Materials engineering is a specialized field of engineering where the professionals remain engaged in the development, processing and testing of different types of materials required in different manufacturing processes. As such, material engineers are experts in determining the qualities of the materials that have immense importance in other industries, especially in manufacturing industries that are involved in production of mainly engineering and scientific products. Through rigorous classes, practical and theoretical trainings and assignments, students of materials engineering develop their abilities to build and investigate materials at their molecular levels, they are taught to use advanced processes to reproduce naturally available materials in the laboratory and then study the special characteristics of these materials and their usability in different machineries.
Students in this field are also taught to invent new materials by combining different elements and compounds in laboratories. Such inventions help the other industries to make use of more advanced products suitable for their manufacturing processes. As had happened in the past, new materials developed by material engineers will continue to make revolutionary changes in our lives in the future too. These engineers are efficiently inventing more permeable, more sophisticated and lighter materials that are revolutionizing other industrial inventions.
Materials engineering focuses on the improvement of the things and how they are made and solves the problems of many other engineering fields, such as civil, chemical, mechanical, electrical, aerospace and nuclear.
Material engineers work with ceramics, plastics, metals, semiconductors, and compounds to produce new materials that could meet certain mechanical, electrical, and chemical requirements. They also are engaged in finding naturally available materials for new different applications.
Everything used by human is made of some materials - Laptops,cars, bikes, airplanes, refrigerators, microwaves, television, kitchen appliances, sports equipment, DVDs, and biomedical devices like - limbs, replacement joints, pacemakers, etc. All of these products require materials specifically generated for specific applications only. Materials engineers mostly remain engaged in innovations and try to apply new innovations in real world situations that use their anticipated properties, so these professionals work closely with several other fields in science and engineering so that by combining their knowledge of materials engineering with other branches, they can innovate and discover the desired material. Thus, material engineers are important in different fields like : aircraft engineering, computer manufacturing, toys manufacturing, medical apparatus manufacturing, biomedical science, electronics products manufacturing, packaging industry, civil engineering, chemical engineering, agricultural engineering, and mechanical engineering, etc. It is the invention of a new material that opens the door for a new technology and material engineers are always engaged in research and investigation of new materials.
Material engineers always remain at the forefront in all these and many other industries with a sole motto to contribute some new materials that will make these industries more advanced and more realistic for the human race. Materials engineering has its impacts on human life each time a person buys or uses a new device, apparatus, or structure. Thus, material engineers are very important for the above mentioned industries and their importance is increasing with the rise in modernity.
It is evident that materials engineering is one of the toughest fields in engineering. Throughout the course sessions, students are kept engaged with practical training and assignments. This field of study requires lots of practical experience on naturally and artificially available materials and how their characteristics can be studied and changed. As a result, students remain intensively engaged in laboratories and classes most of the time. At the end of any materials engineering course, students become experts in the following fields:
Assignments are inevitable part of any course in materials engineering. Most of the assignments given on materials engineering are highly technical in nature. These assignments require lots of research work and in-depth knowledge on various topics of materials engineering. Thus, students can take assistance for material engineering assignment & project help to complete their assignments on time. And to help them out in the best way, EssayCorp provides the help through our experienced professionals.
Undoubtedly, Materials Engineering is a tough stream of engineering, but as far as the assignments are concerned, students can contact the best assignment help for that purpose to get professional assistance for completing their materials engineering assignment.
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For small flow rates, the volume flow rate Q through a small triangular-section tube of side W and length L is a function of dynamic viscosity , pressure drop per unit length p/L and W. Using Buckingham pi theorem, express the relation between variables in a non-dimensional form .
The first part should be solved manually, and the second part should be done by using abaqus software. Consider a first-order triangular element, if we know the coordinates (x,y) and the displacements (u,v) at the nodes as follows: Node 1: (x1, y1) = (3.0,3.0), (u1, v1) = (0.012,0.006) m Node 2: (x2, y2) = (2.0,4.0), (u2, v2) = (0.015,0.005) m Node 3: (x3, y3) = (1.0,1.0), (u3, v3) = (0.010,0.008) m a) Find the interpolation functions for this element. b) Calculate the displacements (u, v) at the points (4, 3) and (3, 2).
Design an efficient retaining wall to be used along the rear of excavated area of the tank. Depending on depth of cut and height of soil to retain,dimensions for both stocky and slender retaining wall will be designed. Retaining walls will be designed to resist against three major failure modes including overturning, sliding and bearing. Based on the design of retaining walls to resist mentioned failure modes, optimal dimensions for the most economical shape of retaining wall will be proposed.
Determine the deflections and stresses in a loaded Pilatus PC/9 wing using finite element computational modelling. The aircraft wing can be simplified using appropriate beam-plate representations. You must decide how to represent the wing to provide meaningful results. This is a major focus of the assignment and much detail and explanation is expected for all choices in your numerical calculations.
The aerodynamic lift of the wing is described by the distributed load of 2w x 300 1 0.04 N/m. The mass of the wing is 27 Kg, and its center of mass is located 2 m from the wing root R. (a) Determine the magnitude of the force and the moment about R exerted by the lift of the wing. (b) Determine the reactions on the wing at R.
Few tasks related to different cipher processes, from ancient Caesar cipher to digital signature of files. This is a great way to practice and fully comprehend concepts of hash, public key, private key and cracking and encryption. In this case we based some of the task on Linux commands and the rest required only simple math calculations
Explain in your own words the purpose of the command in the context of the assignment question. Also, you need to explain in your own words all terminology used—as if you were explaining to an average user. Show that the command worked—either from its output or the output from another command. To capture text output from programs you will have to redirect the output to a file or use the command script.
Design and implement a secured network infrastructure that ensures high availability, reliability, scalability, performance and security to support GB services. This requires 1) the design of the network; 2) the delivery of a comprehensive network security plan; and 3) Security technology implementation - proof of concept.
You are required to design a simple CMOS circuit consisting of a two-input NOR gate. You are required to show the layout (plan view) of the circuit, after calculating the aspect ratio (W?L) of the transistors. The Layout of the circuit includes the VDD and ground lines.