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Materials
and Metallurgical Engineering is a dynamic and multidisciplinary field devoted
to understanding and tailoring the properties of materials through physical and
natural sciences. This engineering program aims to optimize materials for
specific applications by integrating scientific knowledge with advanced
engineering techniques. The curriculum at DUET covers all classes of materials
— metals, ceramics, polymers, and composites — and focuses on their synthesis,
processing, characterization, and development for industrial and technological
use.
A
key strength of this program lies in its atomic-level approach to materials
analysis. Courses like Crystallography and Structure of Materials and Crystal
Defects, Deformation and Fracture provide insights into how atomic arrangements
influence properties and behaviors under various conditions such as mechanical
stress, heat, and electromagnetic fields. This deep understanding facilitates
the development of new materials with tailored properties for applications in
energy, healthcare, transportation, electronics, and the environment.
The
curriculum is designed to be rigorous yet flexible, aligning with both current
industrial demands and emerging technologies. Core theoretical foundations are
built through courses such as Materials Thermodynamics, Phase Diagram and
Transformations, and Steel Production and Quality Control. Practical knowledge
is reinforced through hands-on sessionals like Metallography, Materials Testing,Chemical
Analysis Process, Corrosion and Surface Engineering, etc.
To
support interdisciplinary development, the program includes foundational
subjects like Basic Electrical Engineering and Engineering Mechanics. The
curriculum is also rounded out with repeated reinforcements of key science and
math foundations through courses like Numerical Analysis, PDEs, Organic and
Inorganic Chemistry. Moreover, software skills and computing proficiency are
built through Introduction to Computing and Computer Programming, with further
application in CAD for Materials Processing.
The
Department emphasizes a balanced educational experience, blending theory with
industry relevance. Students engage in industrial training, design projects
like Capstone Design, and applied subjects such as Failure of Materials and
Artefact Study. Courses on Professional Ethics and Technical Communication
ensure that graduates are not only technically competent but also
professionally prepared.
Programme overview
Main Subject
Engineering - General
Degree
BSc
Study Level
Undergraduate
Study Mode
On Campus
Materials
and Metallurgical Engineering is a dynamic and multidisciplinary field devoted
to understanding and tailoring the properties of materials through physical and
natural sciences. This engineering program aims to optimize materials for
specific applications by integrating scientific knowledge with advanced
engineering techniques. The curriculum at DUET covers all classes of materials
— metals, ceramics, polymers, and composites — and focuses on their synthesis,
processing, characterization, and development for industrial and technological
use.
A
key strength of this program lies in its atomic-level approach to materials
analysis. Courses like Crystallography and Structure of Materials and Crystal
Defects, Deformation and Fracture provide insights into how atomic arrangements
influence properties and behaviors under various conditions such as mechanical
stress, heat, and electromagnetic fields. This deep understanding facilitates
the development of new materials with tailored properties for applications in
energy, healthcare, transportation, electronics, and the environment.
The
curriculum is designed to be rigorous yet flexible, aligning with both current
industrial demands and emerging technologies. Core theoretical foundations are
built through courses such as Materials Thermodynamics, Phase Diagram and
Transformations, and Steel Production and Quality Control. Practical knowledge
is reinforced through hands-on sessionals like Metallography, Materials Testing,Chemical
Analysis Process, Corrosion and Surface Engineering, etc.
To
support interdisciplinary development, the program includes foundational
subjects like Basic Electrical Engineering and Engineering Mechanics. The
curriculum is also rounded out with repeated reinforcements of key science and
math foundations through courses like Numerical Analysis, PDEs, Organic and
Inorganic Chemistry. Moreover, software skills and computing proficiency are
built through Introduction to Computing and Computer Programming, with further
application in CAD for Materials Processing.
The
Department emphasizes a balanced educational experience, blending theory with
industry relevance. Students engage in industrial training, design projects
like Capstone Design, and applied subjects such as Failure of Materials and
Artefact Study. Courses on Professional Ethics and Technical Communication
ensure that graduates are not only technically competent but also
professionally prepared.
Admission Requirements
40+
Citizenship:
The applicant must be a Bangladeshi citizen.
Educational
Background:
The
applicant must have passed the Secondary School Certificate (SSC)/Equivalent
and Higher Secondary Certificate (HSC)/Equivalent from a General Education
Board/Madrasah Board/Technical Education Board of Bangladesh. In both
examinations, the applicant must have obtained a minimum GPA of 4.00 out of
5.00, with a minimum GPA of 3.00 in Mathematics in the HSC or equivalent exam.
Diploma
Requirement:
The
applicant must have passed a 4-year Diploma in Engineering/Marine Engineering with at least 60% marks or a CGPA of 3.00 out of 4.00.
43 Years
Tuition fees
Domestic
250 USD
International
1,000 USD
Scholarships
Selecting the right scholarship can be a daunting process. With countless options available, students often find themselves overwhelmed and confused. The decision can be especially stressful for those facing financial constraints or pursuing specific academic or career goals.
To help students navigate this challenging process, we recommend the following articles:
You can apply through the official university admissions portal during the application period. The process typically involves submitting an online application, academic transcripts, a statement of purpose, and other required documents.
The minimum duration of the program is eight semesters. However, students must complete the program within five academic years from the date of first registration.
