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Biomedical Engineering Jobs in Rochester, MA (NOW HIRING)

Biomedical Engineering Job Category: Scientific/Technology All Job Posting Locations: Raynham, Massachusetts, United States of America About Orthopaedics Fueled by innovation at the intersection of ...

... or biomedical engineering ★ Must be a U.S. citizen to serve as Active Duty ★ Must have a permanent U.S. residency serve in the Army Reserve Have questions or want more information? To find out ...

Bachelor's or master'sdegree in biology, chemistry, toxicology, microbiology, biomedical engineering, or a related scientificdisciplinewith a minimum of2years ofindustrialexperiencein ...

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Biomedical Engineering information

See Rochester, MA salary details

$42.1K

$97.5K

$143.9K

How much do biomedical engineering jobs pay per year?

As of Jul 15, 2026, the average yearly pay for biomedical engineering in Rochester, MA is $97,463.00, according to ZipRecruiter salary data. Most workers in this role earn between $76,600.00 and $119,200.00 per year, depending on experience, location, and employer.

Do biomedical engineers make money?

Biomedical engineers typically earn a median annual salary that varies by experience, education, and location, with entry-level positions starting around $60,000 and experienced professionals earning over $100,000. They work in healthcare, research, and manufacturing environments, often requiring a bachelor's degree in biomedical engineering or related fields. Certifications and specialized skills can also influence earning potential.

What engineers make $500,000?

In biomedical engineering, high salaries reaching $500,000 are typically achieved by senior-level professionals with extensive experience, advanced degrees, and leadership roles such as director or chief engineer. These positions often involve overseeing complex projects, managing teams, and working in specialized areas like medical device development or biotech research, often in large companies or healthcare organizations.

What type of jobs do biomedical engineers do?

Biomedical engineers design and develop medical devices, equipment, and software used in healthcare, such as imaging systems, prosthetics, and diagnostic tools. They often work in research labs, hospitals, or manufacturing environments, applying engineering principles to improve patient care and medical technology. Strong knowledge of biology, engineering, and computer skills are essential for these roles.

What are the typical work environments and team structures for biomedical engineers?

Biomedical engineers often work in diverse settings, including hospitals, research labs, manufacturing companies, or academic institutions. They usually collaborate in interdisciplinary teams with healthcare professionals, scientists, and product designers to develop and test medical devices or technologies. Depending on the organization, you may be involved in research and development, regulatory compliance, or product support, allowing for a mix of independent and team-based work. This collaborative approach not only enriches daily tasks but also provides valuable exposure to different specialties within the biomedical field. As a result, biomedical engineers often find numerous opportunities for growth and career advancement.

What is a Biomedical Engineering job?

A Biomedical Engineering job involves applying engineering principles to healthcare and medical fields. Biomedical engineers design, develop, and improve medical devices, equipment, and software used in patient care. They work in hospitals, research facilities, and the medical device industry to enhance diagnostics, treatment, and rehabilitation. Their work combines biology, medicine, and engineering to solve healthcare challenges and improve patient outcomes.

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

To thrive as a Biomedical Engineer, you need a strong background in biology, engineering principles, and mathematics, typically supported by a relevant bachelor's or master's degree. Familiarity with CAD software, laboratory instrumentation, and regulatory standards like FDA guidelines is essential for this role. Strong analytical thinking, problem-solving abilities, and collaborative communication skills help biomedical engineers excel in multidisciplinary environments. These competencies are critical for designing safe, effective medical devices and solutions that improve patient care.

What engineers make $300,000 a year?

Senior biomedical engineers with extensive experience, advanced specialized skills, and leadership roles can earn salaries approaching or exceeding $300,000 annually, especially in high-demand sectors like medical device development or biotech. Achieving this level often requires advanced degrees, certifications, and a strong track record of innovation or management in the field.
What cities near Rochester, MA are hiring for Biomedical Engineering jobs? Cities near Rochester, MA with the most Biomedical Engineering job openings:
Infographic showing various Biomedical Engineering job openings in Rochester, MA as of July 2026, with employment types broken down into 2% Internship, 1% As Needed, 86% Full Time, 10% Part Time, and 1% Contract. Highlights an 86% Physical, 4% Hybrid, and 10% Remote job distribution, with an average salary of $97,463 per year, or $46.9 per hour.
Staff Engineer Additive Manufacturing

