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Computational Biomechanics Jobs (NOW HIRING)

Biomechanics Associate (Ph.D.)

Atlanta, GA

$14.50 - $16.50/hr

Knowledge of computational modeling methods for analyzing biomechanical response to forces is valued, but not required * Interest in, and eligibility to, obtain a Professional Engineer (P.E.) license

Biomechanics Associate (Ph.D.)

Atlanta, GA · On-site

$14.50 - $16.50/hr

Knowledge of computational modeling methods for analyzing biomechanical response to forces is valued, but not required * Interest in, and eligibility to, obtain a Professional Engineer (P.E.) license

Biomechanics Associate (Ph.D.)

Atlanta, GA · On-site

$14.50 - $16.50/hr

Knowledge of computational modeling methods for analyzing biomechanical response to forces is valued, but not required * Interest in, and eligibility to, obtain a Professional Engineer (P.E.) license

What you will be doing Post-Doctoral Fellowship Computational Knee/ACL Biomechanics Hospital for Special Surgery Biomechanics Department New York City, NY, USA Position start date: Applications will ...

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Computational Biomechanics information

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$40

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How much do computational biomechanics jobs pay per hour?

As of Jul 16, 2026, the average hourly pay for computational biomechanics in the United States is $54.93, according to ZipRecruiter salary data. Most workers in this role earn between $46.88 and $73.56 per hour, depending on experience, location, and employer.

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

To thrive in Computational Biomechanics, you need a strong background in biomechanics, mathematics, and computer science, often supported by an advanced degree in biomedical engineering or a related field. Proficiency with finite element analysis (FEA) software, programming languages like MATLAB or Python, and experience with medical imaging tools are commonly required. Strong analytical thinking, problem-solving skills, and collaboration with interdisciplinary teams make candidates stand out. These skills ensure accurate modeling, effective research outcomes, and successful collaboration across engineering and healthcare projects.

What are some typical responsibilities of a Computational Biomechanics professional in a research or industry setting?

Computational Biomechanics professionals are typically responsible for developing and implementing computer models to simulate biological systems, analyzing biomechanical data, and validating computational results with experimental or clinical data. They often collaborate closely with engineers, medical professionals, and researchers to design studies, interpret findings, and optimize medical devices or interventions. Daily tasks may include coding algorithms, running simulations, processing medical images, and presenting findings to project teams or stakeholders. This multidisciplinary role often requires adaptability and communication skills to translate complex scientific results into actionable insights for both technical and non-technical audiences.

What is a Computational Biomechanics job?

A Computational Biomechanics job involves using computer simulations, mathematical models, and engineering principles to analyze the mechanical behavior of biological systems. Professionals in this field work on applications such as medical implants, sports performance optimization, injury prevention, and tissue modeling. They often use software like finite element analysis (FEA) tools to study forces, stresses, and deformations in biological structures. This role typically requires expertise in biomechanics, programming, and data analysis and is common in industries such as healthcare, biomedical engineering, and research institutions.

What cities are hiring for Computational Biomechanics jobs? Cities with the most Computational Biomechanics job openings:
What are the most commonly searched types of Computational Biomechanics jobs? The most popular types of Computational Biomechanics jobs are:
What states have the most Computational Biomechanics jobs? States with the most job openings for Computational Biomechanics jobs include:

Finite Element (FEA) Research Engineer

Globusmedical

Audubon, PA

Full-time

Posted 21 days ago


Job description

At Globus Medical, we move with a sense of urgency to deliver innovations that improve the quality of life of patients with musculoskeletal disorders. Our team is inspired by the needs of these patients, and the surgeons and healthcare providers who treat them. We embrace a culture of exceptional response by partnering with researchers and educators to transform clinical insights into tangible solutions. Our solutions improve the techniques and outcomes of surgery so patients can resume their lives as quickly as possible.

Position Summary:

The Finite Element (FEA) Research Engineer will be responsible for leading computational simulation efforts, including the development, validation, and execution of FEA models for spine (and/or trauma and joint reconstruction) to address unmet clinical needs. This role bridges the gap between engineering and clinical application by working directly with surgeons and internal research teams to simulate biomechanical environments to advance research initiatives and findings within the company. While the primary focus is on finite element analysis (FEA), the individual will also be responsible for operating micro-CT systems, supporting animal studies, and providing analytical support for cross-functional biomechanics engineers. The person needs to have strong self-starting qualities to independently manage coordination of multiple projects to ensure timely and successful completion. Must be enthusiastic, positive, even tempered and have strong skills in areas of dependability, interpersonal relationships, communication, organizational, flexibility and maturity.

