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Remote Manufacturing Engineering Jobs in Springfield, MA

Quest Global delivers world-class end-to-end engineering solutions by leveraging our deep industry ... This remote position requires aspects ofSupply ChainManagement, Procurement, Manufacturing ...

Quest Global delivers world-class end-to-end engineering solutions by leveraging our deep industry ... This remote position requires aspects of Supply Chain Management, Procurement, Manufacturing ...

Quest Global delivers world-class end-to-end engineering solutions by leveraging our deep industry ... This remote position requires aspects of Supply Chain Management, Procurement, Manufacturing, and ...

You'll work with facility teams in a variety of environments--such as manufacturing plants ... engineers * Solid computer skills, especially with Microsoft Word, Excel, and Outlook * Strong time ...

Remote in CT area with occasional site visits to East Hartford, CT Start Date: Right Away Job type ... Coordinate cross-functionally with Quality, Engineering, Materials, Manufacturing, Strategic ...

We have over thirty manufacturing and assembly plants worldwide servicing over 10,000 customers in ... Job Purpose The Application Security Engineer is responsible for strengthening the security of our ...

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Showing results 1-20

Remote Manufacturing Engineering information

See Springfield, MA salary details

$47.3K

$85.3K

$119.6K

How much do remote manufacturing engineering jobs pay per year?

As of Jul 14, 2026, the average yearly pay for remote manufacturing engineering in Springfield, MA is $85,314.00, according to ZipRecruiter salary data. Most workers in this role earn between $72,700.00 and $93,700.00 per year, depending on experience, location, and employer.

What is a Remote Manufacturing Engineering job?

A Remote Manufacturing Engineering job involves designing, optimizing, and improving manufacturing processes while working remotely. Engineers in this role use digital tools, simulations, and virtual collaboration to support production, troubleshoot issues, and implement process improvements. They may work with teams across multiple locations to enhance efficiency, quality, and cost-effectiveness. Strong communication skills, proficiency in CAD and automation software, and familiarity with manufacturing best practices are essential. This role allows companies to leverage global talent while maintaining seamless production operations.

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

To thrive as a Remote Manufacturing Engineer, a solid background in engineering principles, process optimization, and quality control—often supported by a relevant degree—is essential. Proficiency with CAD software, manufacturing execution systems (MES), and familiarity with certifications such as Six Sigma or Lean Manufacturing are highly valued. Strong communication, self-motivation, and critical thinking skills help remote professionals coordinate effectively and solve complex problems from a distance. These competencies are crucial to successfully overseeing manufacturing processes, ensuring product quality, and driving efficiency while collaborating with on-site teams remotely.

How can I make $100,000 a year working from home?

Remote manufacturing engineers can reach a $100,000 annual salary by gaining specialized skills in CAD software, automation, and process optimization, often requiring a bachelor's degree in engineering and relevant certifications. Building experience, taking on complex projects, and working for companies that offer remote roles with competitive pay are key factors. Additionally, developing expertise in industry-specific tools and maintaining a strong professional network can help increase earning potential from home.

What engineers make $500,000 a year?

Senior manufacturing engineers with extensive experience, specialized skills, and leadership roles can earn salaries approaching or exceeding $500,000 annually, especially in high-demand industries or executive positions. Achieving this level often requires advanced certifications, management responsibilities, and working in competitive or high-cost regions.

What are some common challenges faced by Remote Manufacturing Engineers and how are they addressed?

Remote Manufacturing Engineers often face challenges related to collaborating with on-site teams, accessing real-time production data, and troubleshooting issues without being physically present. To overcome these obstacles, they utilize advanced collaboration tools, real-time monitoring software, and maintain regular virtual meetings with plant personnel. Many organizations also provide robust remote access to manufacturing systems and encourage video walkthroughs or live streams from the factory floor. By leveraging technology and proactive communication, remote engineers can stay closely connected with the manufacturing process and contribute effectively to operational improvements.

Which engineering jobs can be done remotely?

