About
Materials engineers are responsible for the research, specification, design and development of materials to advance technologies and products of many kinds.
Their expertise lies in understanding the properties and behaviors of different substances, from raw materials to finished products. The field is also referred to as materials science or materials technology.
Career
Career prospects are generally good within this branch of engineering. Due to there being so many different specialist areas and such rapid technological change in the field, there is a consistent demand for materials engineers.
Once you have built up experience, it is possible to move into general management roles (within laboratories or in the wider organisation) or to develop a technical specialist area.
Progression to management will depend on the size and scope of the employing company; for example, a small but highly specialist biomedical laboratory cannot offer the management career potential available within a global oil and gas company.
You are likely to play a significant role in finding more energy-efficient and less polluting and waste-generating, products and processes. This particular aspect of the role may further increase promotion prospects within many organisations.
You can focus your career in a particular direction depending on your interests. For example, you could decide to be based in the laboratory working on research and development, or you may want to concentrate on the production and processing side.
With significant experience you could set up your own consultancy or small specialist practice, or you could find work as a contractor for various different organisations and projects.
Job Prospects
Exact tasks vary according to the industry, the specific material you work with and the size of the organisation you work for, but there are a number of activities common to most posts. These include:
- selecting the best combination of materials for specific purposes;
- testing materials to assess how resistant they are to heat, corrosion or chemical attack;
- analyzing data using computer modelling software;
- assessing materials for specific qualities (such as electrical conductivity, durability, renewability);
- developing prototypes;
- considering the implications for waste and other environmental pollution issues of any product or process;
- advising on the adaptability of a plant to new processes and materials;
- working to solve problems arising during the manufacturing process or with the finished product, such as those caused by daily wear and tear or a change of environment;
- supervising quality control throughout the construction and production process;
- monitoring plant conditions and material reactions during use;
- helping to ensure that products comply with national and international legal and quality standards;
- advising on inspection, maintenance and repair procedures;
- liaising with colleagues in manufacturing, technical and scientific support, purchasing and marketing;
- supervising the work of materials engineering technicians and other staff;
- considering the costs implications of materials used and alternatives, in terms of both time and money;
- taking account of energy usage in manufacturing and in-service energy saving, e.g. in transport and construction applications.
At senior level, the work is likely to involve more innovative research or greater management responsibility. The latter will call for a range of additional skills that are not necessarily part of the routine work of a materials engineer.
Remuneration
Salary levels may be influenced by the exact area in which you work and are often higher in what are considered to be ‘leading edge’ technologies, such as telecommunications and biomedical engineering.
Income figures are intended as a guide only.
Course Structure
Section-A
Subject Code | Subject Name | Download |
---|---|---|
AMR-01 | MATHEMATICS – III | Download |
AMR-02 | ENGINEERING MECHANICS | Download |
AMR-03 | STRENGTH OF MATERIALS | Download |
AMR-04 | THERMODYNAMICS AND KINEMATICS OF MATERIALS | Download |
AMR-05 | NATURE AND PROPERTIES OF MATERIALS | Download |
AMR-06 | SOCIETY, ENVIRONMENT & ENGINEERING | Download |
AMR-07 | PHASE EQUILIBRIA IN MATERIALS | Download |
AMR-08 | MECHANICAL BEHAVIOUR OF MATERIALS | Download |
AMR-09 | MATERIALS CHARACTERIZATION – I | Download |
Section-B
Subject Code | Subject Name | Download |
---|---|---|
AMR-10 | IRON AND STEEL MAKING | Download |
AMR-11 | FUNDAMENTALS OF MATERIALS PROCESSING | Download |
AMR-12 | MANUFACTURING PROCESSES SELECTION AND DESIGN | Download |
AMR-13 | ELECTRONIC AND OPTICAL MATERIALS | Download |
AMR-14 | PHASE TRANSFORMATION IN METALS | Download |
AMR-15 | HEAT TREATMENT OF METALS | Download |
AMR-16 | PRINCIPLES OF METAL EXTRACTION AND REFINING | Download |
AMR-17 | METAL JOINING AND POWDER METALLURGY | Download |
AMR-18 | DIFFUSION IN SOLIDS | Download |
AMR-19 | CORROSION AND DEGRADATION OF MATERIALS | Download |
AMR-20 | MATERIALS CHARACTERIZATION – II | Download |
AMR-21 | INDUSTRIAL MANAGEMENT | Download |
AMR-22 | COMPOSITE MATERIALS | Download |
AMR-23 | FUEL, REFRACTORIES AND FURNACE | Download |
AMR-24 | ELECTRONIC MATERIALS FOR INDUSTRY | Download |
AMR-25 | HEAT AND MASS TRANSFER | Download |
AMR-26 | COMPUTING METHODS IN MATERIAL ENINEERING | Download |
AMR-27 | ELECTROMECHANICAL TECHNOLOGY IN MATERIAL PROCESSING | Download |
PROJECT | PROJECT WORK | Download |
Project Work