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Model Based Design Engineer Jobs in Collierville, TN

Mechanical Design Engineer II

Memphis, TN · On-site

$73K - $100K/yr

Performs Mechanical CAD modeling and simulations. * Supports DFMEAs, PFMEAs, CFD, FEA, and Seismic ... Bachelor's degree in Mechanical Engineering or Mechanical Engineering Technology * 3 years ...

Mechanical Design Engineer II

Memphis, TN · On-site

$73K - $100K/yr

Performs Mechanical CAD modeling and simulations. * Supports DFMEAs, PFMEAs, CFD, FEA, and Seismic ... Bachelor's degree in Mechanical Engineering or Mechanical Engineering Technology * 3 years ...

Fire Protection Engineer

Memphis, TN · On-site

$80K - $108K/yr

Perform fire hazard analyses, computational fluid dynamics (CFD) fire modeling, and risk ... Familiarity with performance-based design approaches and alternative means and methods approvals.

Fire Protection Engineer

Memphis, TN · On-site

$80K - $108K/yr

Perform fire hazard analyses, computational fluid dynamics (CFD) fire modeling, and risk ... Familiarity with performance-based design approaches and alternative means and methods approvals.

New

Fire Protection Engineer

Memphis, TN · On-site

$80K - $108K/yr

Perform fire hazard analyses, computational fluid dynamics (CFD) fire modeling, and risk ... Familiarity with performance-based design approaches and alternative means and methods approvals.

Engineering support may include data analysis, concept of operations, design layouts, identifying processes, build engineering models and develop customer proposals. Continuous development of ...

Perform Virtual Design & Construction (VDC) processes, lead review of design models for ... based take off, estimating practices, variance reporting, 4D modeling, schedule sequencing ...

Perform Virtual Design & Construction (VDC) processes, lead review of design models for ... based take off, estimating practices, variance reporting, 4D modeling, schedule sequencing ...

Senior Thermal Engineer

Moscow, TN

$94K - $129K/yr

Lead thermal design and performance analysis of fin-and-tube heat exchangers for HVAC and ... Develop, implement, and maintain physics-based thermal performance models used in engineering ...

Senior Thermal Engineer

Moscow, TN · On-site

$94K - $129K/yr

Lead thermal design and performance analysis of fin-and-tube heat exchangers for HVAC and ... Develop, implement, and maintain physics-based thermal performance models used in engineering ...

Bridge Engineer II

Memphis, TN · On-site

$74K - $130K/yr

Parsons is looking for a talented Bridge Engineer II to join our team full-time to support one of ... Perform modeling of bridge structures using structural design/analysis programs like MDX, LEAP ...

Bridge Engineer II

Memphis, TN · Hybrid

$74K - $130K/yr

Parsons is looking for a talented Bridge Engineer II to join our team full-time to support one of ... Perform modeling of bridge structures using structural design/analysis programs like MDX, LEAP ...

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Showing results 1-20

Model Based Design Engineer information

What are Model Based Design Engineers?

Model Based Design Engineers are professionals who use mathematical and visual modeling techniques to design, simulate, and validate complex engineering systems. They typically work with tools like MATLAB/Simulink to create virtual prototypes, test control algorithms, and reduce the need for physical prototypes. This approach helps speed up the development process, improve accuracy, and lower costs, especially in industries like automotive, aerospace, and electronics.

What are some common challenges Model Based Design Engineers face when integrating models into existing embedded systems?

Model Based Design Engineers often encounter challenges when integrating simulation models into legacy embedded systems, as these systems may have hardware or software constraints not accounted for in the initial model. Ensuring model fidelity while optimizing for real-time performance and memory usage requires careful design and iterative testing. Collaboration with firmware and hardware teams is crucial to address compatibility issues and streamline deployment. Adopting standardized modeling practices and maintaining clear documentation can help mitigate integration risks and facilitate smoother handoffs between teams.

What is the difference between Model Based Design Engineer vs Simulation Engineer?

AspectModel Based Design EngineerSimulation Engineer
CredentialsBachelor's or Master's in Engineering, certifications in MATLAB/SimulinkBachelor's or Master's in Engineering, experience with simulation tools
Work EnvironmentDesign labs, software development, automotive/ aerospace industriesResearch labs, testing environments, aerospace/automotive sectors
Industry UsageDevelops models for control systems, embedded softwareCreates simulations to test systems, validate designs

The main difference is that Model Based Design Engineers focus on creating and implementing models for system development, often using tools like MATLAB/Simulink, while Simulation Engineers primarily develop and run simulations to validate and test these models or systems. Both roles require strong technical skills and often overlap, but their core responsibilities differ in focus and application.

