Masters of Public Administration
The Master of Public Administration (MPA) program at Auburn University is designed to p...
M.S. in Materials Engineering
Auburn, Alabama
INTAKE: Jan & Aug
Program Overview
Auburn University offers a prestigious Master of Science (M.S.) program in Materials Engineering, providing students with advanced knowledge and skills in the design, development, processing, and characterization of materials. Auburn University's M.S. program in Materials Engineering offers a comprehensive and interdisciplinary education that prepares students for successful careers in the dynamic field of materials science and engineering. With its cutting-edge curriculum, hands-on laboratory experiences, research opportunities, industry partnerships, professional development resources, and emphasis on ethical and societal considerations, the program equips graduates with the knowledge, skills, and ethical mindset to address complex materials engineering challenges, drive innovation, and make meaningful contributions to society and industry.
Curriculum:
1. Cutting-edge Curriculum: Auburn's M.S. program in Materials Engineering features a cutting-edge curriculum that covers fundamental principles, advanced concepts, and emerging technologies in materials science and engineering. Courses explore topics such as crystal structure, phase transformations, mechanical properties, electrical properties, thermal properties, corrosion resistance, and nanomaterials. Students gain a deep understanding of the structure-property-processing relationships that govern the behavior and performance of materials in various applications.
2. Interdisciplinary Approach: The program takes an interdisciplinary approach, drawing on principles and techniques from chemistry, physics, mathematics, and engineering disciplines to address complex materials engineering challenges. Students learn to integrate knowledge from multiple fields to design and optimize materials with tailored properties for specific applications, such as aerospace, automotive, biomedical, electronics, energy, and sustainable manufacturing.
3. Hands-on Laboratory Experiences: Auburn's program emphasizes hands-on laboratory experiences that allow students to apply theoretical knowledge to practical problems in materials engineering. Students have access to state-of-the-art laboratories equipped with advanced instrumentation for materials synthesis, processing, characterization, and testing. They conduct experiments, analyze data, and develop practical skills in materials fabrication techniques, microscopy, spectroscopy, mechanical testing, and materials modeling.
4. Research Opportunities: Auburn University is a research-intensive institution with world-class faculty conducting cutting-edge research in materials science and engineering. Students in the M.S. program have opportunities to engage in research projects, collaborate with faculty mentors, and contribute to the advancement of knowledge in the field. Whether investigating new materials for renewable energy applications, developing advanced composites for lightweight structures, or studying the behavior of materials under extreme conditions, students gain valuable research experience and contribute to innovation in materials engineering.
5. Industry Partnerships and Internships: Auburn University has strong partnerships with industry partners, providing students with opportunities for internships, cooperative education experiences, and industry-sponsored research projects. Students gain practical experience working on real-world materials engineering challenges, collaborating with industry professionals, and applying their skills and knowledge in industrial settings. These partnerships also facilitate networking opportunities and career connections for students transitioning into the workforce.
6. Professional Development: Auburn's program prepares students for successful careers in materials engineering through professional development activities, career counseling, and networking events. Students have access to resources such as resume workshops, mock interviews, and career fairs to enhance their job search skills and explore career opportunities in academia, industry, government, and research organizations. They also have opportunities to participate in professional societies, attend conferences, and present their research to peers and industry professionals.
7. Specialization Tracks: The program offers specialization tracks or elective courses that allow students to tailor their academic experience to their specific interests and career goals within the field of materials engineering. Specialization areas may include biomaterials, electronic materials, polymers, ceramics, metals, composites, or nanomaterials. Students can choose courses that align with their research interests, industry preferences, and career aspirations, deepening their expertise in a particular area of materials engineering.
8. Ethical and Societal Implications: Auburn's program emphasizes ethical considerations and societal implications in materials engineering, preparing students to address issues such as sustainability, environmental impact, safety, and social responsibility in their work. Students explore ethical principles, professional codes of conduct, and regulatory frameworks governing materials engineering practices. They develop an awareness of the broader impacts of materials engineering on society and the importance of ethical decision-making in research, design, and manufacturing processes.
Location
Auburn, Alabama
Score
IELTS: 6.5
Tuition Fee
USD 16304
Postgraduate Programs Entry Requirements:
- Academic Qualifications: International students applying for postgraduate programs at Auburn University should hold a bachelor's degree or its equivalent from a recognized institution. The minimum academic requirement is a score of 80-86% or above in the qualifying examination.
- English Language Proficiency:
- IELTS: A minimum overall band score of 6.5 is required.
- TOEFL: A minimum score of 79 on the internet-based test (iBT) is required.
- PTE: A minimum score of 55 is required.
These scholarships recognize academic achievements, leadership potential, and diverse backgrounds.
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International Merit Scholarships: Auburn University offers merit-based scholarships to outstanding international students. These scholarships are awarded based on academic excellence, leadership skills, extracurricular involvement, and other criteria. The scholarships are renewable for up to four years of undergraduate study and provide partial tuition coverage.
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Global Scholars Program: The Global Scholars Program is a prestigious scholarship program at Auburn University. It is designed for academically talented international students who demonstrate exceptional leadership abilities, community involvement, and a commitment to global issues. Selected students receive a comprehensive scholarship package that includes full tuition, housing, and a stipend.
