What does a bio-mechanical engineer do?
Bio-mechanical engineer responsibilities
Here are examples of responsibilities from real bio-mechanical engineer resumes:
- Provide mechanical design and sustaining engineering expertise to troubleshoot manufacturing defect trends and achieve a more robust and producible product.
- Help debugging USB type-c problems.
- Develop a UEFI shell base application to validate SMBIOS.
- Implement UEFI SCSI/SAS protocols and HII for configuration utility.
- Develop BIOS firmware for OEM motherboard manufacturers using MASM.
- Develop post-release support for new functions (for instance: USB).
- Involve in development / debugging of platform specific error management implementation for the Caneland CV BIOS.
- Perform multiple augments installing and adding new devices/servers along with adding configurations for video streaming using Unix and checking router configurations.
- Develop mechanical documentation and process to specify PCB mechanical parameters for PC designers and HW engineers.
Bio-mechanical engineer skills and personality traits
We calculated that 44% of Bio-Mechanical Engineers are proficient in Uefi, Linux, and Debugging. They’re also known for soft skills such as Analytical skills, Communication skills, and Creativity.
We break down the percentage of Bio-Mechanical Engineers that have these skills listed on their resume here:
- Uefi, 44%
Implemented UEFI SCSI/SAS protocols and HII for configuration utility.
- Linux, 30%
Managed and installed firmware for various systems with Windows, Linux and proprietary POS operating systems.
- Debugging, 12%
Involved in development / debugging of platform specific error management implementation for the Caneland CV BIOS.
- USB, 6%
Develop post-release support for new functions (for instance: USB).
- BMC, 6%
Supported IPMI interface and Communication between BIOS and BMC.
- Solidworks, 2%
Utilized skills in three-dimensional computer-aided design software (SolidWorks) to facilitate completion of computer models and drawing packages for manufacture.
"uefi," "linux," and "debugging" are among the most common skills that bio-mechanical engineers use at work. You can find even more bio-mechanical engineer responsibilities below, including:
Analytical skills. One of the key soft skills for a bio-mechanical engineer to have is analytical skills. You can see how this relates to what bio-mechanical engineers do because "bioengineers and biomedical engineers must assess the needs of patients and customers prior to designing products." Additionally, a bio-mechanical engineer resume shows how bio-mechanical engineers use analytical skills: "release of system level and mechanical engineering assembly drawings into product data management, windchill and sap. "
Communication skills. Another essential skill to perform bio-mechanical engineer duties is communication skills. Bio-mechanical engineers responsibilities require that "because bioengineers and biomedical engineers sometimes work with patients and customers and frequently work on teams, they must be able to express themselves clearly in discussions." Bio-mechanical engineers also use communication skills in their role according to a real resume snippet: "supported ipmi interface and communication between bios and bmc. "
Creativity. This is an important skill for bio-mechanical engineers to perform their duties. For an example of how bio-mechanical engineer responsibilities depend on this skill, consider that "bioengineers and biomedical engineers must be creative to come up with innovations in healthcare equipment and devices." This excerpt from a resume also shows how vital it is to everyday roles and responsibilities of a bio-mechanical engineer: "developed creative sound instruments for dj/ recording studio and musicians cad software: creo 3.0".
Math skills. A big part of what bio-mechanical engineers do relies on "math skills." You can see how essential it is to bio-mechanical engineer responsibilities because "bioengineers and biomedical engineers use calculus and other advanced math and statistics for analysis, design, and troubleshooting in their work." Here's an example of how this skill is used from a resume that represents typical bio-mechanical engineer tasks: "applied quality control techniques: motorola's approach to quality, lean six sigma foundations and basic statistics. "
Problem-solving skills. Another common skill required for bio-mechanical engineer responsibilities is "problem-solving skills." This skill comes up in the duties of bio-mechanical engineers all the time, as "bioengineers and biomedical engineers typically deal with intricate biological systems." An excerpt from a real bio-mechanical engineer resume shows how this skill is central to what a bio-mechanical engineer does: "conduct mechanical related failure analysis (fa) to identify the root cause and provide solutions. "
The three companies that hire the most bio-mechanical engineers are:
- 3D Systems4 bio-mechanical engineers jobs
- ICONMA2 bio-mechanical engineers jobs
- Hewlett Packard Enterprise1 bio-mechanical engineers jobs
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Compare different bio-mechanical engineers
Bio-mechanical engineer vs. Senior biomedical technician
Engineers are highly trained professionals who determine the feasibility of various projects, usually related to the construction industry. They are considered experts in mathematics and science, two disciplines that they need to use in designing and coming up with plans for projects. They should also be well-versed in different construction or industrial materials, and they ensure that appropriate materials are used for the project. They also ensure that the projects meet the requirements of the groups that hired them. They create spaces that would both address the needs of the end-users and the industry standards. They also ensure that the projects they make would stand the test of time.
While similarities exist, there are also some differences between bio-mechanical engineers and senior biomedical technician. For instance, bio-mechanical engineer responsibilities require skills such as "uefi," "linux," "debugging," and "usb." Whereas a senior biomedical technician is skilled in "biomedical equipment," "health system," "equipment operation," and "medical devices." This is part of what separates the two careers.
Senior biomedical technicians tend to reach lower levels of education than bio-mechanical engineers. In fact, senior biomedical technicians are 8.4% less likely to graduate with a Master's Degree and 2.3% less likely to have a Doctoral Degree.Bio-mechanical engineer vs. Engineer
A Junior Engineer helps design, build, or maintain engines, machines, or public works. They work under the supervision of an engineer.
In addition to the difference in salary, there are some other key differences worth noting. For example, bio-mechanical engineer responsibilities are more likely to require skills like "uefi," "medical equipment," "usb," and "i2c." Meanwhile, an engineer has duties that require skills in areas such as "python," "cloud," "c #," and "aws." These differences highlight just how different the day-to-day in each role looks.
Engineers may earn a higher salary than bio-mechanical engineers, but engineers earn the most pay in the automotive industry with an average salary of $97,672. On the other hand, bio-mechanical engineers receive higher pay in the technology industry, where they earn an average salary of $95,604.engineers earn similar levels of education than bio-mechanical engineers in general. They're 1.0% more likely to graduate with a Master's Degree and 2.3% less likely to earn a Doctoral Degree.Bio-mechanical engineer vs. Biomedical imaging center director
There are many key differences between these two careers, including some of the skills required to perform responsibilities within each role. For example, a bio-mechanical engineer is likely to be skilled in "uefi," "linux," "medical equipment," and "debugging," while a typical biomedical imaging center director is skilled in "mri," "biomedical," "financial data," and "pacs."
When it comes to education, biomedical imaging center directors tend to earn higher degree levels compared to bio-mechanical engineers. In fact, they're 30.0% more likely to earn a Master's Degree, and 6.0% more likely to graduate with a Doctoral Degree.Bio-mechanical engineer vs. Junior engineer
Types of bio-mechanical engineer
Updated January 8, 2025