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

To thrive as a Model Based Design Engineer, you need a strong background in control theory, embedded systems, and proficiency in modeling and simulation, typically supported by an engineering degree. Expertise with tools such as MATLAB, Simulink, and experience with software version control systems are commonly required, along with relevant certifications like MATLAB certification. Strong analytical thinking, attention to detail, and effective communication skills help in translating real-world requirements into accurate models and collaborating with cross-functional teams. These skills ensure efficient development and validation of complex systems, minimizing errors and reducing development time.
What job categories do people searching Model Based Design Engineer jobs in Collierville, TN look for? The top searched job categories for Model Based Design Engineer jobs in Collierville, TN are:
What cities near Collierville, TN are hiring for Model Based Design Engineer jobs? Cities near Collierville, TN with the most Model Based Design Engineer job openings:
Infographic showing various Model Based Design Engineer job openings in Collierville, TN as of July 2026, with employment types broken down into 57% Full Time, and 43% Contract. Highlights an 100% In-person job distribution.
Senior Mechanical Design Engineer

Senior Mechanical Design Engineer

Barnhart Crane & Rigging

Memphis, TN

$87K - $120K/yr

Full-time

Medical, Dental, Vision, Retirement, PTO

Re-posted 10 days ago


Barnhart rating

6.2

Company rating: 6.2 out of 10

Based on 12 frontline employees who took The Breakroom Quiz

127th of 149 rated vehicle equipment hire


Job description

Job Summary: A Senior Mechanical Design Engineer (otherwise known as a Research & Development Engineer) at Barnhart is a highly skilled and experienced leader who collaborates with a team to design and produce cutting-edge load handling equipment for use in the heavy lift and heavy transport industry. This role involves spearheading design projects to optimize functionality, safety, efficiency, and value in the equipment used to perform specialized heavy lift and transport work. Senior R&D Engineers leverage their expertise to solve complex challenges, develop innovative equipment, and mentor the next generation of talented engineers. This position offers the unique opportunity to oversee projects from initial concept to final completion, providing a comprehensive and rewarding experience.

Job Requirements:

  • Experience: 7+ years of qualifying experience designing mechanical and/or structural equipment for a similar industry with a proven track record of success.
  • Certifications: Professional Engineer (PE) license preferred, OSHA 10
  • Technical Proficiency: Extensive expertise in mechanical design, structural analysis, and finite element analysis (FEA) for developing and evaluating custom lifting and transport equipment. Demonstrated proficiency with cranes, hoists, hydraulic systems, winches, and rigging equipment, including detailed knowledge of load charts, operational constraints, and safety standards. Skilled in advanced lifting methods such as tandem lifts, heavy load skidding, and modular transport systems. Highly proficient in CAD software (e.g., SolidWorks, AutoCAD, Inventor) for precise design and modeling. Comprehensive knowledge of stress analysis, fatigue analysis, and failure modes, ensuring structural integrity under both dynamic and static loads. Experienced in performing hand calculations and utilizing various programs (e.g., ANSYS, Nastran, Abaqus, RISA-3D) for structural and mechanical evaluations. Strong understanding of materials used in heavy equipment, including steel grades, composites, and high-strength alloys. Adept at integrating mechanical, hydraulic, and electrical systems into cohesive, functional equipment designs. Thorough knowledge of industry standards and regulations, including OSHA, AISC, AWS, ASME B30 Series, ANSI, and ASCE-7, ensuring compliance and adherence to best practices. Proven ability to plan and conduct equipment testing, including load tests, structural validation, and prototype evaluations, with expertise in documenting test results and leveraging findings to optimize designs.
  • Software Proficiency: Familiarity with engineering software (i.e. RISA-3D, Ansys Mechanical, Mathcad, MS Excel), as well as ERP systems, scheduling software, video conferencing platforms (WebEx, Zoom, Teams, etc.), and Microsoft Office Suite.
  • Problem-Solving and Analytical Expertise: Ability to lead design reviews, troubleshoot performance issues, and implement iterative improvements. Strong analytical skills to address complex engineering challenges and devise innovative solutions. A demonstrated ability to think creatively while adhering to technical and operational constraints.
  • Communication: Strong verbal and written communication skills with proven ability to work in cross-functional teams, liaise with clients and stakeholders, and mentor junior engineers in technical disciplines; proficient in preparing and presenting project reports, technical documentation, and equipment operating procedures.
  • Project Management Skills: Strong leadership skills with experience in managing project budgets, schedules, and risks, while mentoring a team of engineers and technicians to ensure timely and cost-effective project completion.
  • Physical Requirements: Willingness to travel to project sites as needed. Ability to work in a variety of environments, including outdoor and construction sites, and conduct on-site inspections, which may involve standing, walking, crawling, and climbing ladders or scaffolding.
  • Fit for Duty: Must pass a drug test, fit for duty and background check.

