This is evident from the universal mechanical engineering courses covered by students worldwide. Mechanical engineers play a vital role in researching and evolving new technologies which are widely used in the healthcare, transport, robotics, and construction industries. Mechanical engineers possess multiple skills. Mechanical engineering covers a wide array of fields. Mechanical engineers are conversant with electricity, mathematics, structures, physics, and computer applications.
A qualified mechanical engineer should have knowledge on economic, social, and environmental factors. Students are likely to unearth numerous skills in the process of studying mechanical engineering. There are numerous mechanical engineering courses to choose from. With such a wide variety, students are assured of finding various topics that meet their expectations. We incorporate the services of qualified, experienced, and professional staff to ensure students receive the best work that suits their needs.
We go a notch higher to provide our staff with refresher courses to ensure they are up to par with current evolutions in the mechanical engineering world. Apart from that, our staffs are exposed through carrying out extensive research on the internet and interacting with trainers of trainers.
We have incorporated the latest technology related services to keep us up to date with the latest mechanical engineering thesis topics. Our team is comprised of both Masters and Ph. Students pursuing their masters or Ph. Our qualified staffs pride themselves in numerous years of experience and knowledge gained from engaging students from all walks of life, and helping electrical engineering for final year student achieve his goals.
Students stand to not only get better grades from working with us, they are guaranteed of broadening their knowledge, and developing a different way of approaching various topics. Our qualified team interacts with students through live chat. This way they are able to identify their weaker points and work together to derive the best methods to improve them.
Our services are reasonably priced to ensure that students from all backgrounds are able to access them. We utilize high level plagiarism and error detective tools.
Students are, therefore, guaranteed plagiarism, spelling and grammatically error free work. Engineering Final Year Project Proposal. Mathematics with special reference to algebra, statistics, pde, and calculus.
They should be educated. There are some well established companies which prefer hiring part-time technicians or interns as they complete their education. In addition, they get a chance to inject fresh knowledge and skills to the company. Different companies have different working principles.
Many of them prefer training their employees according to their needs. Mechanical engineers can choose to major their studies in the following options. Having additional skills can be an added advantage especially to individuals working in the biotech or medical fields which happen to be quite regulated. Extensive innovation is involved in the engineering industry. Mechanical engineers contribute highly to development of new products to improve people lives.
In this case being creative forms an integral requirement for every mechanical engineer. They should be able to apply creativity in order to produce good quality and efficient products which are capable of meeting client cost targets, weight and space restrictions.
The development procedure requires critical thinking of ideas and trying them out through trial and error methods. Mechanical engineers can possess different skills to enable them to critically analyze technical components and think critically in order to come up with conclusive solutions. The objective of the project is to implement fast prototyping microfabrication techniques for the CC that can bridge the gap between lab prototyping and mass fabrication such as micromilling and hot embossing.
Dynamics of photon-driven lightsails for interstellar flight Supervisor: Andrew Higgins The term s to begin: Fall , Winter , Fall Brief description: The use of lasers to propel sails via direct photon pressure has the potential to achieve very high velocity spaceflight, greatly exceeding traditional chemical and electric propulsion sources, and enables the serious consideration of interstellar flight. However, the dynamics and stability of thin sails lightsails under intense laser illumination is an outstanding problem.
This project will examine the dynamics of very thin membranes both theoretically and experimentally. The response of a lightsail to perturbation will be analyzed both analytically and via computer simulation. Use of gasdynamic loading techniques shock tube will enable the same driving load to be applied in the laboratory, but without the use of megawatt-class lasers.
Experimental diagnostic techniques photonic doppler velocimetry, 3-D digital image correlation will be developed to study the lightsail dynamics that will eventually be applied to a laser-driven sail proof-of-concept facility. Student should have a strong interest in advanced space exploration concepts, with general background in physical optics, numerical simulation, and experimental techniques. Experience with photography and high-speed data acquisition would be helpful.
Dynamic soaring on a shock wave Supervisor: Dynamic soaring is a technique exploited by birds and sailplanes to increase their flight speed by exploiting differences in airspeed of different masses of air.
This project will explore this approach by examining dynamic soaring of a hypersonic glider on a shock wave. The use of the technique on shock waves that occur in interplanetary space coronal mass ejections, etc. Student should have a strong interest in advanced space exploration concepts and flight dynamics, with general background in numerical simulation. Completion of Mech Fluids 2 is required for the project.