Remote manufacturing engineering jobs are available for roles that involve design, process optimization, and data analysis, often requiring skills in CAD software, project management, and communication tools. These positions typically involve collaboration with teams and may require familiarity with cloud-based platforms or virtual meetings, making remote work feasible for qualified professionals.

What engineers make $200,000 a year?

Senior manufacturing engineers with extensive experience, specialized skills, and advanced certifications can earn $200,000 or more annually, especially in high-demand industries or managerial roles. Achieving this level often requires expertise in process optimization, automation, and proficiency with engineering tools like CAD and ERP systems.
What job categories do people searching Remote Manufacturing Engineering jobs in Springfield, MA look for? The top searched job categories for Remote Manufacturing Engineering jobs in Springfield, MA are:
What cities near Springfield, MA are hiring for Remote Manufacturing Engineering jobs? Cities near Springfield, MA with the most Remote Manufacturing Engineering job openings:
Infographic showing various Remote Manufacturing Engineering job openings in Springfield, MA as of July 2026, with employment types broken down into 93% Full Time, 4% Part Time, and 3% Contract. Highlights an 87% Physical, 3% Hybrid, and 10% Remote job distribution, with an average salary of $85,314 per year, or $41 per hour.
Senior C# OpCenter Developer (Remote)

Senior C# OpCenter Developer (Remote)

Pratt & Whitney

Hartford, CT • Remote

$55 - $72.75/hr

Full-time

Medical, Dental, Vision, Life, Retirement, PTO

Posted 11 days ago


Pratt & Whitney rating

8.7

Company rating: 8.7 out of 10

Based on 154 frontline employees who took The Breakroom Quiz

13th of 61 rated aerospace companies


Job description

Date Posted:

2026-07-02

Country:

United States of America

Location:

US-CT-REMOTE

Position Role Type:

Remote

U.S. Citizen, U.S. Person, or Immigration Status Requirements:

U.S. citizenship is required, as only U.S. citizens are authorized to access information under this program/contract.

Security Clearance Type:

None/Not Required

Security Clearance Status:

Not Required

Pratt & Whitney is working to once again transform the future of flight—designing, building and servicing engines unlike any the world has ever seen. And because transformation begins from within, we’re seeking the people to drive it. So, calling all curious. 

Come ready to explore and you’ll find a place where your talent takes flight—beyond the borders of title, a country or your comfort zone. Bring your passion and commitment and we’ll welcome you into a tight-knit team that takes our mission personally. Channel your drive to make a difference into shaping an organization and an industry that’s evolving fast to the future.

At Pratt & Whitney, the difference you make is on display every day. Just look up. Are you ready to go beyond?

We have an exciting new remote opportunity with our Digital Technology (DT) Digital Manufacturing Applications team for a Senior C# OpCenter Developer.

What You Will Do:

We are seeking a Senior MES Developer who will own the design and delivery of customizations and extensions within the Opcenter layer, architect and harden the Teamcenter ↔ Opcenter integration, and serve as the senior technical anchor for our offshore development team.

This is a hands‑on engineering role with technical leadership responsibilities: you will establish coding standards, conduct code reviews, mentor developers in India, and manage the CI/CD pipeline for all MES customizations.

A key technical challenge in this role involves the propagation of engineering changes from the PLM layer into live MES work orders—ensuring that the shop floor always builds to the latest released definition.

This requires designing integrations that are efficient, event‑driven, resilient, and lean on network traffic, avoiding heavy reliance on bulk re‑publishing of large data structures.

In this position, you will contribute to back‑end and web‑based development, troubleshoot MES‑related issues, resolve systems integration and compatibility concerns, and support our Application Lifecycle Management Center of Excellence.

This is a remote role, and because our customers operate across multiple time zones, some meetings may occur outside standard business hours.

Key Responsibilities:

MES Customization & Development:

- Design and build Opcenter customizations and extensions across the data model, Functional Blocks, Signal Rules, Business Process Flows, Task Types and model-driven UI, following the platform’s adaptable-solution principles (keeping the core clean and isolating customer-specific extensions).

- Develop operator-facing experiences in Mendix (microflows, nanoflows, custom widgets, mashups) and deeper server-side logic in C# / .NET where low-code is not the right tool.

