ORAU
Analytical and Computational Research Tools for Advanced Materials and Structure
ORAU, Hampton, Virginia, United States, 23661
Analytical and Computational Research Tools for Advanced Materials and Structures
Join to apply for the
Analytical and Computational Research Tools for Advanced Materials and Structures
role at
ORAU Analytical and Computational Research Tools for Advanced Materials and Structures
2 months ago Be among the first 25 applicants Join to apply for the
Analytical and Computational Research Tools for Advanced Materials and Structures
role at
ORAU Get AI-powered advice on this job and more exclusive features. Organization
National Aeronautics and Space Administration (NASA) Organization
National Aeronautics and Space Administration (NASA)
Reference Code
0047-NPP-NOV25-LRC-Aeronautics
How To Apply
All applications must be submitted in Zintellect
Please visit the NASA Postdoctoral Program website for application instructions and requirements: How to Apply | NASA Postdoctoral Program (orau.org)
A complete application to the NASA Postdoctoral Program includes:
Research proposal Three letters of recommendation Official doctoral transcript documents
Application Deadline
11/1/2025 6:00:59 PM Eastern Time Zone
Description
About the
NASA Postdoctoral Program
The NASA Postdoctoral Program (NPP) offers unique research opportunities to highly-talented scientists to engage in ongoing NASA research projects at a NASA Center, NASA Headquarters, or at a NASA-affiliated research institute. These one- to three-year fellowships are competitive and are designed to advance NASA’s missions in space science, Earth science, aeronautics, space operations, exploration systems, and astrobiology.
Description:
The primary focus of this opportunity is to perform analytical and computational research in the Durability, Damage Tolerance, and Reliability Branch (DDTRB) at NASA Langley Research Center toward improving the state-of-the-art of progressive damage analysis methods for advanced aerospace materials. The DDTRB conducts a broad-based research and technology program that quantifies behavior, durability, and damage tolerance of structural materials; develops efficient, physics-based analytical and computational methods; develops new innovative test methods; develops radiation analysis and design tools for assessing the radiation environment; and validates performance of advanced materials and structures for aerospace applications in support of NASA, other government agencies, and the aerospace industry. The Damage Mechanics of Composite Materials group in the DDTRB conducts research focused on advancing understanding of the numerous structural life-limiting damage mechanisms exhibited by these material systems. The mechanisms occur at various length scales and can drive component failure via several types that interact in a potentially complex manner. Deployment of composite materials on aircraft is partly inhibited by an insufficient understanding of damage progression and its effect on component lifetime and reliability. The broad vision of the group’s work is to remedy this issue by creating experimental and computational methods that will yield a reduced cost for certification of composite structures and provide advanced understanding of durability and damage tolerance, the latter helping to ensure safe operation of existing and emerging high performance aircraft structural designs and to enable future long duration space missions.
Analytical efforts in the Damage Mechanics of Composite Materials group are focused on computational fracture mechanics and the development and application of progressive damage analysis methods. Progressive damage analysis methods under development in the group currently focus on the development of numerical tools for simulation of multiple interacting damage processes, such as matrix cracking, delamination, and fiber failure, for a variety of advanced aerospace materials, including fiber-reinforced thermosets, fiber-reinforced thermoplastics, ceramic matrix composites, carbon-carbon composites, silicon carbide (SiC) fiber-reinforced SiC matrix composites, and others. Researchers in the group have experience with close-form fracture mechanics approaches, cohesive zone modeling, discrete damage mechanics, continuum damage mechanics, and other related approaches. Tools for both quasi-static and fatigue loading are of interest. Incorporation of these tools into commercial finite element codes is being sought to enable the creation of analyses that may be used to replace testing practices used currently during the certification process.
Opportunities exist to participate in all aspects of the research, development, and application of analytical and computational modeling efforts within the Damage Mechanics of Composite Materials group. Successful applicants should have a PhD in an appropriate field of study and have programming experience related to finite element analysis user subroutines and related scripting languages.
The primary point of contact for this opportunity is Dr. Frank Leone, whose contact information is included in the list of advisors. Please contact Dr. Leone for details about this opportunity.
Field of Science:
Advisors:
Frank Leone
frank.a.leone@nasa.gov
(757) 864-3050
Eligibility is currently open to:
U.S. Citizens; U.S. Lawful Permanent Residents (LPR); Foreign Nationals eligible for an Exchange Visitor J-1 visa status; and, Applicants for LPR, asylees, or refugees in the U.S. at the time of application with 1) a valid EAD card and 2) I-485 or I-589 forms in pending status
Questions about this opportunity?
Please email npp@orau.org
Qualifications
The candidate should have a PhD in Mechanical Engineering, Aerospace Engineering, Materials Engineering, Materials Science, or a related technical discipline.
The candidate should have experience in finite element analysis software packages, such as Abaqus.
The candidate should have experience in programming languages compatible with custom user subroutines in finite element analysis software packages, i.e., FORTRAN.
The candidate should have experience in scripting languages, e.g., Python, MATLAB.
Point of Contact
Mikeala
Eligibility Requirements
Degree: Doctoral Degree.