Staff Engineer Additive Manufacturing

Johnson & Johnson

Raynham, MA • Hybrid

Full-time

Retirement, PTO

Re-posted 21 days ago


Johnson & Johnson rating

8.2

Company rating: 8.2 out of 10

Based on 110 frontline employees who took The Breakroom Quiz

29th of 74 rated pharmaceutical


Job description

At Johnson & Johnson,we believe health is everything. Our strength in healthcare innovation empowers us to build aworld where complex diseases are prevented, treated, and cured,where treatments are smarter and less invasive, andsolutions are personal.Through our expertise in Innovative Medicine and MedTech, we are uniquely positioned to innovate across the full spectrum of healthcare solutions today to deliver the breakthroughs of tomorrow, and profoundly impact health for humanity.Learn more at jnj.com

As guided by Our Credo, Johnson & Johnson is responsible to our employees who work with us throughout the world. We provide an inclusive work environment where each person is considered as an individual. At Johnson & Johnson, we respect the diversity and dignity of our employees and recognize their merit.

Job Function:

R&D Product Development

Job Sub Function:

Biomedical Engineering

Job Category:

Scientific/Technology

All Job Posting Locations:

Raynham, Massachusetts, United States of America

Job Description:

About Orthopaedics

Fueled by innovation at the intersection of biology and technology, we're developing the next generation of smarter, less invasive, more personalized treatments.

Are you passionate about improving and expanding the possibilities of Orthopaedics? Ready to join a team that's reimagining how we heal? Our Orthopaedics teams help keep more than 6 million people moving each year while delivering clinical and economic value to surgeons and healthcare systems. Our teams build solutions for joint reconstruction; trauma and craniomaxillofacial; sports, extremities, and elective foot and ankle; spine; and robotics and digital surgery.

Your unique talents will help patients on their journey to wellness. Learn more at https://www.jnj.com/medtech.

We are searching for the best talent for a Staff Engineer, Additive Manufacturing, to support spine-focused medical device R&D through end-to-end titanium laser powder bed fusion (LPBF) prototyping and product development. This position is hybrid based out of our Raynham, MA office location.

Johnson & Johnson announced plans to separate our Orthopaedics business to establish a standalone orthopaedics company, operating as DePuy Synthes. The process of the planned separation is anticipated to be completed within 18 to 24 months, subject to legal requirements, including consultation with works councils and other employee representative bodies, as may be required, regulatory approvals and other customary conditions and approvals.

Should you accept this position, it is anticipated that, following conclusion of the transaction, you would be an employee of DePuy Synthes, and your employment would be governed by DePuy Synthes employment processes, programs, policies, and benefit plans.In that case, details of any planned changes would be provided to you by DePuy Synthes at an appropriate time and subject to any necessary consultation processes.

Purpose:The Staff Engineer will support the development and optimization of Additive Manufacturing processes and products for R&D. Specifically, this role will own the additive manufacturing loop-from defining and creating the build files, identifying ideal print slicing specifications, some printer operation activities, and structured feedback into subsequent design iterations. This position is best suited for an engineer who is comfortable operating metal AM equipment, applying DfAM principles, and working within a regulated medical device development environment.

A key focus of the position is expanding the team's AM capabilities, with the Staff Engineer collaborating closely with cross functional teams-including Manufacturing Innovation, Quality, Validation, and Maintenance The role involves developing and supporting value stream projects, ensuring alignment, standardization, and best practice implementation across the network.

You will be responsible for:

