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Manufacturing Engineering Jobs in Rhode Island (NOW HIRING)

Manufacturing Engineer

Cumberland, RI · On-site

$80K - $85K/yr

We are looking for a Manufacturing Engineer to join our team in Cumberland, Rhode Island and build ... The position offers early exposure to process engineering, quality standards, and continuous ...

Manufacturing Engineer

Cranston, RI · On-site

$71K - $91K/yr

The Manufacturing Engineer supports EMI Industries' manufacturing operations by developing and ... This role partners with engineering, quality, and operations to drive continuous improvement ...

Manufacturing Engineer I

Woonsocket, RI

$70K - $90K/yr

You will report directly to our Manufacturing Engineering Manager, and you'll work out of our Woonsocket, Rhode Island location 100% onsite schedule. Honeywell helps organizations solve the world ...

Manufacturing Engineer I

Woonsocket, RI · On-site

$70K - $90K/yr

You will report directly to our Manufacturing Engineering Manager, and you'll work out of our Woonsocket, Rhode Island location 100% onsite schedule. Honeywell helps organizations solve the world ...

Manufacturing Engineer I

Woonsocket, RI · On-site

$70K - $90K/yr

You will report directly to our Manufacturing Engineering Manager, and you'll work out of our Woonsocket, Rhode Island location 100% onsite schedule. Responsibilities Key Responsibilities:

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Showing results 1-20

Manufacturing Engineering information

See Rhode Island salary details

$46.5K

$83.8K

$117.5K

How much do manufacturing engineering jobs pay per year?

As of Jul 18, 2026, the average yearly pay for manufacturing engineering in Rhode Island is $83,842.00, according to ZipRecruiter salary data. Most workers in this role earn between $71,500.00 and $92,100.00 per year, depending on experience, location, and employer.

What does a manufacturing engineer do?

A manufacturing engineer designs, develops, and improves manufacturing processes to increase efficiency, quality, and safety. They analyze production workflows, select appropriate tools and equipment, and often use CAD software to optimize operations. The role typically requires knowledge of engineering principles, problem-solving skills, and familiarity with industry standards and certifications.

How does a Manufacturing Engineer typically collaborate with other departments to improve production processes?

Manufacturing Engineers work closely with cross-functional teams, such as design, quality assurance, and operations, to optimize production processes. They often participate in meetings to review product designs, address manufacturing challenges, and develop solutions that enhance efficiency and quality. Regular collaboration with maintenance and supply chain teams is also common, ensuring equipment reliability and timely material flow. This teamwork fosters a dynamic environment where continuous improvement is encouraged, and successful projects can lead to increased responsibility and advancement opportunities.

What engineers make $200,000 a year?

In manufacturing engineering, senior-level professionals with extensive experience, advanced skills, and often specialized certifications can earn $200,000 or more annually. These roles typically involve leadership, project management, or expertise in areas like automation, process optimization, or systems design.

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

To thrive as a Manufacturing Engineer, you generally need a degree in engineering (often mechanical, industrial, or manufacturing), along with strong analytical and problem-solving skills. Familiarity with CAD software, PLC programming, Lean Manufacturing principles, and Six Sigma certification is commonly required. Effective communication, teamwork, and adaptability are important soft skills for collaborating across departments and responding to production challenges. These skills and qualifications are crucial for ensuring efficient production processes, reducing costs, and maintaining high product quality in a competitive manufacturing environment.

What is the difference between Manufacturing Engineering vs Mechanical Engineering?

AspectManufacturing EngineeringMechanical Engineering
Required CredentialsBachelor's in Manufacturing, Industrial, or Mechanical Engineering; certifications like CMfgEBachelor's in Mechanical Engineering; Professional Engineer (PE) license often preferred
Work EnvironmentFactories, production plants, manufacturing facilitiesDesign offices, research labs, manufacturing plants
Industry UsageHeavy in manufacturing, production, and process optimizationBroader, including automotive, aerospace, energy, and product design
Common Search/ComparisonManufacturing EngineeringMechanical Engineering

Manufacturing Engineering focuses on designing, implementing, and improving manufacturing processes and systems within production environments. Mechanical Engineering covers a broader scope, including design, analysis, and development of mechanical systems across various industries. While both roles require engineering degrees and share some certifications, Manufacturing Engineers specialize in production efficiency, whereas Mechanical Engineers often work on product design and development.

