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Biomechanical Engineering Jobs in Indiana (NOW HIRING)

Ability to travel as needed EDUCATION AND/OR EXPERIENCE: BS in mechanical or biomechanical engineering from an ABET accredited engineering school required. Candidates with medical device industry ...

Deep knowledge of biomechanics, biomaterials, bioinstrumentation, medical imaging, tissue engineering, physiological systems modeling, biostatistics, and regulatory affairs. Ability to explain signal ...

Deep knowledge of biomechanics, biomaterials, bioinstrumentation, medical imaging, tissue engineering, physiological systems modeling, biostatistics, and regulatory affairs. Ability to explain signal ...

Deep knowledge of biomechanics, biomaterials, bioinstrumentation, medical imaging, tissue engineering, physiological systems modeling, biostatistics, and regulatory affairs. Ability to explain signal ...

Bachelor's degree in mechanical engineering, biomechanical, biomedical or closely related discipline. * Post-graduation experience of hands-on verifiable specific experience performing anatomic ...

Promote Life Time's Signature programming and brand culture * Participate in brand trainings, teach ... Background in sprint coaching and sprinting biomechanics Preferred: Experience leading group-based ...

Promote Life Time's Signature programming and brand culture * Participate in brand trainings, teach ... Background in sprint coaching and sprinting biomechanics Preferred: Experience leading group-based ...

Promote Life Time's Signature programming and brand culture * Participate in brand trainings, teach ... Background in sprint coaching and sprinting biomechanics Preferred: Experience leading group-based ...

Physical Therapist

Indianapolis, IN

$1.5K - $2.0K/wk

Conduct routine "Injury Prevention Rounds" to observe real-time biomechanics and ergonomics across ... As an elite coaching company, Exos applies itsevidence-based methodology to programming designed to ...

Conduct routine "Injury Prevention Rounds" to observe real-time biomechanics and ergonomics across ... As an elite coaching company, Exos applies itsevidence-based methodology to programming designed to ...

Physical Therapist

Indianapolis, IN ยท On-site

$1.5K - $2.0K/wk

Conduct routine "Injury Prevention Rounds" to observe real-time biomechanics and ergonomics across ... As an elite coaching company, Exos applies its evidence-based methodology to programming designed ...

Physical Therapist

Indianapolis, IN ยท On-site

$1.5K - $2.0K/wk

Conduct routine "Injury Prevention Rounds" to observe real-time biomechanics and ergonomics across ... As an elite coaching company, Exos applies its evidence-based methodology to programming designed ...

Injury Prevention Specialist

Indianapolis, IN ยท On-site

$89K - $90K/yr

Conduct routine "Injury Prevention Rounds" to observe real-time biomechanics and ergonomics across ... As an elite coaching company, Exos applies its evidence-based methodology to programming designed ...

Biomechanical Engineering information

See Indiana salary details

$34.7K

$102.1K

$130.8K

How much do biomechanical engineering jobs pay per year?

As of Jul 13, 2026, the average yearly pay for biomechanical engineering in Indiana is $102,085.00, according to ZipRecruiter salary data. Most workers in this role earn between $84,200.00 and $129,400.00 per year, depending on experience, location, and employer.

What are some common interdisciplinary collaborations for biomechanical engineers, and how do these impact daily work?

Biomechanical engineers frequently collaborate with professionals from fields such as medicine, materials science, mechanical engineering, and computer science. These interdisciplinary teams are essential for developing medical devices, prosthetics, or conducting biomechanical research. Daily work often involves participating in meetings to align on project goals, sharing research findings, and integrating feedback from clinicians or product designers. Such collaborations enhance innovation but also require strong communication skills and adaptability to different technical perspectives.

What engineers make $500,000?

In biomechanical engineering, high salaries reaching or exceeding $500,000 are typically achieved by senior-level professionals, often in executive or specialized consulting roles, or those with extensive experience and advanced certifications. Such compensation is more common in large corporations, biotech firms, or medical device companies where advanced skills, leadership, and innovation are highly valued.

What kind of jobs can I get with a biomedical engineering degree?