Rapid transit within the solar system via directed energy: Directed energy in the form of a ground or space-based laser providing power to a spacecraft is a disruptive technology that could enable a number of rapid-transit missions in the solar system and interstellar precursor missions. This project will compare two different approaches for a spacecraft to utilize beamed laser power: These two concepts will be compared for a number of missions of interest, as defined by NASA: Student should have a strong interest in advanced space exploration concepts, with general background in physical optics and numerical simulation.
Prior exposure to spacecraft mission design e. Impact of dust grain on lightsails for interstellar flight Supervisor: Laser-driven lightsails are a promising technique for interstellar flight, however, sails will experience impacts of dust grains in the interplanetary and interstellar medium.
The impact of a sub-micron grain can deposit as much as 1 J of energy into the sail when travelling at speeds necessary for interstellar flight. This project will examine the subsequent dynamics of the sail and the damage incurred.
This problem will be modelled both analytically and numerically, and experiments will be performed in the lab with gas gun-launched particles onto candidate thin-film materials. Completion of Mech Mechanics of Deformable Solids is required for the project. Percolation model for detonation in a system of discrete energy sources Supervisor: Detonation waves propagating in combustible gas mixtures exhibit very complex dynamics, with transverse and longitudinal shock waves that sweep across the front.
This project will attempt to model this process by treating detonation as an ensemble of interacting blast waves. Approximate, analytic solutions of blast waves will be used to treat the problem. Results will be interpreted with the assistance of percolation theory, a branch of statistical physics. Results will also be compared to reactive Euler simulations using supercomputing resources. Strong coding skills language of your choice and awareness in advanced mathematics is of interest. Completion of Mech Fluids 2 is required for this project.
Interest in nonlinear physics and pattern formation in nature would provide helpful motivation for this project. Exposure to concepts in statistical physics Ad.
Thermo is also desirable. Pellet stream propulsion for interstellar flight Supervisor: A promising approach to deep space propulsion that may enable interstellar flight is pellet stream propulsion, wherein high velocity pellets with velocity exceeding that of the spacecraft are used to impart momentum onto a spacecraft. Such a pellet stream may be able to be collimated and focused over much greater distances than a laser beam, making it an attractive alternative to laser-driven directed energy.
This project will examine the ability of a charged particle to be steered and re-directed via a static magnetic field e. Student should have a strong interest in advanced space exploration concepts, with strong background in electromagnetism and physics. Interest in or familiarity with conventional, fundamental particle accelerators would be desirable.
Basic coding skills language of your choice and numerical simulation is required. Experience with basic electronics and microcontrollers Arduino, etc. Fall Brief description: Research on detonation Supervisor: John Lee The term s to begin: Details will be provided in person. Development of a method for waste recycling to useful composite materials Supervisor: A thesis is not required to earn a Master's degree in mechanical engineering from CU Boulder, but is recommended if you are interested in pursuing a career in research or academia.
As a student, you will choose from one of the following focus areas for your education and thesis:. If you plan to earn a Master's degree and then immediately continue on to a PhD, you can apply directly to our PhD program. It is not necessary to earn your Master's separately.
You must complete 30 graduate-level credits at the level or higher and obtain a minimum of a C 2. PhD students must receive a B- 2. You must maintain a 3.
Theses from PDF. Improving the Efficiency of Wind Farm Turbines using External Airfoils, Shujaut Bader, Mechanical Engineering. PDF. Evaluation Of Impedance Control On A Powered Hip Exoskeleton, Punith condoor, Mechanical Engineering. PDF.
The SB in Mechanical Engineering requires a thesis with a minimum of 6 units credit. The objective of this requirement is to give students an opportunity to learn about a topic in depth through independent study under the guidance of an advisor who is knowledgeable in the field.
The Honours Thesis research projects listed below are available only to McGill Mechanical Engineering Undergraduate students in the Honours program and registering in MECH courses. If you are interested in one of the thesis projects, please send an expression of interest to . Writing a thesis for mechanical engineering means you are going to explore the topic for your thesis in-depth. You are required to perform a few experiments too in order to test the significance of hypothesis/hypotheses for your mechanical engineering thesis.
Mechanical Engineering Theses and Dissertations. Follow. Jump to: Theses/Dissertations from PDF. Developing Motion Platform Dynamics for Studying Biomechanical Responses During Exercise for Human Spaceflight Applications, Kaitlin Lostroscio. PDF. Mechanical Engineering Theses and Dissertations. Follow. Theses/Dissertations from PDF. Techno-economic analysis of biochemicals and biofuels production via thermal and electrochemical processes, Denis Bbosa. PDF. Solvent liquefaction of waste materials, Joel Braden. PDF.