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Entry Level Material Science Engineering Jobs in Georgia

PhD in metallurgy, metallurgical engineering, materials science/engineering or mechanical engineering. * Minimum experience of 2+ years in multiscale, multiphysics modeling and application of machine ...

PhD in metallurgy, metallurgical engineering, materials science/engineering or mechanical engineering. * Minimum experience of 2+ years in multiscale, multiphysics modeling and application of machine ...

PhD in metallurgy, metallurgical engineering, materials science/engineering or mechanical engineering. * Minimum experience of 2+ years in multiscale, multiphysics modeling and application of machine ...

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Entry Level Material Science Engineering information

What are the key skills and qualifications needed to thrive as an Entry Level Material Science Engineer, and why are they important?

To thrive as an Entry Level Material Science Engineer, you need a solid background in materials science, chemistry, or engineering, typically supported by a bachelor's degree in a related field. Familiarity with laboratory techniques, materials characterization tools (such as SEM, XRD, or spectroscopy), and CAD software is often required. Strong analytical thinking, attention to detail, and effective teamwork are essential soft skills in this field. These skills and qualifications are crucial for ensuring precise material analysis, innovative problem-solving, and successful collaboration on engineering projects.

What does an entry level material science engineer do?

An entry level material science engineer assists in the research, development, and testing of materials used to create products and structures. They typically work under the supervision of experienced engineers to analyze material properties, conduct experiments, and help improve manufacturing processes. Their responsibilities may include preparing samples, running laboratory tests, recording data, and supporting the design of new materials for specific applications such as aerospace, electronics, or energy. These engineers play a crucial role in helping organizations develop innovative and efficient materials. The position usually requires a bachelor's degree in material science, engineering, or a related field.

What is the difference between Entry Level Material Science Engineering vs Entry Level Metallurgical Engineering?

AspectEntry Level Material Science EngineeringEntry Level Metallurgical Engineering
Required CredentialsBachelor's in Materials Science, Engineering, or related fieldBachelor's in Metallurgical Engineering or Materials Science
Work EnvironmentResearch labs, manufacturing plants, R&D departmentsMining sites, metal production facilities, manufacturing plants
Industry UsageAutomotive, aerospace, electronics, consumer productsMining, metal extraction, alloy development, manufacturing

Entry Level Material Science Engineering and Entry Level Metallurgical Engineering share foundational knowledge and often overlap in industries like manufacturing and R&D. However, Material Science focuses more on the properties and applications of materials, while Metallurgical Engineering emphasizes metal extraction and processing. Both roles typically require a bachelor's degree and involve work in labs or industrial settings, but their specific industry applications differ slightly.

What types of projects and tasks can I expect to work on as an entry-level material science engineer?

As an entry-level material science engineer, you will typically assist in the development, testing, and analysis of materials such as metals, polymers, ceramics, or composites. Your daily tasks may include preparing samples, conducting laboratory experiments, collecting and analyzing data, and supporting senior engineers in research or product development projects. You’ll also collaborate closely with multidisciplinary teams, such as mechanical and chemical engineers, to solve materials-related challenges and improve product performance. This hands-on experience is invaluable and often serves as a springboard for more advanced roles in research, quality assurance, or product design.
What are popular job titles related to Entry Level Material Science Engineering jobs in Georgia? For Entry Level Material Science Engineering jobs in Georgia, the most frequently searched job titles are:
What job categories do people searching Entry Level Material Science Engineering jobs in Georgia look for? The top searched job categories for Entry Level Material Science Engineering jobs in Georgia are:
What cities in Georgia are hiring for Entry Level Material Science Engineering jobs? Cities in Georgia with the most Entry Level Material Science Engineering job openings:
Infographic showing various Entry Level Material Science Engineering job openings in Georgia as of July 2026, with employment types broken down into 57% Full Time, 29% Part Time, and 14% Contract. Highlights an 100% In-person job distribution.
Machine Learning Research Engineer (Scientific & Engineering AI)

Machine Learning Research Engineer (Scientific & Engineering AI)

Optimal Inc.

Embry Hills, GA

Full-time

Posted 6 hours ago


Job description

Machine Learning Research Engineer (Scientific & Engineering AI)
Urgent Hiring Requirement

Minimum Qualification: PhD in a relevant technical field.

This is an urgent requirement with an anticipated start date within 2 weeks. Priority will be given to candidates who can interview promptly and begin within two weeks of selection.

