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Precision Engineering Jobs in Connecticut (NOW HIRING)

We are at the forefront of precision engineering and innovation, specializing in the development and manufacturing of vital components for medical markets such as Robotic Assisted Surgery ...

CNC Machinist - First Shift

Enfield, CT

$20.75 - $28.50/hr

With decades of proven success, we are known for high performance, precision engineering, and a relentless focus on quality - and we're growing! The CNC Machinist will be a detail oriented machinist ...

CNC Machinist - First Shift

Enfield, CT ยท On-site

$20.75 - $28.50/hr

With decades of proven success, we are known for high performance, precision engineering, and a relentless focus on quality - and we're growing! The CNC Machinist will be a detail oriented machinist ...

Experienced CNC Machinist / 2nd Shift

Enfield, CT ยท On-site

$20.75 - $28.50/hr

With decades of proven success, we are known for high performance, precision engineering, and a relentless focus on quality - and we're growing! We are seeking a skilled CNC Machinist for our 2nd ...

Manufacturing R&D Engineer

Durham, CT ยท On-site

$71K - $91K/yr

We are at the forefront of precision engineering and innovation, specializing in the development and manufacturing of vital components for medical markets such as Robotic Assisted Surgery ...

Manufacturing R&D Engineer

Durham, CT ยท On-site

$71K - $91K/yr

We are at the forefront of precision engineering and innovation, specializing in the development and manufacturing of vital components for medical markets such as Robotic Assisted Surgery ...

Manufacturing R&D Engineer

Durham, CT ยท On-site

$71K - $91K/yr

We are at the forefront of precision engineering and innovation, specializing in the development and manufacturing of vital components for medical markets such as Robotic Assisted Surgery ...

Be Seen First

CNC Machinist

Enfield, CT ยท On-site

$20 - $30/hr

With decades of proven success, we are known for high performance, precision engineering, and a relentless focus on quality - and we're growing! We are seeking skilled CNC Machinists for our 1st and ...

Family-owned for over 75 years, Precision Resource is a leading global supplier of precision metal ... engineering to enhance quality, reliability and acceptance of system, processes and products.

Family-owned for over 75 years, Precision Resource is a leading global supplier of precision metal ... engineering to enhance quality, reliability and acceptance of system, processes and products.

As a Precision Assembly Technician, you will be responsible for assembling and aligning laser ... Collaborate with engineering to support process development, validation, and continuous improvement.

We are at the forefront of precision engineering and innovation, specializing in the development and manufacturing of vital components for medical markets such as Robotic Assisted Surgery ...

We collaborate with clients to solve challenges in engineering and production. Polamer Precision's approach to aerospace manufacturing is vastly different than other sub-primes in the aerospace ...

We collaborate with clients to solve challenges in engineering and production. Polamer Precision's approach to aerospace manufacturing is vastly different than other sub-primes in the aerospace ...

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Showing results 1-20

Precision Engineering information

See Connecticut salary details

$12

$30

$54

How much do precision engineering jobs pay per hour?

As of Jul 3, 2026, the average hourly pay for precision engineering in Connecticut is $30.01, according to ZipRecruiter salary data. Most workers in this role earn between $19.23 and $36.15 per hour, depending on experience, location, and employer.

What engineers make $300,000 a year?

In precision engineering, senior roles such as lead engineers, engineering managers, or specialists with extensive experience and advanced skills can earn $300,000 or more annually. These positions often require advanced degrees, certifications, and expertise in areas like CAD software, metrology, or manufacturing processes, typically within high-tech or aerospace industries.

How much do precision engineers earn?

Precision engineers typically earn between $50,000 and $80,000 annually, depending on experience, location, and industry. Advanced skills in CAD, CNC machining, and quality control can lead to higher salaries and career advancement.

What engineers make $500,000 a year?