  • Lead end to end Additive Manufacturing process development and industrialization for complex processes and New Product Introductions (NPI), ensuring scalable, robust, and validated manufacturing processes.
  • Create, modify, and optimize LPBF build files for titanium medical implants including:
    • Part orientation and nesting strategy
    • Support generation and optimization to balance surface quality and removability
    • Thermal management considerations for distortion-sensitive implant geometries.
  • Review CAD models for printability, manufacturability, and risk, providing DfAM feedback tailored to spine implants (e.g., lattice development, fixation features, anatomical surfaces).
  • Maintain build documentation consistent with R&D and design control expectations.
  • Be familiar with LPBF Printer Operations including
    • Machine setup, calibration, and pre-build checks
    • Titanium powder handling, recycling, and traceability
    • Build execution, monitoring, and first-level troubleshooting
    • Part Removal, Post-Processing & Inspection
  • Identify print anomalies relevant to implant manufacturing (distortion, support failure, surface defects).
  • Support continuous improvement of AM processes, SOPs, and internal best practices for medical titanium printing.
  • Perform preliminary inspection and documentation:
    • Visual inspection and defect classification
    • Basic dimensional verification
    • Identification of risks impacting downstream testing (mechanical, fatigue, coating, etc.)
  • Prototype Feedback & R&D Iteration
  • Provide clear, structured feedback from each build to inform:
    • Design revisions
    • Build orientation and support changes
    • Parameter and layout refinements
    • Partner closely with Spine R&D engineers, Designers, and manufacturing teams to accelerate prototype learning cycles.
  • Lead cost reduction and productivity initiatives (scrap/rework reduction, throughput improvements, consumables optimization) with measurable savings and sustainability impacts.
  • Provide technical mentorship to engineers and technicians, champion continuous improvement culture, and support capability development across the organization.

Qualifications:

Required Qualifications & Experience

  • Bachelor's degree or equivalent experience in Engineering (or equivalent).
  • Demonstrated 4-6 years of experience in a relevant engineering role
  • Demonstrated ability in additive manufacturing/process engineering
  • 3+ years of hands-on experience with metal additive manufacturing, preferably LPBF.
  • Demonstrated experience creating metal AM build files (support design, part orientation, part slicing specifications, part layout).
  • Experience operating industrial LPBF printers, from build file setup to completed build.
  • Strong experience in structured problem solving and root cause analysis.
  • Excellent technical content skills (specifications, validation protocols, change control).
  • Experience leading multi-functional teams and influencing collaborators at multiple levels.
  • Proven experience supporting NPI, scaleup and transfer activities.

Preferred Qualifications & Experience (Nice to Haves)

  • Experience specifically with titanium spinal implants or orthopedic medical devices.
  • Familiarity with LPBF printing platforms, experience with 3DS printing platforms preferred
  • Experience with build prep software such as 3Dxpert, Materialise Magics, EOSPRINT, Netfabb, nTopology, or similar.
  • Exposure to post-processing steps commonly used in medical devices (heat treatment, HIP, surface finishing).
  • Familiarity with calibration, maintenance practices and working closely with inhouse maintenance teams.
  • Knowledge of regulatory requirements and submissions applicable to medical device manufacturing.
  • Prior experience mentoring/leading emerging engineers or small technical teams.

Johnson & Johnson is an Equal Opportunity Employer. All qualified applicants will receive consideration for employment without regard to race, color, religion, sex, sexual orientation, gender identity, age, national origin, disability, protected veteran status or other characteristics protected by federal, state or local law. We actively seek qualified candidates who are protected veterans and individuals with disabilities as defined under VEVRAA and Section 503 of the Rehabilitation Act.

Johnson & Johnson is committed to providing an interview process that is inclusive of our applicants' needs. If you are an individual with a disability and would like to request an accommodation, please contact us via https://www.jnj.com/contact-us/careers or contact AskGS to be directed to your accommodation resource.

#LI-VY1

#LI-hybrid

Required Skills:

Manufacturing Process Engineering, Problem Solving, Product Development

Preferred Skills:

NPI Management, Regulatory Requirements

The anticipated base pay range for this position is :

$109,000.00 - $174,800.00

Additional Description for Pay Transparency:

Subject to the terms of their respective plans, employees are eligible to participate in the Company's consolidated retirement plan (pension) and savings plan (401(k)).
Subject to the terms of their respective policies and date of hire, employees are eligible for the following time off benefits:
Vacation -120 hours per calendar year
Sick time - 40 hours per calendar year; for employees who reside in the State of Colorado -48 hours per calendar year; for employees who reside in the State of Washington -56 hours per calendar year
Holiday pay, including Floating Holidays -13 days per calendar year
Work, Personal and Family Time - up to 40 hours per calendar year
Parental Leave - 480 hours within one year of the birth/adoption/foster care of a child
Bereavement Leave - 240 hours for an immediate family member: 40 hours for an extended family member per calendar year
Caregiver Leave - 80 hours in a 52-week rolling period10 days
Volunteer Leave - 32 hours per calendar year
Military Spouse Time-Off - 80 hours per calendar year
Please use the following language:
For additional general information on Company benefits, please go to: - https://www.careers.jnj.com/employee-benefits

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