMEA documentation
  • Establish process validation protocols and acceptance criteria
  • Document lessons learned and contribute to knowledge base development

MANUFACTURING COST MANAGEMENT & VALUE ENGINEERING
Cost Estimation & Analysis:
  • Develop detailed manufacturing cost estimates for new products and process changes
  • Conduct make-vs-buy analysis with supporting financial justification
  • Identify cost reduction opportunities through process improvement and design optimization
  • Track and report cost savings achieved through engineering initiative

Value Engineering Leadership:
  • Collaborate with design engineering to optimize product manufacturability
  • Propose alternative materials, processes, or manufacturing approaches to reduce costs
  • Evaluate emerging manufacturing technologies for potential cost or quality benefits
  • Balance cost objectives with quality, delivery, and performance requirements

TECHNICAL MENTORSHIP & TEAM DEVELOPMENT
Peer & Junior Engineer Support:
  • Provide technical guidance and mentorship to Manufacturing Engineer I team members
  • Review and approve work instructions and process documentation prepared by junior engineers
  • Serve as subject matter expert for specific manufacturing processes or technologies
  • Lead knowledge-sharing sessions on advanced manufacturing techniques

Training Development:
  • Develop and deliver training materials for production personnel on new processes
  • Create visual aids, training videos, and quick-reference guides
  • Assess training effectiveness and implement improvements

PROJECT MANAGEMENT & CROSS-FUNCTIONAL LEADERSHIP
NPI Project Leadership:
  • Manage NPI projects involving 3-5 concurrent work streams with interdependencies
  • Develop project plans with clear milestones, resource requirements, and success criteria
  • Coordinate cross-functional activities across engineering, quality, supply chain, and production
  • Proactively identify and mitigate project risks
  • Report project status to stakeholders with data-driven analysis

Stakeholder Management:
  • Interface with suppliers on technical process development and problem resolution
  • Support customer technical reviews and process qualification activities (with PM coordination)
  • Collaborate with quality engineering on inspection methods and acceptance criteria
  • Partner with production supervision to implement process improvements

QUALITY SYSTEMS & CONTINUOUS IMPROVEMENT
Quality System Contribution:
  • Participate in internal and external quality audits as process owner
  • Lead closure of audit findings related to manufacturing processes
  • Ensure processes comply with ISO9001, AS9100, and customer-specific requirements
  • Maintain process validation and control documentation per quality system requirements

Advanced Quality Tools:
  • Apply SPC techniques to monitor process capability and stability
  • Conduct measurement system analysis (GR&R) studies
  • Implement poka-yoke (error-proofing) solutions
  • Develop process control plans with appropriate reaction plans

Continuous Improvement Leadership:
  • Lead Lean Six Sigma projects targeting specific operational metrics
  • Facilitate kaizen events and value stream mapping activities
  • Implement 5S workplace organization initiatives
  • Track and report improvement project results with validated savings

JOB QUALIFICATIONS / EXPERIENCE AND TECHNICAL SKILLS:
Education & Experience:
  • Bachelor's degree in Mechanical Engineering, Manufacturing Engineering, or Industrial Engineering
  • 3-5 years of manufacturing engineering experience in precision machining environment
  • Demonstrated experience leading NPI projects from design through production
  • Experience with CNC programming, setup, troubleshooting, and process optimization

Technical Expertise:
  • Intermediate to Advanced Machining Knowledge: Solid understanding of CNC machining operations, multi-axis programming, tooling selection, feeds/speeds optimization, and setup procedures
  • Manufacturing Cost Estimation: Ability to analyze engineering drawings and develop accurate manufacturing cost estimates with cycle time analysis
  • ERP Systems: Experience with Epicor ERP or similar manufacturing systems for process planning, costing, and project management
  • Quality Systems Knowledge: Familiarity with ISO9001 and AS9100 standards, statistical process control, and CAPA methodologies
  • Process Improvement: Working knowledge of Lean Manufacturing and Six Sigma methodologies (Green Belt certification preferred)

Leadership & Communication:
  • Proven ability to manage multiple projects independently with minimal supervision
  • Strong analytical and problem-solving capabilities with structured approach to root cause analysis
  • Excellent written and verbal communication skills for technical and non-technical audiences
  • Demonstrated ability to mentor junior engineers and contribute to team development
  • Effective collaboration skills with cross-functional teams including design, quality, and production

PERSONAL QUALIFICATIONS:
  • Self-starter / Self-motivated / Flexible / Detail oriented
  • Reliable and dependable
  • Positive customer-focused attitude
  • Enjoy fast-paced and rapidly changing environment
  • Honest with good integrity
  • Professional demeanor and respectful to people in all situations
  • Flexible and willing to help others as needs and tasks change often
  • Team player

WORKING CONDITIONS:
  • Position requires significant time on the production floor conducting process analysis, troubleshooting, and team collaboration
  • Office-based work for project management, cost analysis, documentation, and meetings
  • Occasional travel to supplier facilities or customer sites (
  • May require flexibility for project deadlines and production support requirements
  • Physical requirements include walking, standing, and lifting up to 35 lbs in manufacturing environment

COMPENSATION / BENEFITS:
  • Salary range: $80,000 - $105,000 DOE with performance-based annual review
  • Performance bonus program based on individual and company performance metrics
  • Comprehensive benefits package including medical, dental, vision, and life insurance
  • 401(k) retirement plan with generous company matching contribution
  • Professional development support including certification reimbursement and conference attendance
  • Paid time off / Paid holidays
  • Continuing education opportunities and tuition reimbursement program

Other Requirements:
Applicant must be able to pass a drug screen and criminal background check prior to employment.
ITAR REQUIREMENTS: To conform to U.S. Government space technology export regulations, including the International Traffic in Arms Regulations (ITAR) you must be a U.S. citizen, lawful permanent resident of the U.S., protected individual as defined by 8 U.S.C. 1324b(a)(3), or eligible to obtain the required authorizations from the U.S. Department of State.
Ascentec Engineering is an Equal Opportunity Employer; employment with Ascentec Engineering is governed on the basis of merit, competence and qualifications and will not be influenced in any manner by race, color, religion, gender, national origin/ethnicity, veteran status, disability status, age, sexual orientation, gender identity, marital status, mental or physical disability or any other legally protected status.
Salary Description
$80,000 to $105,000 per year DOE

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