What is manufacturing engineering?

Manufacturing engineering is a branch of engineering focused on designing, analyzing, and improving manufacturing processes, systems, and equipment. Manufacturing engineers work to make production more efficient, cost-effective, and high-quality by implementing new technologies, optimizing workflows, and ensuring safety and sustainability. They collaborate closely with other departments to bring products from design to production, troubleshoot issues, and continuously improve operations. This field is vital in industries such as automotive, aerospace, electronics, and consumer goods.

What engineering jobs pay $500,000?

In manufacturing engineering, high-level roles such as manufacturing directors, plant managers, or senior engineering executives can reach or exceed $500,000 annually, especially in large corporations or with extensive experience and specialized skills. These positions often require advanced management, strategic planning, and industry expertise, along with strong leadership and operational knowledge.

What is the highest paying job in manufacturing?

In manufacturing engineering, senior roles such as Manufacturing Director or Plant Manager typically have the highest salaries, often exceeding six figures. These positions require extensive experience, leadership skills, and knowledge of production processes and automation technologies.
What are the most commonly searched types of Manufacturing Engineering jobs in Rhode Island? The most popular types of Manufacturing Engineering jobs in Rhode Island are:
What are popular job titles related to Manufacturing Engineering jobs in Rhode Island? For Manufacturing Engineering jobs in Rhode Island, the most frequently searched job titles are:
What job categories do people searching Manufacturing Engineering jobs in Rhode Island look for? The top searched job categories for Manufacturing Engineering jobs in Rhode Island are:
What cities in Rhode Island are hiring for Manufacturing Engineering jobs? Cities in Rhode Island with the most Manufacturing Engineering job openings:
Infographic showing various Manufacturing Engineering job openings in Rhode Island as of July 2026, with employment types broken down into 87% Full Time, 10% Part Time, and 3% Contract. Highlights an 87% Physical, 3% Hybrid, and 10% Remote job distribution, with an average salary of $83,842 per year, or $40.3 per hour.
Manufacturing Engineering Manager

Manufacturing Engineering Manager

Evans Capacitor Co

East Providence, RI • On-site

$110K - $137K/yr

Other

Posted 9 days ago


Job description

Description

 About Evans Capacitor Company: 

Evans, an electronic components company, is a trusted partner in the military, aerospace, industrial, and commercial markets, with over a century of combined experience as a reliable problem-solver. Being part of the Evans Group portfolio has enabled Evans to continue developing cutting-edge capacitor technology alongside other world-class technology companies that represent the future of mission-critical electronics. 

Evans, with sites in East Providence, RI, Sanford, ME, and Phoenix, AZ, manufactures high-energy-density capacitors for demanding, mission-critical applications. We have the most power-dense capacitor technology in the industry and are routinely specified for defense, aerospace, and energy exploration applications where high reliability and SWaP (space, weight, and power) savings are critical design considerations. 


Job Summary:  

Evans is experiencing significant growth and is seeking an experienced Manufacturing Engineering Manager to lead the Manufacturing Engineering organization across our East Providence, RI, Sanford, ME, and Phoenix, AZ facilities. The primary location for this role is East Providence, RI. 

This role will report to the Director of Engineering and is responsible for building, leading, and strengthening a high performing Manufacturing Engineering team while driving operational excellence, equipment reliability, process improvement, and manufacturing scalability across all locations. The Manufacturing Engineering Manager will establish clear priorities, accountability, and ownership throughout the organization while creating an environment where employees are empowered to solve problems and continuously improve. 

The successful candidate must be an equally strong people leader and technical leader. We are looking for someone with a proven track record of building engaged, accountable teams and developing talent, not simply managing projects, products, or technical initiatives. 

This is a hands on leadership role. The Manufacturing Engineering Manager is expected to spend significant time on the manufacturing floor working directly with operators, technicians, maintenance personnel, and engineers to solve problems, improve processes, remove barriers, and drive results. 

The role encompasses oversight of manufacturing engineering, equipment reliability, maintenance and facilities support, process improvement initiatives, quality support, capital projects, and cross functional operational initiatives that are critical to business success. 


Key Responsibilities: 


Leadership and Team Building 

Lead, coach, and develop the Manufacturing Engineering, Maintenance, and Facilities teams across multiple locations. 

Build a cohesive, engaged, and accountable engineering organization aligned around common goals and business objectives. 