- Translate manufacturing and MRO requirements into robust, upgrade-safe configuration and code that survives Opcenter version uplifts.

Teamcenter ↔ Opcenter Integration:

- Own the PLM–MES integration layer between Teamcenter and Opcenter — the flow of mBOM, BOP, and work-instruction content into executable work orders.
Design change-driven, incremental synchronization so that released engineering changes (ECO/ECN) propagate into affected work orders as minimal deltas, honoring effectivity, rather than full structure re-publishes.

- Architect for minimum network traffic and latency using event subscriptions / publish-subscribe patterns, message buffering and guaranteed delivery, REST/OData interfaces, and selective payloads — avoiding chatty polling and redundant transfers across sites.

- Define the contract and failure modes of the integration: idempotency, replay, ordering, conflict handling, and observability so issues are caught before they reach the floor.

Technical Leadership, Mentoring & Code Review:

- Mentor and technically lead the India development team — raising capability in Opcenter, Mendix, and .NET through pairing, design guidance, and structured feedback.

- Own code review for all MES customizations: enforce standards for quality, maintainability, security, upgrade-safety, and performance.

- Establish and maintain development standards — coding conventions, branching strategy, definition of done, and reusable patterns / shared components.

CI/CD, DevOps & Release Management:

- Own the CI/CD pipeline for MES customizations — source control, automated build, packaging, and promotion across DEV → TEST → QA → PROD.

- Automate and de-risk deployments of Opcenter model/config artifacts and Mendix apps, with versioning, rollback, and environment parity.

- Build automated testing and quality gates into the pipeline; integrate static analysis and review checkpoints.

Governance, Quality & Collaboration:

- Partner with PLM, manufacturing engineering and shop-floor stakeholders to validate that the digital thread behaves correctly end-to-end.

- Uphold regulatory and security requirements — AS9100, export control (ITAR/EAR), and platform/network segmentation expectations (e.g., Purdue model) in everything that is built and deployed.

- Document architecture and decisions and communicate clearly to both technical peers and non-technical leadership.

What You Will Learn:

Career growth opportunities include access and exposure to technical and functional experts, business operations, and to leadership/executives. This position offers an opportunity to network with technical professionals and to build relationships within the organization being on the front lines of developing technology. 
 

Qualifications You Must Have:

- Bachelors degree in Computer Science, MIS, Engineering or related degree with 10+ years of prior relevant work experience; OR an Advanced Degree with 7+ years of prior relevant work experience.

- Hands-on Siemens Opcenter Execution experience — building customizations/extensions in its model-driven environment (data model, Functional Blocks / POM, Signal Rules, Business Process Flows, model-driven UI). (Camstar / Opcenter Execution Core lineage is relevant.).


- Proficiency in Mendix — building and extending low-code applications (Studio Pro, microflows/nanoflows, custom widgets), ideally in an Opcenter / manufacturing context.


- Strong C# / .NET engineering skills — server-side extension logic, integration services, and familiarity with the Microsoft / Visual Studio toolchain; Entity Framework and OData/REST.

- Demonstrated systems-integration experience between enterprise systems via REST/OData (and ideally event/message-based patterns), with a clear grasp of incremental/delta synchronization and effectivity.


- Proven CI/CD ownership — Git-based source control, automated build/test/deploy pipelines (e.g., Azure DevOps, GitLab CI, Jenkins, or similar), versioning and rollback.


- Technical leadership experience — mentoring developers, running code reviews, and setting engineering standards, ideally across a distributed/offshore team.


- Excellent communication — able to align with non-technical operations and executive stakeholders as well as deep technical peers.


 

Qualifications We Prefer:

- Direct experience with Teamcenter and the Opcenter–Teamcenter integration (e.g., Opcenter Connect / CN4T, Active Integration Gateway, Connect MOM).
Working knowledge of the EBOM → MBOM → BOP → work-instruction digital thread and PLM change management (ECR/ECO/ECN).

- Aerospace & Defense or other regulated manufacturing background; familiarity with AS9100 and ITAR/EAR.