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Cultural Diversity Scholarships: Auburn University recognizes and values the diversity of its student population. The Cultural Diversity Scholarships aim to support underrepresented international students who contribute to the university's cultural and global perspectives. These scholarships provide financial assistance for tuition and living expenses.
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Departmental Scholarships: Various academic departments and colleges within Auburn University offer scholarships specifically for international students. These scholarships may be discipline-specific and require students to major in a particular field of study. Students are encouraged to explore departmental websites and contact their respective academic units for information on available scholarships.
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Graduate Assistantships: International graduate students may have the opportunity to work as graduate teaching or research assistants within their academic departments. These assistantships provide a stipend, tuition remission, and valuable professional experience. Graduate students can inquire about assistantship opportunities when applying to their respective graduate programs.
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External Scholarships: Auburn University also encourages international students to explore external scholarship opportunities provided by governments, organizations, and foundations. The university's Office of International Programs provides guidance and resources to help students search and apply for external scholarships.
It is important for international students to carefully review scholarship eligibility criteria, application deadlines, and any additional requirements specified by Auburn University. The university encourages early application submission to be considered for the available scholarships.
Graduates of Auburn University's Master of Science (M.S.) program in Materials Engineering are in high demand across various industries due to their specialized knowledge and skills in designing, developing, and analyzing materials. Auburn University's M.S. program in Materials Engineering provides graduates with diverse and rewarding career opportunities in industries such as aerospace, automotive, electronics, energy, biomedical, manufacturing, research, consulting, academia, and entrepreneurship. With their specialized knowledge, hands-on experience, problem-solving skills, and interdisciplinary approach to materials engineering, graduates emerge as valuable contributors to innovation, sustainability, and economic development in diverse sectors that rely on advanced materials for technological advancement and societal progress.
1. Materials Engineer: Graduates can pursue careers as materials engineers, where they work in industries such as aerospace, automotive, electronics, energy, biomedical, construction, and manufacturing. They design, develop, and test materials to meet specific performance requirements for various applications. They analyze materials' properties, behavior, and performance under different conditions, and they collaborate with multidisciplinary teams to optimize materials selection, processing methods, and product design for enhanced performance, durability, and cost-effectiveness.
2. Research and Development (R&D) Engineer: Graduates may work as research and development engineers in industrial research laboratories, government agencies, or research institutions. They conduct applied research, exploratory studies, and experimental investigations to develop new materials, improve existing materials, or solve materials-related problems. They design experiments, analyze data, and develop prototypes or proof-of-concept models to validate materials' performance and feasibility for commercialization in diverse industries.
3. Process Engineer: Graduates can pursue careers as process engineers, where they focus on optimizing manufacturing processes for producing materials with desired properties and performance characteristics. They design and implement manufacturing processes, monitor production parameters, troubleshoot process issues, and improve process efficiency, quality, and cost-effectiveness. They may specialize in areas such as casting, forging, welding, machining, heat treatment, or additive manufacturing techniques like 3D printing.
4. Quality Control/Quality Assurance Engineer: Graduates may work as quality control or quality assurance engineers, ensuring that materials and products meet regulatory standards, specifications, and customer requirements. They develop quality control protocols, conduct materials testing and inspection, analyze quality data, and implement corrective actions to address non-conformities and improve product quality, reliability, and safety. They collaborate with manufacturing teams to identify root causes of quality issues and implement preventive measures to minimize defects and waste.
5. Materials Scientist: Graduates with a strong research focus may work as materials scientists in research institutions, national laboratories, or academia, conducting fundamental research on the structure, properties, and behavior of materials at the atomic and molecular level. They investigate new materials synthesis methods, characterize materials' properties using advanced analytical techniques, and develop theoretical models to predict materials' behavior and performance. They contribute to scientific advancements in materials science and engineering through publications, patents, and collaborative research projects.
6. Consulting Engineer: Graduates may work as consulting engineers, providing technical expertise, advice, and solutions to clients in industries such as manufacturing, construction, energy, or materials testing and analysis. They conduct materials failure analysis, forensic investigations, and risk assessments to identify the root causes of material failures, design flaws, or performance deficiencies. They provide recommendations for remedial actions, product improvements, and materials selection to mitigate risks and optimize performance in various engineering applications.
7. Academic or Industry Researcher: Graduates interested in academia may pursue research-focused careers as faculty members, researchers, or postdoctoral fellows in academic institutions or research organizations. They conduct independent research, mentor students, secure research funding, and publish scholarly articles in peer-reviewed journals. Graduates interested in industry research may work in corporate research and development centers, applying their expertise to address industry-specific challenges, develop innovative solutions, and advance technological capabilities in materials engineering.
8. Entrepreneurship: Graduates with an entrepreneurial spirit may choose to start their own materials-related businesses, such as materials consulting firms, materials testing laboratories, or materials manufacturing startups. They identify market opportunities, develop business plans, secure funding, and commercialize innovative materials technologies or products. They leverage their technical expertise, industry contacts, and problem-solving skills to launch successful ventures that address market needs and contribute to economic growth and innovation in the materials sector.