Establish clear priorities, performance expectations, ownership, and accountability across the team. 

Create an environment where team members understand their responsibilities, are empowered to make decisions, and are held accountable for results. 

Develop and implement career development plans for direct reports and support the professional growth of the team. 

Recruit, retain, and build strong engineering talent to support current business needs and future growth. 

Foster a culture of ownership, collaboration, urgency, continuous improvement, and operational excellence. 

Ensure effective communication and alignment between engineering teams located in Rhode Island, Maine, and Arizona. 

Build strong partnerships with Manufacturing, Quality, Supply Chain, Finance, and Sales leaders to drive business performance. 

Participate as a key member of the operational leadership team, contributing to strategic planning, prioritization, and execution across the organization. 


Process Improvement and Manufacturing Excellence 

Lead efforts to optimize and refine manufacturing processes with a focus on quality, reliability, efficiency, throughput, cost reduction, and waste reduction. 

Identify, prioritize, and implement process improvements that improve yields, reduce defects, increase output, and support customer delivery. 

Foster a culture of continuous improvement through the practical application of Lean, Six Sigma, root cause analysis, and other problem-solving methodologies. 

Champion cross-functional initiatives that improve end-to-end operational performance, from order intake through customer delivery. 

Use data and performance metrics to identify trends, solve problems, and drive sustainable improvements. 

Work directly with operators, technicians, engineers, and manufacturing leaders to troubleshoot issues and implement practical solutions. 

Balance short-term production needs with long-term process capability, capacity, and scalability. 


Quality, Risk Management, and Compliance 

Partner with the Quality team to ensure processes, materials, equipment, and products meet internal requirements, customer requirements, and applicable quality standards. 

Support corrective action, preventive action, root cause analysis, and continuous improvement activities to prevent recurrence of quality issues. 

Utilize data-driven approaches to enhance product quality, process stability, and reliability. 

Establish, maintain, and drive effective use of FMEA processes to identify and reduce operational, product, and process risks. 

Identify potential risks to process stability, product quality, equipment reliability, safety, and operational efficiency. 

Develop and implement risk mitigation strategies to reduce impact to business operations. 

Support CMMC Level 2 readiness and assessment activities related to manufacturing engineering, equipment, systems, processes, documentation, and operational controls. 

Ensure compliance with safety, regulatory, environmental, export control, and company requirements. 

Actively support business continuity planning and operational risk management across departments. 

Equipment Reliability, Maintenance, and Facilities 

Oversee the maintenance, reliability, and optimization of critical manufacturing equipment to minimize downtime and maximize operational performance. 

Lead the implementation and effective use of UpKeep or similar maintenance management software to manage preventive maintenance, work orders, assets, maintenance history, and equipment performance. 

Develop and implement preventive and predictive maintenance programs in partnership with Maintenance and Facilities teams. 

Establish and manage a critical spares strategy to improve uptime and reduce business risk. 

Ensure facility readiness, equipment availability, operational uptime, and capacity planning are aligned with business needs. 

Partner with Operations and Maintenance to identify recurring equipment issues and implement sustainable corrective actions. 

Support capital equipment planning, equipment qualification, installation, and operational readiness activities. 

Ensure maintenance and facilities priorities are clearly defined, resourced, tracked, and executed. 


Project Management and Resource Allocation 

Lead and manage multiple engineering and operational projects, ensuring on-time delivery, budget adherence, and quality outcomes. 

Allocate resources effectively to meet project timelines and prioritize initiatives based on business impact. 

Create clear project plans, ownership, timelines, metrics, and communication cadences. 

Foster collaboration between cross-functional teams to ensure smooth project execution. 

Proactively balance day-to-day execution with longer-term capacity building to support future growth. 

Communicate project status, risks, decisions, and resource needs clearly to leadership and stakeholders. 

Additional duties as assigned. 


What Success Looks Like in the First 12 Months:   

Within the first year, the successful Manufacturing Engineering Manager will have: 

Established a high performing Manufacturing Engineering organization across Rhode Island, Maine, and Arizona with clearly defined priorities, responsibilities, accountabilities, and decision-making authority. 

Created clarity for the team around what matters most, how success is measured, and where the team is empowered to make decisions. 

Developed and implemented career development plans for all direct reports, creating a culture focused on growth, accountability, engagement, and retention. 

Built credibility as a hands-on leader who is visible on the manufacturing floor and actively engaged with the people, equipment, and processes that drive performance. 