Job Summary

We are seeking a highly motivated Machine Learning Research Engineer (Scientific & Engineering AI) with strong expertise in Machine Learning, Deep Learning, Computer Vision, and AI research. This role is intended exclusively for PhD graduates or candidates near completion from reputable universities.

Candidates with a strong academic research background in Machine Learning, Artificial Intelligence, Computer Vision, Data Science, Scientific Computing, Mechanical Engineering, Materials Science, Manufacturing Engineering, Applied Physics, Computational Engineering, or related fields are encouraged to apply.

Ideal candidates will combine strong ML/DL expertise with domain knowledge in mechanical engineering, materials science, manufacturing systems, physical systems, scientific computing, or simulation-driven engineering applications.

Research experience gained during a PhD program will be considered equivalent to professional industry experience.

This is an urgent hiring requirement, and we are actively seeking candidates who can start within the next 2 weeks.

Education Requirement
PhD in Computer Science, Computer Engineering, Electrical Engineering, Artificial Intelligence, Machine Learning, Data Science, Mechanical Engineering, Materials Science, Manufacturing Engineering, Applied Physics, Computational Engineering, or a related technical field.
Candidates currently pursuing a PhD with anticipated graduation within the next 3-6 months are also encouraged to apply.
Only PhD candidates will be considered for this role.
Candidates with only a Master's degree will not be considered.
Key Responsibilities
Design, develop, train, and optimize Machine Learning and Deep Learning models for real-world applications.
Own the complete ML lifecycle including data collection, annotation, preprocessing, model training, fine-tuning, evaluation, optimization, and deployment.
Develop and deploy advanced deep learning architectures including CNNs, LSTMs, ConvLSTMs, Graph Neural Networks (GNNs), Reinforcement Learning, and Transformer-based models.
Conduct experiments, evaluate model performance, and drive continuous algorithmic improvements.
Work with large-scale datasets for model training, validation, and testing.
Optimize and deploy AI models for scalable and efficient real-world applications.
Translate research concepts into scalable, production-ready AI systems.
Collaborate with cross-functional engineering and research teams to integrate ML models into real-world applications.
Document methodologies, experimental findings, and technical solutions.
Contribute to technical innovation initiatives and advanced AI research activities.


Required Qualifications
Strong PhD research background in Machine Learning, Deep Learning, Artificial Intelligence, Computer Vision, Data Science, Scientific Machine Learning, Computational Engineering, Applied Physics, Materials Informatics, or related areas.
Strong programming experience with Python and C++.
Hands-on experience with PyTorch, TensorFlow, Keras, Scikit-learn, or similar ML frameworks.
Strong understanding of Machine Learning, Deep Learning, Neural Networks, Computer Vision, and AI algorithms.
Experience developing and training advanced deep learning models and architectures.
Solid mathematical foundation in linear algebra, probability, statistics, optimization, and applied machine learning.
Experience working with Linux environments, Git, Docker, and modern development workflows.
Demonstrated research experience through publications, thesis work, academic research projects, or equivalent research contributions.
Strong ability to independently research, prototype, and deploy AI solutions.
Experience applying machine learning or deep learning techniques to engineering, manufacturing, materials science, physical systems, scientific computing, simulation, or industrial applications is highly desirable.


Preferred Qualifications
Publications in leading AI, Machine Learning, Computer Science, Scientific Computing, Computational Engineering, Materials Science, or Applied Physics conferences and journals.
Experience transitioning AI/ML models from research environments into production systems.
Experience with CUDA, GPU acceleration, distributed computing, high-performance computing (HPC), or parallel computing environments.
Experience handling large-scale, real-world datasets.
Familiarity with Physics-Informed Machine Learning (PIML), Physics-Informed Neural Networks (PINNs), scientific foundation models, digital twins, simulation-driven AI, or engineering optimization techniques.
Experience working with data generated from CAD, CAE, CFD, FEA, multiphysics simulations, manufacturing processes, materials characterization, laboratory testing, or other engineering and scientific workflows.


Technical Skills
Python, C++
PyTorch, TensorFlow, Keras, Scikit-learn
Machine Learning and Deep Learning
Computer Vision
Reinforcement Learning
Graph Neural Networks (GNNs)
Transformer Architectures
Linux, Git, Docker
CUDA and GPU Computing
Scientific Computing and Optimization
Physics-Informed Machine Learning (Preferred)
Engineering and Scientific Data Analysis (Preferred)