Biomedical engineering graduates can pursue roles such as biomechanical engineer, medical device designer, clinical engineer, or research scientist. These jobs often involve designing and testing medical equipment, working in healthcare settings, or conducting research, and may require knowledge of CAD software, regulatory standards, and biological sciences.

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

To thrive as a Biomechanical Engineer, you need a strong background in engineering principles, biology, and biomechanics, usually supported by a degree in biomedical or mechanical engineering. Familiarity with CAD software, finite element analysis tools, and experience with laboratory instrumentation are commonly required, and certifications like EIT or PE can be advantageous. Strong problem-solving, teamwork, and communication skills help in collaborating with multidisciplinary teams and conveying technical concepts. These skills ensure the effective design, analysis, and improvement of medical devices and systems for enhanced patient care and safety.

What is the difference between Biomechanical Engineering vs Mechanical Engineering?

AspectBiomechanical EngineeringMechanical Engineering
CredentialsBachelor's or Master's in Biomedical or Mechanical Engineering, possibly with specialization in biomechanicsBachelor's or Master's in Mechanical Engineering, often with a focus on design, thermodynamics, or materials
Work EnvironmentHospitals, research labs, medical device companies, biotech firmsManufacturing, automotive, aerospace, energy sectors
Industry UsageHealthcare, medical devices, rehabilitation technologyAutomotive, aerospace, manufacturing, energy

Biomechanical Engineering focuses on applying engineering principles to biological systems and medical devices, often working in healthcare settings. Mechanical Engineering has a broader scope, covering various industries like manufacturing and automotive. Both fields require strong engineering fundamentals, but their applications and work environments differ significantly.

What do you do as a biomechanical engineer?

A biomechanical engineer designs and analyzes systems that apply principles of mechanics to biological tissues and devices, such as prosthetics, implants, and medical devices. They use tools like CAD software and conduct experiments to improve human health and performance, often working in research labs or healthcare settings. Strong knowledge of biology, mechanics, and materials science is essential for this role.

What does a biomechanical engineer make?

A biomechanical engineer typically earns a salary ranging from $60,000 to $100,000 annually, depending on experience, education, and location. They often work in research labs, healthcare, or manufacturing environments, utilizing skills in engineering, biology, and computer modeling.

What is biomechanical engineering?

Biomechanical engineering is a multidisciplinary field that applies principles of mechanics, biology, and engineering to analyze and solve problems related to the human body and biological systems. It involves designing medical devices, prosthetics, implants, and studying the mechanics of tissues and organs. Biomechanical engineers work closely with healthcare professionals to improve patient outcomes and develop innovative technologies for medicine and rehabilitation. This field plays a crucial role in advancing healthcare solutions and understanding the biomechanics of movement, injury, and disease.
Development Engineer

Development Engineer

OrthoPediatrics

Warsaw, IN โ€ข On-site

Full-time

Posted 4 days ago


Job description

Founded in 2006, OrthoPediatrics is an orthopedic company focused exclusively on advancing the field of pediatric orthopedics. As such it has developed the most comprehensive product offering to the pediatric orthopedic market to improve the lives of children with orthopedic conditions. OrthoPediatrics currently markets 53 products that serve three of the largest categories within the pediatric orthopedic market. This product offering spans trauma and deformity, scoliosis, and sports medicine/other procedures. OrthoPediatrics' global sales organization is focused exclusively on pediatric orthopedics and distributes its products in the United States and over 70 countries outside the United States. For more information, please visit www.orthopediatrics.com.
GENERAL SUMMARY: The Development Engineer supports the Project Core Team over the course of a project, performing engineering tasks to bring products from conception to market release. Participates in product development and lifecycle maintenance including beginning to end activities on new and sustaining product development. Day to day activities range from collaborating with Project Core Team on design details and working with project customers (surgeons, marketing staff, and technical sales force). Position is a supportive, subordinate role.
ESSENTIAL DUTIES AND RESPONSIBILITIES:
  • Completing tasks assigned in a timely manner
  • Supports Design History File and Risk Management File creation and maintenance
  • Work directly with surgeons and surgical staff in an Operating Room environment to generate and validate user needs.
  • Work with surgeons, sales and the Project Core Team to develop concept designs into usable products
  • Solve surgical problems by applying engineering solutions through mechanical hardware
  • Generate verification/validation protocols, carry out product evaluations per the protocol, and generate reports summarizing the testing
  • Work with other Project Core Team members to provide information necessary for project tasks
  • Communicate updates to Project Core Team and Management Team members regularly
  • Understand/document project goals, work towards timeline goals
  • Create 3-D CAD models and engineering drawings
  • Develop an understanding of existing and new products
  • Work within design controls (input, output, verification, validation)
  • Creating and completing Functional Relationship Analysis (FRA) and the associated Protocols and Reports
  • Work with suppliers to ensure products are cost effectively designed for manufacturability
  • Perform product lifecycle management activities, including, but not limited to: investigating customer complaints, CAPAs, and executing design/documentation changes/updates.

