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Ansys Engineer Remote Jobs in Ohio (NOW HIRING)

Ansys Engineer Remote information

What is the difference between Ansys Engineer Remote vs Mechanical Engineer Remote?

AspectAnsys Engineer RemoteMechanical Engineer Remote
Required CredentialsBachelor's in Engineering, certifications in FEA softwareBachelor's in Mechanical Engineering, PE license optional
Work EnvironmentRemote, software-focused, project-basedRemote, design and analysis tasks, client interaction
Industry UsageEngineering consulting, product developmentManufacturing, automotive, aerospace

Both roles often work remotely and require engineering degrees, but Ansys Engineers focus on simulation software expertise, while Mechanical Engineers handle broader design and analysis tasks. The choice depends on your specialization and career goals within engineering industries.

Does Ansys allow remote work?

Ansys Engineer remote positions typically offer the option to work remotely, depending on the company's policies and the specific role. Many companies in engineering and software fields support remote work arrangements, especially for roles involving design, simulation, and analysis using tools like Ansys. Candidates should verify the specific job listing for remote work eligibility and requirements.

What engineer makes $500,000 a year?

Highly experienced engineers in specialized fields such as software engineering, petroleum engineering, or aerospace engineering can earn $500,000 or more annually, often through a combination of base salary, bonuses, and stock options. Senior roles requiring advanced skills, certifications, and extensive industry experience are typically associated with such high compensation levels.

How much does an Ansys engineer make?

An Ansys engineer's salary typically ranges from $70,000 to $120,000 annually, depending on experience, location, and industry. Senior roles or those with specialized skills in simulation software may earn higher compensation, especially in high-demand sectors or remote work environments.

How does remote work impact collaboration for an Ansys Engineer, and what tools are commonly used to ensure effective teamwork?

As a remote Ansys Engineer, you'll frequently collaborate with multidisciplinary teams such as design, simulation, and product development, often across different locations. To maintain effective communication and project progress, companies typically use platforms like Microsoft Teams, Slack, and project management tools like Jira or Asana. Additionally, secure file-sharing systems and cloud-based simulation platforms enable seamless data exchange and joint problem-solving. While remote work offers flexibility, proactive communication and regular virtual meetings are key to overcoming the challenge of physical distance and ensuring alignment with project goals.

What does an Ansys Engineer do when working remotely?

An Ansys Engineer working remotely uses Ansys simulation software to analyze and solve engineering problems from a remote location. Their responsibilities typically include setting up simulations, interpreting results, collaborating with teams through virtual meetings, and providing technical support or recommendations. Remote Ansys Engineers often work in fields such as aerospace, automotive, electronics, and manufacturing, using their expertise to improve product designs and ensure reliability. They need strong communication skills and the ability to manage projects independently while leveraging digital collaboration tools.

What are the key skills and qualifications needed to thrive as an Ansys Engineer working remotely, and why are they important?

To thrive as an Ansys Engineer in a remote setting, you need a solid background in engineering principles, experience with finite element analysis (FEA), and a relevant engineering degree. Proficiency in Ansys simulation software, CAD tools, and sometimes certifications like Ansys Certified Expert are typically required. Strong problem-solving skills, effective communication, and the ability to work independently are crucial soft skills for remote collaboration. These skills ensure accurate simulations, timely project delivery, and cohesive teamwork despite physical distance.

Is it possible to work remotely as an engineer?

Ansys Engineers can often work remotely, especially for tasks involving simulation, analysis, and design that can be performed on a computer. Remote work arrangements depend on the employer’s policies, project requirements, and the need for collaboration or on-site testing, but many engineering roles now support telecommuting with the right technical setup and communication tools.
What cities in Ohio are hiring for Ansys Engineer Remote jobs? Cities in Ohio with the most Ansys Engineer Remote job openings:
Infographic showing various Ansys Engineer Remote job openings in Ohio as of July 2026, with employment types broken down into 5% Locum Tenens, 78% Full Time, 6% Part Time, 2% Contract, and 9% Nights. Highlights an 92% Physical, 5% Hybrid, and 3% Remote job distribution.

Mechanical Integrity Engineer - Gas Turbine Structures

Quest Defense Systems & Solutions, Inc.

Cincinnati, OH • On-site, Remote

Other

Medical, Dental, Life, Retirement

Posted 23 days ago


Job description

Shape the future of aerospace and defense technology by helping develop the test systems that ensure mission-critical products perform when it matters most. At Quest Defense Systems & Solutions, we partner with industry leaders to solve complex engineering challenges, bringing together innovative thinking and technical expertise to deliver solutions that make a real-world impact.