Job Responsibilities:

  • The Senior R&D Engineer leads the design and development of specialized load-handling equipment, ensuring alignment with project requirements and industry standards. The Research & Development process spans the entire project lifecycle and includes the following key phases:
    • Idea Phase: At Barnhart, we continually seek opportunities to improve and grow as an industry leader. Ideas often originate from field personnel, project managers, sales teams, operators, and senior leadership. The R&D team evaluates the viability of these ideas to determine whether they should be pursued further.
    • Concept Phase: During this phase, the team gathers key information and establishes preliminary design parameters. Early-stage CAD models, calculations, and cost estimates are developed to assess feasibility.
    • Development Phase: By collaborating with cross-functional teams, operational, safety, and regulatory considerations are seamlessly integrated into the design process. Concepts are developed into fully engineered solutions, supported by comprehensive calculations and engineering analyses that validate design assumptions. Enhanced modeling techniques including finite element analysis (FEA), stress analysis, and load simulations ensure optimal performance and reliability. Finalized CAD models and fabrication drawings undergo thorough reviews to ensure accuracy and production readiness.
    • Production Phase: The Senior R&D Engineer works closely with the Fabrication Services Department throughout the build process, ensuring strict adherence to design specifications, quality standards, and project timelines. They oversee load testing of specialty rigging tools to verify safety and functionality. Additionally, the Senior R&D Engineer identifies and resolves design or fabrication challenges, implementing effective solutions in partnership with the fabrication team.
    • Implementation Phase: In this final phase, all supporting documents-such as detailed specification sheets, operation and maintenance manuals, and automation calculators-are completed. The Senior R&D Engineer may oversee initial field deployment, documenting lessons learned to drive continuous improvement in future designs.
  • Leverage expertise in heavy lift and specialty rigging equipment to develop tailored solutions for customer needs.
  • Serve as a field technical liaison for critical lifts, including risk management and safety evaluations for projects.
  • Diagnose equipment issues and provide effective solutions, including guidance on repairs.
  • Serve as technical reviewer of engineering documents including fabrication drawings, calculations, FEA reports, load test plans, electrical and hydraulic schematics, and specification sheets.
  • Manage multiple R&D projects simultaneously, tracking progress, schedules, and budgets to ensure on-time and cost-effective delivery.
  • Evaluate project risks and develop mitigation strategies to address technical and operational challenges.
  • Drive innovation by researching and implementing emerging technologies, materials, and methodologies to improve equipment performance and efficiency.
  • Conduct training events to implement new equipment and teach various Engineering topics.
  • Prepare and maintain accurate project documentation such as qualification requirements for operating equipment, design parameters, maintenance requirements, test certificates, work instructions and standard operating procedures.
  • Guide junior engineers on technical matters, review their work, and support their professional development.
  • Identify opportunities to optimize equipment designs to reduce costs, improve safety, and enhance overall fabrication efficiency.
  • Offer real-time technical support during critical lift operations, troubleshooting issues as they arise.
  • Communicate project updates, technical details, and engineering solutions to clients and stakeholders to ensure alignment and satisfaction.
  • Identify and implement best practices for safety, efficiency, and innovation in crane and rigging projects.
  • Keep current with industry trends, new technology, and updated regulatory requirements related to crane and rigging operations.

Compensation and Benefits:

  • Competitive salary
  • Bonus program that pays for performance
  • 401K contributions matched up to 10% of pay
  • Benefits Package including medical, dental, vision, short & long-term disability
  • Paid Time Off
  • Barnhart CARES family care and community service opportunities

Education:

  • Bachelor's Degree in Mechanical Engineering, Civil Engineering, or a related field from an ABET accredited 4-year university.

PURPOSE - Barnhart is built on a strong foundation of serving others. The fruit of our labor is used to grow the company, care for our employees, and serve those in our communities and around the world.

MINDS OVER MATTER - Barnhart has built a nationwide reputation for solving problems. We specialize in the lifting, heavy-rigging, and heavy transport of major components used in American industry.

NETWORK - Barnhart has built teams that form one of our industry's strongest networks of talent and resources with over 60 branch locations across the U.S. working together to serve our customers. This growing network offers our team members constant opportunity for career growth and professional development.

CULTURE - Barnhart has a strong team culture -- the "One TEAM." We are looking for smart, hard-working people who strive for excellence in their work and appreciate collaboration. Join a team that values Safety, Servant Leadership, Quality Service, Innovation, Continuous Improvement, Fairness, and Profit with a Purpose.

EOE/AA Minority/Female/Disability/Veteran

Employment Type: FULL_TIME

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