Seniority level
Seniority level Internship Employment type
Employment type Full-time Job function
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Join to apply for the
Analytical and Computational Research Tools for Advanced Materials and Structures
role at
ORAU Analytical and Computational Research Tools for Advanced Materials and Structures
2 months ago Be among the first 25 applicants Join to apply for the
Analytical and Computational Research Tools for Advanced Materials and Structures
role at
ORAU Get AI-powered advice on this job and more exclusive features. Organization
National Aeronautics and Space Administration (NASA) Organization
National Aeronautics and Space Administration (NASA)
Reference Code
0047-NPP-NOV25-LRC-Aeronautics
How To Apply
All applications must be submitted in Zintellect
Please visit the NASA Postdoctoral Program website for application instructions and requirements: How to Apply | NASA Postdoctoral Program (orau.org)
A complete application to the NASA Postdoctoral Program includes:
Research proposal Three letters of recommendation Official doctoral transcript documents
Application Deadline
11/1/2025 6:00:59 PM Eastern Time Zone
Description
About the
NASA Postdoctoral Program
The NASA Postdoctoral Program (NPP) offers unique research opportunities to highly-talented scientists to engage in ongoing NASA research projects at a NASA Center, NASA Headquarters, or at a NASA-affiliated research institute. These one- to three-year fellowships are competitive and are designed to advance NASA’s missions in space science, Earth science, aeronautics, space operations, exploration systems, and astrobiology.
Description:
The primary focus of this opportunity is to perform analytical and computational research in the Durability, Damage Tolerance, and Reliability Branch (DDTRB) at NASA Langley Research Center toward improving the state-of-the-art of progressive damage analysis methods for advanced aerospace materials. The DDTRB conducts a broad-based research and technology program that quantifies behavior, durability, and damage tolerance of structural materials; develops efficient, physics-based analytical and computational methods; develops new innovative test methods; develops radiation analysis and design tools for assessing the radiation environment; and validates performance of advanced materials and structures for aerospace applications in support of NASA, other government agencies, and the aerospace industry. The Damage Mechanics of Composite Materials group in the DDTRB conducts research focused on advancing understanding of the numerous structural life-limiting damage mechanisms exhibited by these material systems. The mechanisms occur at various length scales and can drive component failure via several types that interact in a potentially complex manner. Deployment of composite materials on aircraft is partly inhibited by an insufficient understanding of damage progression and its effect on component lifetime and reliability. The broad vision of the group’s work is to remedy this issue by creating experimental and computational methods that will yield a reduced cost for certification of composite structures and provide advanced understanding of durability and damage tolerance, the latter helping to ensure safe operation of existing and emerging high performance aircraft structural designs and to enable future long duration space missions.
Analytical efforts in the Damage Mechanics of Composite Materials group are focused on computational fracture mechanics and the development and application of progressive damage analysis methods. Progressive damage analysis methods under development in the group currently focus on the development of numerical tools for simulation of multiple interacting damage processes, such as matrix cracking, delamination, and fiber failure, for a variety of advanced aerospace materials, including fiber-reinforced thermosets, fiber-reinforced thermoplastics, ceramic matrix composites, carbon-carbon composites, silicon carbide (SiC) fiber-reinforced SiC matrix composites, and others. Researchers in the group have experience with close-form fracture mechanics approaches, cohesive zone modeling, discrete damage mechanics, continuum damage mechanics, and other related approaches. Tools for both quasi-static and fatigue loading are of interest. Incorporation of these tools into commercial finite element codes is being sought to enable the creation of analyses that may be used to replace testing practices used currently during the certification process.
Opportunities exist to participate in all aspects of the research, development, and application of analytical and computational modeling efforts within the Damage Mechanics of Composite Materials group. Successful applicants should have a PhD in an appropriate field of study and have programming experience related to finite element analysis user subroutines and related scripting languages.
The primary point of contact for this opportunity is Dr. Frank Leone, whose contact information is included in the list of advisors. Please contact Dr. Leone for details about this opportunity.
Field of Science:
Advisors:
Frank Leone
frank.a.leone@nasa.gov
(757) 864-3050
Eligibility is currently open to:
U.S. Citizens; U.S. Lawful Permanent Residents (LPR); Foreign Nationals eligible for an Exchange Visitor J-1 visa status; and, Applicants for LPR, asylees, or refugees in the U.S. at the time of application with 1) a valid EAD card and 2) I-485 or I-589 forms in pending status
Questions about this opportunity?
Please email npp@orau.org
Qualifications
The candidate should have a PhD in Mechanical Engineering, Aerospace Engineering, Materials Engineering, Materials Science, or a related technical discipline.
The candidate should have experience in finite element analysis software packages, such as Abaqus.
The candidate should have experience in programming languages compatible with custom user subroutines in finite element analysis software packages, i.e., FORTRAN.
The candidate should have experience in scripting languages, e.g., Python, MATLAB.
Point of Contact
Mikeala
Eligibility Requirements
Degree: Doctoral Degree.
Seniority level
Seniority level Internship Employment type
Employment type Full-time Job function
Job function Research, Analyst, and Information Technology Industries Government Administration Referrals increase your chances of interviewing at ORAU by 2x Get notified about new Researcher jobs in
Hampton, VA . Virginia Beach, VA $120,000.00-$150,000.00 2 weeks ago Strategic Submarine Analyst (CTF-114 / COMSUBLANT)
Norfolk, VA $140,000.00-$150,000.00 2 weeks ago Documentation Analyst - US Citizens Only
Norfolk, VA $77,500.00-$176,000.00 2 weeks ago Norfolk, VA $72,882.00-$131,228.00 3 weeks ago Analyst, Private Brands Product Safety (On-site)
GSE Support MARFORCOM Business Analyst (033-25)
We’re unlocking community knowledge in a new way. Experts add insights directly into each article, started with the help of AI.
#J-18808-Ljbffr