Successfully led Engineering support for the organization's CMMC Level 2 assessment and achieved the required assessment objectives. 

Established and implemented a critical spares strategy that improves equipment uptime, reduces maintenance related delays, and mitigates operational risk. 

Fully implemented and driven adoption of the UpKeep maintenance management system, ensuring preventive maintenance, asset management, work order tracking, and maintenance activities are consistently managed. 

Established and standardized FMEA and processes and ensured they are routinely used to identify, prioritize, and mitigate operational and product risks. 

Improved equipment reliability, manufacturing throughput, and process capability through disciplined execution of continuous improvement initiatives. 

Strengthened collaboration between Manufacturing Engineering, Operations, Quality, Supply Chain, Maintenance, Facilities, Finance, and Sales. 

Requirements

Required Qualifications 

Bachelor's degree in Chemical Engineering, Mechanical Engineering, Materials Engineering, Materials Science, or a related technical field preferred. 

Minimum of 10 years of engineering experience in a manufacturing environment, preferably within tantalum wet capacitor, electronic components, aerospace, defense, or another high-reliability manufacturing industry. 

Minimum of 2 to 3 years of experience leading and managing an engineering, maintenance, facilities, or manufacturing support team. 

Must be considered a U.S. Person eligible to work in the United States. 

Strong technical aptitude and hands-on experience with manufacturing equipment, process improvement, equipment reliability, and troubleshooting. 

Demonstrated ability to develop, organize, and communicate clear objectives, priorities, metrics, and accountability. 

Experience using data to solve problems, improve processes, and support sound business decisions. 

Experience with Lean, Six Sigma, or similar continuous improvement methodologies. 

Proficiency with Microsoft Office applications, including Word, Excel, Outlook, Teams, and PowerPoint. 

Ability to read and write in English. 


Preferred Qualifications 

Experience leading teams across multiple sites or geographically dispersed operations. 

Experience with ERP systems, maintenance management systems, process automation, and manufacturing software tools. 

Experience implementing or improving maintenance systems, preventive maintenance programs, critical spares programs, or asset management processes. 

Experience with UpKeep or a similar maintenance management software system preferred. 

Experience supporting regulated manufacturing environments, quality systems, compliance initiatives, or CMMC related readiness activities preferred. 

Experience with FMEA processes preferred. 

Experience with design software and document management systems is a plus. 

Experience participating in or leading site level operational planning or budgeting processes preferred. 


Leadership and Technical Capabilities 

Proven ability to build, lead, and develop high performing teams in a manufacturing environment. 

Strong people leadership skills, with the ability to create clarity around priorities, responsibilities, accountability, and decision-making authority. 

Ability to balance strategic leadership with hands on execution. 

Strong floor presence and willingness to work directly with equipment, operators, maintenance personnel, and manufacturing processes. 

Demonstrated ability to create career development plans, strengthen team capability, and build an engaged and accountable team. 

Proven track record of leading through influence and partnering effectively with Manufacturing, Quality, Supply Chain, Finance, and Sales,  

Strong business acumen with an understanding of manufacturing operations, supply chain, finance, customer service, and operational planning. 

Ability to think strategically, manage organizational complexity, and make decisions that balance short term execution with long term business needs. 

Proactive, adaptable, and comfortable shifting between priorities in a fast-paced manufacturing environment. 

Collaborative, team-oriented mindset with a hands-on, can-do attitude. 


Work Environment and Physical Demands:? 

  • General office and manufacturing environment.??? 
  • Exposure to hazards associated with manufacturing equipment and tools.? 
  • This position requires working near electrical and mechanical equipment that could potentially interfere with pacemaker function.   
  • While performing the duties of this job, the employee will routinely use standard office equipment such as computers, phones, and printers.? 
  • Ability to sit or stand for extended periods, perform computer work, and communicate effectively in person and electronically.? 
  • Occasional travel (less than 10%) may be required to other Quantic company facilities, support customer visits, supplier meetings, or industry events.? 
  • Ability to lift, push, and pull up to 30 pounds? 
  • Sitting, bending, stooping, pushing and pulling motions? 
  • Ability to handle small tools, parts, and machinery with precision.? 
  • Visual acuity for reading measurements, assembly instructions, and monitoring equipment.? 
  • Will be required to wear appropriate PPE as outlined by company safety protocols.? 


EEO/A...