Essential Functions:

  • Develops advanced computational protocols and finite element models in collaboration with surgeons and researchers; specifically, plans and executes general and patient-specific spinal simulations to identify pros/cons in clinical treatments to optimize surgical outcomes in musculoskeletal fields
  • Develops anatomical models from diagnostic data and validates mechanical analysis with experimental data
  • Leads project activities involving surgeons and internal personnel, including simulation kick-off meetings, presentation of virtual stress analysis.
  • Supports biomechanics engineers by providing analytical data and integrating experimental bench testing results with computational models.
  • Ensures publication submission deadlines are met and generates a steady stream of peer-reviewed publications and podium presentations focused on computational biomechanics.
  • Creates detailed technical reports on simulation results, validation metrics, and the status of various research projects.
  • Perform FEA on engineering proposals and designs to determine feasibility based on mechanical performance, wear stimulation, and fatigue testing
  • May additionally support product development with FEA virtual insights into 1). mechanical performance of pipeline products needed for re-design/improvement iterations or 2). engineering rationale needed for worst-case sizing or regulatory body submissions (as needed)
  • Works with PD, Sales & Marketing, and surgeons to identify new opportunities for computational research and virtual testing - including other kinematic musculoskeletal models.
  • Operates and maintains micro-CT imaging systems, including specimen preparation, high-resolution scanning, and volumetric data analysis
  • Assists in the execution of animal studies, focusing on image-based quantitative analysis of tissue response and implant integration
  • Assist in the planning, creation, and maintenance of a state-of-the art research laboratory with all necessary equipment
  • Create and build a reputation as the best musculoskeletal computational research facility
  • Adheres to the letter and spirit of the company Code of Conduct, the AdvaMed Code, MedTech Code, and all other company policies.
  • Ensures Compliance with applicable governmental laws, rules, and regulations, both in the United States and internationally, by completing introductory and annual training and maintaining knowledge of compliance as it applies to your role
  • Represents the company in a professional manner and uphold the highest standards of ethical business practices and socially responsible conduct in all interactions with other employees, customers, suppliers, and other third parties

Reasonable accommodations may be made to enable individuals with disabilities to perform these essential functions.

Qualifications:

  • 3-5 years experience in a research environment in biomechanical and musculoskeletal areas preferably with medical devices
  • Bachelor's (or preferably Master's/PhD Degree) in Biomedical Engineering, Mechanical Engineering, or a related field with 2-3 years of FEA and simulation experience in the field of orthopedics
  • Demonstrated computer skills to be able to evaluate product designs using available CAE software (ABAQUS/ANSYS/CREO)
  • Ability to create models and non-linear material behavior in FEA software
  • Familiarity with medical image segmentation software (e.g., Mimics, Simpleware) and/or medical scanning modalities
  • Effective communication skills to communicate with employees at all levels of the organization including ability to translate technical data for clinical stakeholders.
  • Previous publication experience or scientific writing preferred
  • Strong knowledge of Windows, Microsoft Office, and Microsoft Project
  • Minimal travel for educational conferences or U.S. standards societies
  • Attention to detail
  • Self-starter
  • Advanced critical thinking and problems-solving skills

Physical Demands:

The physical demands listed here are representative of those that must be met by an employee to successfully perform the essential functions of this job.

  • Required to sit; climb or balance; and stoop, kneel, crouch or crawl
  • Required to regularly lift and/or move up to 10 pounds, and occasionally lift and/or move up to 25 pounds
  • Required to possess specific visons abilities, including: close vision, distance vision, color vision, peripheral vision, depth perception and capacity to adjust focus

Our Values:

Our Life Moves Us philosophy is built on four values: Passionate About Innovation, Customer Focused, Teamwork, and Driven.

  • Passionate about Innovation: Improving patient care by delivering advanced technology to our customers is at the core of what we do. We are passionate in our role in improving the lives of patients by continuously developing better solutions.

  • Customer Focused: We listen to our customers' needs and respond with a sense of urgency.

  • Teamwork: Working together, anything is possible. We value every person on our team and treat each other with respect. We are accountable to one another and support each other. Together, we make each other stronger.

  • Driven: We pursue our mission with energy and passion. We are nimble, results-oriented and decisive. We overcome obstacles that arise in our quest to deliver solutions that will improve the lives of our customers and patients.

Equal Employment Opportunity:

Globus Medical is an equal opportunity employer. All applicants will receive consideration for employment without regard to race, color, religion, gender, sexual orientation, age, disability, marital status, pregnancy, national origin or citizenship. We are committed to a diverse workforce. We value all employees' talents and support an environment that is inclusive and respectful.

Other Duties:

Please note this job description is not designed to cover or contain a comprehensive listing of activities, duties or responsibilities that are required of the employee for this job. Duties, responsibilities and activities may change at any time with or without notice.