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Medical Device Cfd Jobs (NOW HIRING)

Orbotech

Sr. Mechanical Engineer (E)

Milpitas, CA

$117K - $200K/yr

Virtually every electronic device in the world is produced using our technologies. No laptop ... and CFD analysis, conceptual and detailed design, drawing creation, design reviews, and ...

Apple

Camera Mechanical FEA Engineer

San Diego, CA

$139K - $210K/yr

We live in a mobile and device driven world where knowledge of the physical world around us is ... Experience in electromagnetic, heat transfer, and CFD analysis. Experience with calibration ...

NTT Data, Inc.

5277 - Mechanical Engineer L1

$84K - $117K/yr

... Fluid Dynamics (CFD) tools. • Strong analytical and problem-solving skills. EDUCATION ... Employees receive paid time-off, medical, dental, and vision benefits, life and supplemental ...

Agilent

R&D Engineer

Wilmington, DE · On-site

$116K - $182K/yr

Finite Element (FEA), Computational Fluid Dynamics (CFD) and other numerical simulation techniques ... medical condition, genetic information, marital status, registered domestic partner status, age ...

Agilent

R&D Engineer

Wilmington, DE · On-site

$116K - $182K/yr

Finite Element (FEA), Computational Fluid Dynamics (CFD) and other numerical simulation techniques ... medical condition, genetic information, marital status, registered domestic partner status, age ...

Danaher

R&D Engineer

Cortland, NY · On-site

$75K - $85K/yr

Role is a part of our growing central R&D team (Filtration Technology and Device Design) This ... We offer comprehensive package of benefits including paid time off, medical/dental/vision insurance ...

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Medical Device Cfd information

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$11K

$93K

$132K

How much do medical device cfd jobs pay per year?

As of Jun 7, 2026, the average yearly pay for medical device cfd in the United States is $93,015.00, according to ZipRecruiter salary data. Most workers in this role earn between $85,500.00 and $110,000.00 per year, depending on experience, location, and employer.

What are some typical challenges faced by Medical Device CFD engineers when simulating complex biomedical flows?

Medical Device CFD engineers often encounter challenges such as accurately modeling complex, patient-specific geometries and simulating non-Newtonian fluid behaviors found in blood flow. They must also ensure that simulations adhere to strict regulatory standards and validation requirements. Collaborating with clinicians and device designers to interpret results and iterate designs is common, requiring strong communication skills and a multidisciplinary approach. These challenges make it essential for engineers in this role to stay current with the latest simulation software and validation techniques.

What is the difference between Medical Device Cfd vs Medical Device Technician?

AspectMedical Device CfdMedical Device Technician
CertificationsRegulatory and compliance certifications, often including FDA and ISO standardsTechnical certifications, such as biomedical equipment technician (BMET) certifications
Work EnvironmentDesign, development, and regulatory compliance settings, often in offices or labsMaintenance, repair, and installation in hospitals or clinics
Employer & Industry UsageMedical device manufacturing companies, regulatory agenciesHospitals, medical equipment service providers

While both roles involve working with medical devices, Medical Device Cfd focuses on design, compliance, and regulatory aspects, whereas Medical Device Technicians handle installation, maintenance, and repair. Understanding these differences helps professionals choose the right career path or job focus within the medical device industry.

What is a Medical Device CFD specialist?

A Medical Device CFD (Computational Fluid Dynamics) specialist is an engineer or scientist who uses computer simulations to analyze and predict fluid flow and related physical phenomena in medical devices. This role is essential in designing and optimizing devices such as inhalers, blood pumps, stents, and ventilators to ensure they perform safely and efficiently. They work closely with biomedical engineers and product designers to validate device performance and support regulatory submissions.

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

To excel as a Medical Device CFD Engineer, you need a solid background in mechanical or biomedical engineering, with expertise in computational fluid dynamics (CFD) and a relevant engineering degree. Familiarity with CFD software such as ANSYS Fluent or COMSOL Multiphysics, as well as experience with CAD tools and possibly regulatory standards like ISO 13485, is typically required. Strong problem-solving skills, attention to detail, and effective communication are crucial soft skills for collaborating with cross-functional teams and interpreting complex data. These skills ensure accurate simulation, compliance with safety standards, and the successful development of innovative medical devices.
Mechanical Engineer, Early Research and Development

Mechanical Engineer, Early Research and Development

Avispa Technology

Santa Clara, CA • On-site

$70/hr

Full-time

Medical, Dental, Vision, Life, Retirement

Posted 7 days ago

Job description

Job Description
Mechanical Engineer, Early Research and Development ROCGJP00040395
  • Hourly pay: $70
  • Worksite: Leading biotechnology company (Santa Clara, CA 95050)
  • W2 Employment, Group Medical, Dental, Vision, Life, Retirement Savings Program, PSL
  • 40 hours/week, 6 Month Assignment

A leading biotechnology company is seeking a Mechanical Engineer, Early Research and Development, to support the design and development of next-generation DNA sequencing instrumentation. This hands-on role will focus on solving complex mechanical challenges related to electro-mechanical, pneumatic, thermal, and fluidic systems while contributing to highly integrated sequencing and automation platforms in a fast-paced R&D environment.
Mechanical Engineer, Early Research and Development Responsibilities:
  • Lead the end-to-end design, development, integration, and testing of mechanical sub-systems, including electro-mechanical, pneumatic, thermal, and fluidic components for next-generation sequencing platforms.
  • Develop novel mechanisms for automated reagent and flow cell loading, clamping, sealing, and thermal management while collaborating cross-functionally with electrical, consumables, materials, and systems integration teams.
  • Drive subsystem ownership throughout integration, verification, troubleshooting, design reviews, and technical trade-off discussions to ensure performance, reliability, manufacturability, and project alignment.
  • Create and maintain detailed CAD models, manufacturing drawings, specifications, and technical documentation while contributing to technical strategy, architecture decisions, and project execution timelines.
  • Present technical progress, design rationale, performance data, and engineering recommendations to project teams and stakeholders while supporting innovation and continuous improvement initiatives.

Mechanical Engineer, Early Research and Development Qualifications:
  • Bachelor's degree in Mechanical Engineering, Bioengineering, or related discipline with 4+ years of relevant industry experience; OR
  • Master's degree with 2+ years of relevant industry experience; OR
  • PhD with 1+ year of relevant industry experience.
  • Hands-on experience designing, developing, and testing complex electro-mechanical, pneumatic, thermal, or fluidic systems, preferably for life science or diagnostic instrumentation.
  • Strong proficiency with 3D CAD software such as SolidWorks and experience creating manufacturing drawings and designing for machining, injection molding, and additive manufacturing processes.
  • Experience in troubleshooting complex issues involving hardware, software, and chemistry interfaces within multidisciplinary engineering environments.
  • Proficiency with machine shop tools, test and measurement equipment, and rapid prototyping technologies such as 3D printers, laser cutters, and CNC mills/lathes.
  • Strong problem-solving, organizational, communication, and cross-functional collaboration skills with the ability to work effectively in fast-paced and ambiguous environments.
  • Experience with Python, LabVIEW, or similar tools for device control and data acquisition is preferred.
  • Experience using simulation tools such as CFD or FEA to guide engineering decisions is preferred.
  • Prior experience developing next-generation sequencing (NGS), genomics, or other regulated life science instrumentation is preferred.
  • Experience working within regulated product development environments is preferred.

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