Seeking help from engineering assignments help is very common among materials engineering students. Material Science & Engineering or Bachelor of Engineering in Material Science & Engineering is an undergraduate course. Materials science is an interdisciplinary field including the properties of matter and its applications in various areas of engineering and science.
Interested students will learn about ceramics, metal, semiconductors, polymers and composites. Material Science and Engineering is an interdisciplinary and dynamic study that combines the fundamental sciences involving chemistry, physics and life sciences.
MSE also includes applied engineering, mechanical, electronic, bioengineer, and chemical. It provides a basic understanding of how the science of structures and processes on the atomic scale results in the properties and functions familiar at the engineering level.
The course duration is four years, and it provides many career opportunities. Assignments have a significant role in MSE. It’s a great idea to have assignment help from online services like accounting homework help. But, doing it on your own will give you the best benefits possible from this course.
Some of the Specializations in Material Science & Engineering
Before you decide to seek help from online services like history homework help, let’s see the specializations of MSE.
- Polymeric and Biomedical Materials
- Nano-structured materials & Nanotechnology
- Semiconductors, Optoelectronics & Information storage materials
- Engineering Materials and Processing
Material Science & Engineering Eligibility
You must be thinking, why do you need to know all this when you can get assistance from any essay help service. Understanding the details will let you know the importance of the course.
- Aspiring students should have passed XII with Physics, Chemistry and Mathematics or equivalent with a minimum of 55% marks from a recognized school board.
- Some reputed colleges and institutes conduct an entrance examination for admission.
Material Science & Engineering Syllabus
| Semester 1 | Semester 2 | |
| Sl. No. | Subjects | |
| 1 | Basic Electrical & Electronics Engineering | Chemistry |
| 2 | Engineering Drawing | Mathematics II |
| 3 | Mathematics | Physics II |
| 4 | Physics | Programming & Computing (C & UNIX) |
| 5 | PracticalsBasic Electrical & Electronics Engineering LabPhysics LabCommunicative English | PracticalsChemistry LabPhysics II LabProgramming (C & UNIX) LabWorkshop Concept Workshop Practice |
| Semester 3 | Semester 4 | |
| Sl. No. | Subjects | |
| 1 | Engineering Mechanics | Industrial Economics |
| 2 | Mathematics III | Iron and Steel Making |
| 3 | Nature and Properties of Materials | Materials Characterization |
| 4 | Physics of Materials | Mechanical Behavior of Materials |
| 5 | Thermodynamics and Kinetics of Materials | Phase Equilibrium in Materials |
| 6 | PracticalNature and Properties of Materials Lab | PracticalsMaterials Characterization LabPhase Equilibrium in Materials Lab |
| Semester 5 | Semester 6 | |
| Sl. No. | Subjects | |
| 1 | Electronic and Optical Materials | Corrosion and Degradation of Materials |
| 2 | Fundamentals of Materials Processing | Diffusion in Solids |
| 3 | Heat Treatment of Metals | Materials Characterization II |
| 4 | Manufacturing Processes: Selection and Design | Professional Communication |
| 5 | Phase Transformation in Metals | Principles of Powder Processing |
| 6 | PracticalPhase Transformation in Metals Lab | Principles of Metal Extraction and Refining |
| 7 | PracticalPrinciples of Powder Processing Lab |
| Semester 7 | Semester 8 | |
| Sl. No. | Subjects | |
| 1 | Composite Materials | Computing Methods in Materials Engineering |
| 2 | Fuel, Refractories, and Furnaces | Electronic Materials for Industry |
| 3 | Industrial Management | Heat and Mass Transfer |
| 4 | Elective I | Elective II |
| 5 | PracticalsSummer TrainingStudent SeminarProject I | Humanities Elective |
| 6 | Project II | |
| Departmental Elective SubjectsApplication of Transport Phenomenon in metal processingCeramic MaterialsEngineering PolymersElectrochemical Technology in Materials ProcessingVacuum Technology and Devices |
Material Science & Engineering Colleges
- Chandigarh College of Engineering and Technology – CCET, Chandigarh
- Anna University – Chennai, Chennai
Material Science & Engineering Course Suitability
- Those who want to study the chemical properties and structures of various materials to develop new products and enhance existing ones are suitable.
- Students who want to be equipped to make discoveries advancing the technologies behind communication, health care, transportation, recreation, and more can go for it.
- Applicants willing for further Master degree and research study also are suitable for the course.
Benefits of Material Science & Engineering Course:
- Material science and engineering courses are beneficial for further studies such as M.E., M.Tech, M.Phil and PhD.
- It helps students apply the principles of engineering and basic sciences to understanding materials’ behaviour, development, and applications.
- The course helps investigate various materials’ structural, electrical, and magnetic properties, including metals, ceramics, electronic and magnetic materials, semiconductors, nanomaterials, biomaterials, aerospace materials, and nuclear materials.
- Depending on interest and ability, a materials engineer might begin in a technical area such as manufacturing or research and development and then move into management, sales, marketing, or consulting.
- The jobs are offered in various industries that require expertise in semiconductors, telecommunications; microelectronics and packaging; aerospace and defence; chemicals and petrochemicals; data storage, polymers, composites and rubber, ceramics and biotechnology.
Material Science & Engineering Employment Areas
After completing the material sign send engineering course, you can avail different employment areas. Some of the most famous employment fields are Aerospace Centers, Armed Forces and Defense, Colleges & Universities, Logistics Departments, Materials Science & Engineering, Nuclear Industry, Oil and Gas, Pharmaceuticals, Utility Centers etc.
Material Science & Engineering Job Types
Material science and engineering courses open different types of job opportunities for candidates. Some of the most popular designations are
Assistant Manager, Analytical Chemistry Associate, Manager, Material Handler, Material Scientist/ Scientist, Research Scientist, Research Associate, Trainee/ Junior Scientist, Vendor Development Officer etc.
Importance of assignment in Material Science and Engineering course
Assignments, projects and PPTs are a vital part of a Material Engineering course. Some of the primary significance of having assignments in material and engineering courses are –
- Building focus:
Often, the assignments come with a good percentage, further boosting your final score. Therefore, you are required to complete your projects to finish your entire course. This will help you concentrate more on the subject and encourage you to understand the subject matter better.
- Practical Skill:
During writing assignments, you will encounter new equations and material engineering problems. Eventually, you will discover their relevant solution on your own, which is the most significant significance of assignments. Continuous practice of the subject matter is required if you want to excel in this field of material engineering. And being involved in regular assignments and projects are the best way of focusing and practising the subject.
- Evaluative Purpose:
The initial purpose of assigning assignments to students is to understand whether they have gotten hold of a specific topic or subject. On the other hand, if the student has confusion about the primary concept, it will reflect their sparse learning and weak foundation of understanding. Besides, teachers also evaluate different skills which are endured in the process.
Wrapping up:
Material Engineering has become an essential instrument in bringing about technological changes. Discoveries of new materials and improving old ones are undergirded by a deeper understanding of the intimate relations between materials’ composition, processing, and structure.
And taking care of their properties and function repeatedly leads to higher performance and efficiency in existing technologies and the creation of new ones.
On that note, a breakthrough in understanding the physics and chemistry of biocompatibility of synthetic materials could dramatically affect the prosthetics industry.
MSE is both responsive and creative. New insights gained, often unexpectedly, through research on the properties and phenomena exhibited by materials can lead to new products and applications of benefit to humanity through development and engineering stages.
But often, the perception of some potential market or societal need for a product stimulates the appropriate engineering and development and, in turn, the support of considerable applied and even basic research.