Bachelor of Science in Materials and Metallurgical Engineering
516 monthsProgramme duration
1,000 USDTuition Fee/year
Engineering - GeneralMain Subject Area
Programme overview
Main Subject
Engineering - General
Degree
BSc
Study Level
Undergraduate
Study Mode
On Campus
Materials and Metallurgical Engineering is a dynamic and multidisciplinary field devoted to understanding and tailoring the properties of materials through physical and natural sciences. This engineering program aims to optimize materials for specific applications by integrating scientific knowledge with advanced engineering techniques. The curriculum at DUET covers all classes of materials — metals, ceramics, polymers, and composites — and focuses on their synthesis, processing, characterization, and development for industrial and technological use.
A key strength of this program lies in its atomic-level approach to materials analysis. Courses like Crystallography and Structure of Materials and Crystal Defects, Deformation and Fracture provide insights into how atomic arrangements influence properties and behaviors under various conditions such as mechanical stress, heat, and electromagnetic fields. This deep understanding facilitates the development of new materials with tailored properties for applications in energy, healthcare, transportation, electronics, and the environment.
The curriculum is designed to be rigorous yet flexible, aligning with both current industrial demands and emerging technologies. Core theoretical foundations are built through courses such as Materials Thermodynamics, Phase Diagram and Transformations, and Steel Production and Quality Control. Practical knowledge is reinforced through hands-on sessionals like Metallography, Materials Testing,Chemical Analysis Process, Corrosion and Surface Engineering, etc.
To support interdisciplinary development, the program includes foundational subjects like Basic Electrical Engineering and Engineering Mechanics. The curriculum is also rounded out with repeated reinforcements of key science and math foundations through courses like Numerical Analysis, PDEs, Organic and Inorganic Chemistry. Moreover, software skills and computing proficiency are built through Introduction to Computing and Computer Programming, with further application in CAD for Materials Processing.
The Department emphasizes a balanced educational experience, blending theory with industry relevance. Students engage in industrial training, design projects like Capstone Design, and applied subjects such as Failure of Materials and Artefact Study. Courses on Professional Ethics and Technical Communication ensure that graduates are not only technically competent but also professionally prepared.
Programme overview
Main Subject
Engineering - General
Degree
BSc
Study Level
Undergraduate
Study Mode
On Campus
Materials and Metallurgical Engineering is a dynamic and multidisciplinary field devoted to understanding and tailoring the properties of materials through physical and natural sciences. This engineering program aims to optimize materials for specific applications by integrating scientific knowledge with advanced engineering techniques. The curriculum at DUET covers all classes of materials — metals, ceramics, polymers, and composites — and focuses on their synthesis, processing, characterization, and development for industrial and technological use.
A key strength of this program lies in its atomic-level approach to materials analysis. Courses like Crystallography and Structure of Materials and Crystal Defects, Deformation and Fracture provide insights into how atomic arrangements influence properties and behaviors under various conditions such as mechanical stress, heat, and electromagnetic fields. This deep understanding facilitates the development of new materials with tailored properties for applications in energy, healthcare, transportation, electronics, and the environment.
The curriculum is designed to be rigorous yet flexible, aligning with both current industrial demands and emerging technologies. Core theoretical foundations are built through courses such as Materials Thermodynamics, Phase Diagram and Transformations, and Steel Production and Quality Control. Practical knowledge is reinforced through hands-on sessionals like Metallography, Materials Testing,Chemical Analysis Process, Corrosion and Surface Engineering, etc.
To support interdisciplinary development, the program includes foundational subjects like Basic Electrical Engineering and Engineering Mechanics. The curriculum is also rounded out with repeated reinforcements of key science and math foundations through courses like Numerical Analysis, PDEs, Organic and Inorganic Chemistry. Moreover, software skills and computing proficiency are built through Introduction to Computing and Computer Programming, with further application in CAD for Materials Processing.
The Department emphasizes a balanced educational experience, blending theory with industry relevance. Students engage in industrial training, design projects like Capstone Design, and applied subjects such as Failure of Materials and Artefact Study. Courses on Professional Ethics and Technical Communication ensure that graduates are not only technically competent but also professionally prepared.
Admission Requirements
Citizenship:
The applicant must be a Bangladeshi citizen.
Educational Background:
The applicant must have passed the Secondary School Certificate (SSC)/Equivalent and Higher Secondary Certificate (HSC)/Equivalent from a General Education Board/Madrasah Board/Technical Education Board of Bangladesh. In both examinations, the applicant must have obtained a minimum GPA of 4.00 out of 5.00, with a minimum GPA of 3.00 in Mathematics in the HSC or equivalent exam.
Diploma Requirement:
The applicant must have passed a 4-year Diploma in Engineering/Marine Engineering with at least 60% marks or a CGPA of 3.00 out of 4.00.
Tuition fees
Domestic
International
Scholarships
Selecting the right scholarship can be a daunting process. With countless options available, students often find themselves overwhelmed and confused. The decision can be especially stressful for those facing financial constraints or pursuing specific academic or career goals.
To help students navigate this challenging process, we recommend the following articles:
How to get a full scholarship
Looking for a fully-funded scholarship to see you into university? Find out how to boost your chances of getting one.
Scholarships to study abroad
Find scholarships to study abroad with our lists of international scholarships – categorized by country, by subject, and by type of student.
Scholarship Applications: Frequently Asked Questions
Get answers to all your questions about scholarship applications, including tips on how to find scholarships and chances of success.
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Frequently Asked Questions