Staff Engineer Additive Manufacturing

At Johnson & Johnson, we believe health is everything. Our strength in healthcare innovation empowers us to build a world where complex diseases are prevented, treated, and cured, where treatments are smarter and less invasive, and solutions are personal. Through our expertise in Innovative Medicine and Med Tech, 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.

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

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

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.

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.

• 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…