Highly experienced engineers in specialized fields such as petroleum engineering, aerospace engineering, or certain senior roles in software engineering can earn $500,000 or more annually, often including bonuses and stock options. These positions typically require advanced skills, extensive experience, and often involve leadership or executive responsibilities.

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

To thrive as a Precision Engineer, you need expertise in mechanical design, materials science, and high-accuracy manufacturing, usually supported by a degree in engineering or a related field. Familiarity with CAD/CAM software, CNC machinery, and industry standards like ISO 9001 is typically required. Attention to detail, problem-solving abilities, and effective teamwork are crucial soft skills for excelling in this role. These competencies ensure the creation of ultra-precise components, reduce errors, and support innovation in industries where tolerances are critical.

What is precision engineering?

Precision engineering is a specialized field of engineering focused on designing, manufacturing, and measuring components and systems with extremely tight tolerances and high accuracy. This discipline is crucial in industries where even the smallest deviation can affect performance, such as aerospace, electronics, and medical device manufacturing. Precision engineers use advanced technologies and processes to ensure that parts and assemblies meet exacting standards, often at the micron or nanometer scale.

What are some common challenges faced by precision engineers when working on complex projects?

Precision engineers frequently encounter challenges related to maintaining extremely tight tolerances, especially when working with intricate components or advanced materials. Ensuring quality and consistency across all stages of the manufacturing process requires close collaboration with design, production, and quality assurance teams. Additionally, adapting to rapidly evolving technologies and integrating new machinery or software can be demanding but also presents opportunities for professional growth. Problem-solving skills and attention to detail are essential to overcome these hurdles and deliver high-quality results.

What is the difference between Precision Engineering vs Mechanical Engineering?

AspectPrecision EngineeringMechanical Engineering
Required CredentialsTypically requires a degree in engineering or related field, often with specialization in precision manufacturing or metrologyRequires a bachelor's or master's degree in mechanical engineering, with broader focus on design, thermodynamics, and mechanics
Work EnvironmentSpecialized manufacturing facilities, laboratories, or research environments focused on high-precision componentsVaried settings including factories, design offices, and research labs for diverse mechanical systems
Industry UsageUsed mainly in industries like aerospace, medical devices, and high-precision manufacturingWidely used across automotive, aerospace, robotics, and general manufacturing sectors

While both Precision Engineering and Mechanical Engineering require a strong engineering background, Precision Engineering focuses on creating and maintaining extremely accurate components and systems, often in specialized environments. Mechanical Engineering covers a broader range of mechanical systems and design, making it more versatile across industries.

What do precision engineers do?

Precision engineers design, develop, and maintain highly accurate manufacturing processes and equipment to produce components with tight tolerances. They often work with advanced measurement tools, such as coordinate measuring machines (CMMs), and require strong technical skills in engineering and quality control to ensure parts meet strict specifications.

