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Internship Discrete Element Method Jobs (NOW HIRING)

METECS

Terramechanics Engineer

Houston, TX · On-site

This role emphasizes physics-based approaches to soil structure interaction, ranging from continuum and discrete element methods to semi-empirical terramechanics models. This position also includes ...

Mondelez International

Discrete element method: Rocky DEM, EDEM * Extended realities (AR/VR) for visualization * Computer-aided design: Fusion 360, SolidWorks Technical Rigor * Strong analytical problem-solving mindset ...

Bechtel

$125K - $166K/yr

Experience in chute design methods, both continuum and discrete element modelling would be beneficial. * Evaluates, selects, and applies standard mechanical engineering methods, techniques ...

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How much do internship discrete element method jobs pay per hour?

As of Jun 19, 2026, the average hourly pay for internship discrete element method in the United States is $15.54, according to ZipRecruiter salary data. Most workers in this role earn between $12.50 and $17.55 per hour, depending on experience, location, and employer.

What is an Internship in Discrete Element Method?

An Internship in Discrete Element Method (DEM) involves working with computational models that simulate the behavior of assemblies of discrete particles, such as grains, powders, or rocks. Interns typically assist in developing, testing, and analyzing DEM simulations for engineering or scientific applications, often using specialized software. This internship provides hands-on experience in numerical modeling, data analysis, and sometimes programming, making it valuable for students interested in computational mechanics, material science, or related fields.

What are the key skills and qualifications needed to thrive as an Internship Discrete Element Method, and why are they important?

To thrive in a Discrete Element Method (DEM) internship, you need a solid background in engineering, physics, or applied mathematics, often supported by ongoing undergraduate or graduate studies in a relevant field. Familiarity with simulation software such as EDEM, LIGGGHTS, or Rocky DEM, as well as programming skills in Python, C++, or MATLAB, are typically required. Strong analytical thinking, problem-solving abilities, and clear communication help interns interpret simulation results and collaborate effectively with teams. These skills are crucial for accurately modeling complex systems, contributing to research, and supporting project objectives in engineering or scientific environments.

What types of projects or tasks can an intern expect to work on during a Discrete Element Method internship?

As an intern focusing on the Discrete Element Method (DEM), you can expect to work on projects involving simulation and analysis of particulate materials, such as powders, grains, or soils. Typical tasks may include setting up DEM models, conducting simulations, validating results with experimental data, and assisting in the development or optimization of DEM algorithms. You will likely collaborate closely with research scientists and engineers, gaining hands-on experience with specialized software and contributing to ongoing research or industrial projects. This role offers an excellent opportunity to build computational modeling skills and deepen your understanding of material behavior in real-world engineering applications.

What is the difference between Internship Discrete Element Method vs Discrete Element Method Engineer?

AspectInternship Discrete Element MethodDiscrete Element Method Engineer
CredentialsTypically pursuing or recently completed relevant degreeBachelor's or master's in engineering, physics, or related field
Work EnvironmentAcademic labs, research projects, internship programsIndustrial or research company settings, project teams
ResponsibilitiesAssisting in simulations, learning software, supporting researchDesigning simulations, analyzing data, developing models

The Internship Discrete Element Method role is an entry-level position focused on learning and supporting existing projects, while the Discrete Element Method Engineer is a full-time professional responsible for developing and implementing complex simulations in industry or research settings. Internships serve as a stepping stone toward a career as a Discrete Element Method Engineer, providing practical experience and foundational knowledge.

What cities are hiring for Internship Discrete Element Method jobs? Cities with the most Internship Discrete Element Method job openings:
What are the most commonly searched types of Discrete Element Method jobs? The most popular types of Discrete Element Method jobs are:
What states have the most Internship Discrete Element Method jobs? States with the most job openings for Internship Discrete Element Method jobs include:
Internship Discrete Element Method jobs near you
Terramechanics Engineer

Terramechanics Engineer

METECS

Houston, TX • On-site

Full-time

Posted 9 days ago

Job description

METECS is seeking a Terramechanics Engineer who is excited about lunar exploration to support high-fidelity modeling and simulation of lunar terrain. This role emphasizes physics-based approaches to soil structure interaction, ranging from continuum and discrete element methods to semi-empirical terramechanics models. This position also includes the use of multi-body dynamics and simulation frameworks for analysis, design, and validation.
The ideal candidate brings a strong grounding in classical terramechanics and an interest in advancing higher-fidelity modeling approaches to soil-structure interaction in extreme environments. We are looking for someone who is driven, curious, and motivated to contribute directly to the technologies that will support sustained human presence on the lunar surface.
Responsibilities:
  • Develop, implement, and apply terrain and soil interaction models within coupled multi-body dynamics simulations.
  • Work with higher-fidelity modeling approaches such as continuum mechanics (e.g., SPH-based methods) and/or discrete element method (DEM) simulations to model granular and deformable terrain behavior.
  • Maintain and apply semi-empirical terramechanics models (e.g., Bekker-type formulations) as baselines, validation references, or computationally efficient tools.
  • Extend terrain interaction models to support deformable or conformable contact elements, including tires or other compliant structures.
  • Integrate soil and contact models into simulation frameworks and workflows, including NASA's Trick environment or similar tools.
  • Perform simulation validation through comparison with experimental data, test results, or field measurements.
  • Conduct uncertainty quantification, sensitivity analyses, and model calibration to assess prediction robustness.
  • Collaborate with multidisciplinary teams to interpret results, communicate model assumptions and limitations, and inform system-level decisions.

Required Qualifications:
  • Master's or advanced degree in mechanical engineering, aerospace engineering, applied physics, or a closely related technical field.
  • Working knowledge of foundational terramechanics principles, including Bekker-type soil-vehicle interaction theories.
  • Proficiency in C/C++ and Python for scientific computing, simulation development, and analysis.
  • Strong data-analysis skills, including experience working with simulation and experimental datasets.
  • Experience developing or applying physics-based models within a simulation environment.
  • Clear technical communication and documentation skills.

Desired Qualifications:
  • Experience with continuum mechanics-based modeling approaches (e.g., SPH or related methods).
  • Experience with discrete element method (DEM) simulations or granular material modeling.
  • Familiarity with deformable or compliant contact modeling (e.g., tires, tracks, or soft structures).
  • Familiarity with NASA's Trick simulation framework or similar simulation infrastructures.
  • Experience with coupled multi-body dynamics and soil-terrain interaction simulations.
  • Background in simulation validation, uncertainty quantification, or model verification.
  • Experience in aerospace, robotics, off-road vehicle dynamics, or related terrain-interaction domains.

Citizenship or lawful permanent resident required due to federal position.
About METECS:
We are a high-performance team providing advanced engineering, software, and analysis solutions for human space flight and terrestrial applications. We develop and integrate custom software for NASA and other government and commercial customers utilizing a wide variety of in-house, commercial, and open-source technologies. Our specialties include robotics automation, embedded systems, hardware/software integration, multibody dynamics simulations, immersive computer graphics, XR systems and advanced web-based tools.
METECS is an Equal Opportunity Employer, including veterans and individuals with disabilities.

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