Quest Defense Systems & Solutions is seeking a Mechanical Integrity Engineer - Gas Turbine Structures to support structural analysis and substantiation work for gas turbine engine components. This role is ideal for an engineer with a strong foundation in mechanical or aerospace engineering who enjoys solving complex structural problems through finite element analysis, hand calculations, fatigue/fracture mechanics, and technical documentation.

In this role, you will work closely with internal engineering teams, customer stakeholders, and cross-functional technical groups to evaluate designs, support program reviews, and provide analysis-backed recommendations. You will use CAE tools such as ANSYS, Siemens Simcenter, Nastran/Patran, or ABAQUS to perform structural and mechanical integrity analysis, document findings, and help ensure components meet customer, program, and durability requirements.

Due to the nature of this work, candidates must be U.S. Citizens.

This role is preferred hybrid in Cincinnati, OH, but remote candidates will be considered.

What You'll Be Doing:

  • Perform structural and mechanical integrity analysis for gas turbine engine components and systems.
  • Use finite element analysis (FEA) and hand calculations to support design decisions, technical substantiation, and customer requirements.
  • Evaluate component durability, strength, low-cycle fatigue, fatigue life, and fracture mechanics considerations.
  • Build, modify, and analyze models using CAE tools such as ANSYS Classic, ANSYS Workbench, Siemens Simcenter, Nastran/Patran, and ABAQUS.
  • Support geometry and mesh preparation for analysis activities, including working with Siemens Simcenter and Siemens NX when needed.
  • Review analysis results, identify risks or areas of concern, and provide clear technical recommendations.
  • Participate in technical reviews, program reviews, and customer discussions to communicate analysis findings and support engineering decisions.
  • Collaborate with internal engineering teams, customer stakeholders, and cross-functional groups to solve complex structural/mechanical challenges.
  • Document analysis plans, assumptions, methods, results, and conclusions in accordance with customer and program requirements.
  • Prepare technical reports and presentations that clearly communicate findings, substantiation, and next steps.
  • Manage multiple tasks and deadlines while supporting changing program priorities.

Required Qualifications:

  • Bachelor's degree in Mechanical Engineering, Aerospace Engineering, or a related engineering discipline from an accredited university.
  • 2+ years of experience in gas turbine structural analysis, mechanical integrity, durability, or related aerospace structures work.
  • Strong understanding of low-cycle fatigue, fatigue life, fracture mechanics, strength, and durability principles.
  • Experience using finite element analysis and/or hand calculations to support structural or mechanical design decisions.
  • Working knowledge of CAE tools such as ANSYS Classic, ANSYS Workbench, Siemens Simcenter, Nastran/Patran, ABAQUS, or similar analysis tools.
  • Ability to document analysis plans, assumptions, methods, results, and conclusions in a clear and organized manner.
  • Strong written and verbal communication skills, with the ability to explain technical findings to engineering teams, managers, and customer stakeholders.
  • Ability to work collaboratively in a cross-functional engineering environment.
  • Must be a U.S. Citizen due to the nature of the work.

Preferred Qualifications:

  • Experience supporting gas turbine engine components, aerospace propulsion systems, or rotating machinery.
  • Hands-on experience with geometry cleanup, mesh preparation, model setup, analysis, and post-processing.
  • Proficiency with Siemens Simcenter, Siemens NX, ANSYS Classic, ANSYS Workbench, Nastran/Patran, ABAQUS, HEEDS, or similar tools.
  • Experience evaluating strength, fatigue, durability, low-cycle fatigue, crack growth, or fracture mechanics of metallic components.
  • Familiarity with aerospace materials, manufacturing processes, part standards, and design practices.
  • Ability to translate analysis results into clear technical recommendations, reports, and customer-ready presentations.
  • Experience participating in technical reviews, design reviews, program reviews, or customer-facing engineering discussions.
  • Strong time management skills with the ability to support multiple priorities, meet deadlines, and work effectively in a remote or hybrid team environment.
  • Demonstrated ability to collaborate across engineering disciplines, including design, analysis, manufacturing, program, and customer teams.

The QDSS Advantage:  

At QDSS, our advantage is purpose-driven work, collaborative teams, and complex challenges that push boundaries and build lasting impact. You'll grow your career while contributing to mission-critical programs that demand excellence and shape the future. 

What You'll Find Here 

  • Work That Matters - Next-generation, safety- and mission-critical projects where your contributions have real-world impact. 
  • Growth That's Supported - Competitive compensation, employer-matched 401(k), certification assistance, and clear opportunities for advancement. 
  • A Culture That Works - A flexible, collaborative, and people-first environment where teamwork, innovation, and balance are valued. 

Benefits Include 

  • Competitive pay, comprehensive medical/dental/life and disability coverage, 401(k) with employer match, professional development support, and a flexible, friendly workplace.