- Exposure to MRO / overhaul execution as well as new-make production.
Shop-floor / OT integration awareness (OPC UA, Automation Gateway) and ISA-95 / Purdue model concepts.

- Front-end skills that support model-driven UI work (HTML5, CSS3, JavaScript; Angular).

- Containerization / cloud deployment experience and infrastructure-as-code.

Learn More & Apply Now:

In addition to transforming the future of flight, we are also transforming how and where we work. We’ve introduced role types to help you understand how you will operate in our blended work environment. This role is:

What is my role type?

In addition to transforming the future of flight, we are also transforming how and where we work. We’ve introduced role types to help you understand how you will operate in our blended work environment.

This role is:

Remote: Employees who are working in Remote roles will work primarily offsite (from home).

Candidates will learn more about role type and current site status throughout the recruiting process.

*This requisition is eligible for an employee referral award.  ALL eligibility requirements must be met to receive the referral award.

As part of our commitment to maintaining a secure hiring process, candidates may be asked to attend select steps of the interview process in-person at one of our office locations, regardless of whether the role is designated as on-site, hybrid or remote.

The salary range for this role is 132,400 USD - 251,600 USD. The salary range provided is a good faith estimate representative of all experience levels. RTX considers several factors when extending an offer, including but not limited to, the role, function and associated responsibilities, a candidate’s work experience, location, education/training, and key skills. Hired applicants may be eligible for benefits, including but not limited to, medical, dental, vision, life insurance, short-term disability, long-term disability, 401(k) match, flexible spending accounts, flexible work schedules, employee assistance program, Employee Scholar Program, parental leave, paid time off, and holidays. Specific benefits are dependent upon the specific business unit as well as whether or not the position is covered by a collective-bargaining agreement. Hired applicants may be eligible for annual short-term and/or long-term incentive compensation programs depending on the level of the position and whether or not it is covered by a collective-bargaining agreement. Payments under these annual programs are not guaranteed and are dependent upon a variety of factors including, but not limited to, individual performance, business unit performance, and/or the company’s performance. This role is a U.S.-based role. If the successful candidate resides in a U.S. territory, the appropriate pay structure and benefits will apply. RTX anticipates the application window closing approximately 40 days from the date the notice was posted. However, factors such as candidate flow and business necessity may require RTX to shorten or extend the application window.

RTX is an Equal Opportunity Employer. All qualified applicants will receive consideration for employment without regard to race, color, religion, sex, sexual orientation, gender identity, national origin, age, disability or veteran status, or any other applicable state or federal protected class. RTX provides affirmative action in employment for qualified Individuals with a Disability and Protected Veterans in compliance with Section 503 of the Rehabilitation Act and the Vietnam Era Veterans’ Readjustment Assistance Act.

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About Pratt & Whitney

Sourced by ZipRecruiter

Pratt & Whitney has a long history of leadership and innovation in the field of aviation propulsion. Our story begins in the 1920s and has flourished throughout the decades. We have continuously transformed and reinvented our businesses to offer superior products and services to our customers. In 1925, the Pratt & Whitney Aircraft Company was founded by Frederick B. Rentschler, pioneer of the air-cooled radial engine design which enabled unprecedented power-to-weight ratio. Its first engine, the R-1340 Wasp engine, transformed military and commercial aviation and is still in use today. In 1928, the Canadian division of the Pratt & Whitney Aircraft Company was established. In 1944, Pratt & Whitney began its gas turbine and jet propulsion initiative. The company constructed a wind tunnel, laboratory and engineering center to support our allies’ efforts in World War II. In 1945, wartime production included more than 300,000 Pratt & Whitney engines, touted by service members as extremely dependable – a legacy that continues today. From there, Pratt & Whitney continued to design and innovate more powerful, agile, and reliable engines becoming a leader in the aerospace industry. Today, Pratt & Whitney has more than 85,000 engines in service and more than 16,000 customers worldwide.

Industry

Engineering professional services

Company size

10,000+ Employees

Headquarters location

East Hartford, CT, US

Year founded

1925