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Remote Fracture Mechanics Engineer Jobs (NOW HIRING)

The Mid-Level Analytical Engineer independently performs stress analysis, creep and fatigue evaluations, and fracture mechanics assessments for heavy equipment within the power generation and energy ...

D. in Mechanical Engineering or related engineering discipline * 8+ years of related experience ... Fracture mechanics * Fatigue analysis * Thermal and buckling analysis * Creep-fatigue/inelastic ...

D. in Mechanical Engineering or related engineering discipline * 8+ years of related experience ... Fracture mechanics * Fatigue analysis * Thermal and buckling analysis * Creep-fatigue/inelastic ...

D. in Mechanical Engineering or related engineering discipline * 8+ years of related experience ... Fracture mechanics * Fatigue analysis * Thermal and buckling analysis * Creep-fatigue/inelastic ...

$113K - $153K/yr

Strong understanding of turbomachinery operation, thermodynamics, fluid mechanics, fracture ... Professional Engineer (PE) license preferred or willingness to pursue licensure * This position ...

Senior Structural Analyst

Bellevue, WA ยท Remote

$54 - $90/hr

Remote - offsite Hours: 40.0 Overview System One is seeking highly motivated and resourceful Senior ... D. in Mechanical Engineering from an accredited university; Aerospace, Nuclear, and Civil ...

No Overtime Pay Basis Remote (within USA - W/ On-Site Meetings Expected) in The CONUS - Located In ... The Mechanical Engineer | Technical Due Diligence & Engineering Validation For Downstream Oil & Gas ...

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Remote Fracture Mechanics Engineer information

What does a Remote Fracture Mechanics Engineer do?

A Remote Fracture Mechanics Engineer specializes in analyzing and predicting the behavior of materials and structures when subjected to stress, with a focus on how and why cracks form and propagate. Working remotely, they use advanced computational tools and simulations to assess the integrity and reliability of components in industries such as aerospace, oil and gas, and civil engineering. Their work helps prevent catastrophic failures by identifying potential weaknesses and recommending design improvements or maintenance strategies. These engineers often collaborate with multidisciplinary teams, providing expertise on material selection, testing, and safety protocols. Remote roles require strong communication and digital collaboration skills, as well as proficiency in specialized fracture mechanics software.

What is the difference between Remote Fracture Mechanics Engineer vs Remote Materials Engineer?

AspectRemote Fracture Mechanics EngineerRemote Materials Engineer
Required CredentialsBachelor's or Master's in Mechanical, Civil, or Materials Engineering; certifications in fracture mechanicsBachelor's or Master's in Materials Science or Engineering; certifications in materials testing
Work EnvironmentResearch labs, engineering firms, aerospace, automotive industriesManufacturing plants, research labs, product development
Industry UsageStructural integrity, failure analysis, safety assessmentsMaterial selection, testing, quality control

Remote Fracture Mechanics Engineers focus on analyzing and predicting material failure due to cracks, while Remote Materials Engineers work on developing and testing materials. Both roles require engineering backgrounds and often overlap in industries like aerospace and automotive, but their core responsibilities differ in focus and expertise.

How does a Remote Fracture Mechanics Engineer typically collaborate with cross-functional teams to address material failures?

As a Remote Fracture Mechanics Engineer, you will frequently work with multidisciplinary teams, including materials scientists, design engineers, and project managers, to analyze and solve material failure issues. Collaboration often occurs through virtual meetings, shared digital platforms, and detailed technical reports. Clear communication is essential, as you must convey complex fracture analysis findings and recommendations to non-specialists. This teamwork ensures that root causes are identified and corrective actions are effectively implemented, even from a remote setting.

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

To thrive as a Remote Fracture Mechanics Engineer, you need a strong background in materials science, solid mechanics, and fracture analysis, typically supported by a degree in mechanical or materials engineering. Familiarity with finite element analysis (FEA) software, fracture mechanics modeling tools, and relevant industry standards is essential, and certifications such as Professional Engineer (PE) can be valuable. Excellent problem-solving, communication, and self-motivation are important soft skills for collaborating remotely and delivering precise technical solutions. These skills and qualifications ensure accurate assessment of structural integrity, effective teamwork, and the ability to address complex engineering challenges in a remote environment.
More about Remote Fracture Mechanics Engineer jobs
What cities are hiring for Remote Fracture Mechanics Engineer jobs? Cities with the most Remote Fracture Mechanics Engineer job openings:
What are the most commonly searched types of Fracture Mechanics Engineer jobs? The most popular types of Fracture Mechanics Engineer jobs are:
What states have the most Remote Fracture Mechanics Engineer jobs? States with the most job openings for Remote Fracture Mechanics Engineer jobs include:
Infographic showing various Remote Fracture Mechanics Engineer job openings in the United States as of July 2026, with employment types broken down into 20% As Needed, 40% Full Time, 20% Part Time, and 20% Contract. Highlights an 100% Remote job distribution.

Mechanical Integrity Engineer - Gas Turbine Structures

Quest Defense Systems & Solutions, Inc.

Cincinnati, OH โ€ข On-site, Remote

Other

Medical, Dental, Life, Retirement

This job post hasย expired today.ย Applications are no longer accepted.


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 Structuresย 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:ย ย 

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

Whatย You'llย Find Hereย 

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

Benefits Includeย 

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