SUPERVISORY RESPONSIBILITIES: There are no supervisory responsibilities.
QUALIFICATIONS: To perform this job successfully, an individual must be able to perform each essential duty satisfactorily. (The requirements listed below are representative of the knowledge, skill and/or ability required. Reasonable accommodations may be made to enable individuals with disabilities to perform the essential functions.)
  • Must comprehend and understand how product is machined, cast, forged, or formed
  • Work experience in regulated industry/medical devices is strongly desired
  • Familiarity with CAD system-Unigraphics/NX preferred
  • Familiarity with geometric tolerancing and dimensioning (GD&T)
  • Must possess strong mechanical design skills
  • Must be able to work on various projects as priorities change or directives are adjusted
  • Problem solving skills required
  • Ability to work within a team setting
  • Ability to travel as needed

EDUCATION AND/OR EXPERIENCE: BS in mechanical or biomechanical engineering from an ABET accredited engineering school required. Candidates with medical device industry experience are strongly preferred, especially those with expertise in spinal fusion implants and related instrumentation. Knowledge of the clinical, regulatory, and technical requirements associated with spine fusion products is highly desirable.
LANGUAGE SKILLS: Ability to read and comprehend instructions, correspondence, and memos. Ability to prepare routine reports and correspondence. Ability to communicate effectively with customers, vendors and other employees of the organization. Requires excellent grammar and spelling.
Mathematical Skills: Ability to add, subtract, multiply, and divide in all units of measure, using whole numbers, common fractions, and decimals.
Reasoning Ability: Ability to apply common sense understanding to carry out instructions furnished in written, oral, or diagram form. Ability to deal with problems involving several concrete variables in standardized situations.
Certificates, Licenses, Registrations: Requires a valid driver's license.
Other Skills and Abilities: Requires the ability to operate a variety of standard office equipment, such as a computer and keyboard, calculator, photocopier, telephone, cell phone, etc. Requires proficiency with Microsoft Word, Excel, Outlook and PowerPoint.
Physical demands: (The physical demands described here are representative of those that must be met by an employee to successfully perform the essential functions of this job. Reasonable accommodations may be made to enable individuals with disabilities to perform the essential functions.)
While performing the duties of this job, the employee is regularly required to sit and use hands to finger, handle or feel. The employee is frequently required to climb stairs, talk and hear. The employee is occasionally required to stand; walk; reach with hands and arms; and stoop, kneel, crouch, or crawl. The employee must occasionally lift and/or move up to 25 pounds. Specific vision abilities required by this job include close vision, distance vision, color vision, peripheral vision, and ability to adjust focus.
Work Environment: (The work environment characteristics described here are representative of those an employee encounters while performing the essential functions of this job. Reasonable accommodations may be made to enable individuals with disabilities to perform the essential functions.)
The noise level in the work environment is that found in a "normal office environment; noise levels during visits to other locations in the building may be moderate and occasionally loud. Occasional travel may be necessary.
The above statement reflects the general details necessary to describe the principal functions of the occupation described and shall not be construed as a detailed description of all the work requirements that may be inherent in the occupation.