Quality Engineer

Vantedge

Durham, CT โ€ข On-site

Full-time

Posted 16 days ago


Job description

Job Type
Full-time
Description
Sr. Programmer - Quality Engineer
Durham, CT
Full-time Permanent
Salaried On-site
*We are not currently working with third party agencies on this role.
About Us:
Hobson & Motzer is now part of Vantedge Medical! Vantedge Medical is the premier metals-based med-tech solutions partner from concept to full-scale manufacturing. We are at the forefront of precision engineering and innovation, specializing in the development and manufacturing of vital components for medical markets such as Robotic Assisted Surgery, Orthopedics, Surgical Instruments, Dental, and more. Our teams work in unison, collaborating and problem-solving to serve the manufacturing needs of the top Medical Original Equipment Manufacturers (OEMs) around the globe. Making a difference in the lives of patients and their families drives us to go above and beyond every day. With a steadfast commitment to advancing medical technology, we take immense pride in the work we do - and have a lot of fun doing it.
Hobson & Motzer is a vertically integrated manufacturer of precision metal components and assemblies serving the needs of the medical device market and other advanced industries. We operate two manufacturing plants with primary operations-and headquarters-centrally located in Durham, CT; our Advanced Manufacturing Center is just a few miles away in Wallingford, CT. Description. Join an organization that has a reputation for outstanding leadership, innovation, and expertise. Our employees use their creativity and talent to invent new solutions, meet new demands, and offer the most effective services and solutions in the industry.
About this Opportunity: The Sr. Programmer-Quality Engineer is an expert in measurement science, leading teams to calibrate equipment, developing measurement systems (CMM's, Vision Systems, 3D Scanners), analyzing complex data (GD&T, SPC), troubleshoot issues, and ensuring products through the manufacturing process.
Key responsibilities include Measurements Systems, Calibration & Standards, Data Analysis, Process Improvement, Leadership and Training.
In addition, the position serves as the Engineering Change Coordinator, responsible for creating Engineering Change Requests (ECRs) when new measurement methods are proven valid. This includes generating MSA's and Capability Studies. Close collaboration with Engineering, Design and Quality teams is essential to ensure all documentation for new jobs is accurate, complete, and compliant with customer and regulatory requirements.
Responsibilities:
  • Support and prepare PPAP submissions (all levels) including control plans, PFMEA, MSA, capability studies, and dimensional results; ensure timely and complete customer approval.
  • Participate in APQP activities for new product launches, collaborating with Engineering and Production to ensure quality is built into the process from the start.
  • Apply structured problem-solving methodologies (8D, DMAIC, Fishbone, 5-Why) to investigate non-conformances and support corrective and preventive action (CAPA) processes.
  • Develop, review, and maintain Control Plans, PFMEAs, Work Instructions, and Methods of Inspection (MOIs) to ensure process compliance.
  • Conduct process capability studies (Cp, Cpk) and use statistical tools (SPC, Minitab) to analyze data and support continuous improvement initiatives.
  • Manage non-conforming material (NCMRs), dispositions, and supplier corrective action requests (SCARs).
  • Collaborate with Engineering and Production teams on process improvements to reduce scrap, rework, and quality escapes.
  • Support First Article Inspection (FAI) activities and customer-specific quality requirements.
  • Utilize CMM, vision systems, and other metrology equipment to validate dimensional compliance; CMM programming experience is a plus.
  • Assist in analyzing customer complaints and field returns; participate in cross-functional teams to resolve issues and implement corrective actions.
  • Data Analysis, analyze inspection data, perform MSA's, utilize statistical tools to drive continuous improvement.
  • Maintain quality management system documentation in compliance with applicable standards and customer requirements.
  • Support and collaborate with quality technicians and operators on inspection techniques and quality system requirements.
  • Perform all other duties as assigned.

Requirements
  • Bachelor's degree in Mechanical Engineering, Manufacturing Engineering, or a related technical field preferred; equivalent experience considered.
  • Minimum 3-5 years of quality engineering experience in a precision manufacturing environment.
  • Demonstrated expertise in PPAP/APQP processes and deliverables (all PPAP levels).
  • Strong knowledge of PFMEA, Control Plans, MSA, and SPC methodologies.
  • Proficiency with GD&T interpretation and application per ASME Y14.5.
  • Hands-on experience with structured problem-solving tools: 8D, DMAIC, Fishbone, 5-Why.
  • Familiarity with quality management standards: ISO 13485, AS9100, IATF 16949, or similar.
  • Experience with Minitab or equivalent statistical software is required.
  • Ability to read and interpret technical drawings, blueprints, and engineering specifications.
  • CMM operation and/or programming experience (Calypso or similar) is a strong plus but not required.
  • Solid communication skills, both written and verbal, with the ability to present findings to cross-functional teams and customers.
  • Ability to work independently, prioritize multiple projects, and meet deadlines in a fast-paced environment.
  • Basic-to-advanced math skills (as for GD&T calculations.).
  • Ability to work independently, meet deadlines, and support cross-functional teams.
  • Six Sigma Green Belt certification preferred.