8 Courses After Mechanical Engineering That You Can Do

Now that you are done with your mechanical engineering, there are plenty of specializations that you can choose to further arm yourself with educational concepts and refine your expertise. So, what courses after mechanical engineering can one pursue? With so much out there, picking the right one can be time-consuming and overwhelming at the same time.

However, here is a list of great courses that you can consider.

Piping Design Engineering

Pipes make an intrinsic part of most infrastructural constructions, as they convey fluids from one part of the structure to another. The specialized engineering course focused on pipe engineering is referred to as piping design engineering, which varies from one project to the other.

It involves a multi-disciplinary knowledge, even including fluid mechanics, mechanical engineering and others. It is a specialized course that adds an advantage to the engineer’s expertise and makes his/her vocation highly specific & niche-oriented, thereby raising the demand.

Scope:
  • Oil & Gas Industry
  • Water industry
  • Auto CAD (pipe designing)
  • Stress Analysis

Tool Design Engineering

Tool design engineering is a unique field where engineers create plans for conceptualizing new tools or enhancing the existing equipment or instruments.

A tool design engineer is a niche expert in tool creation and mainly engages in drawing blueprints & outlines, communicates with engineers as well as manufacturers to understand the brief of the tool required. and ultimately, to design it to achieve the mechanical objective. The engineer needs to be creative as well as analytical to succeed in this field.

Scope:
  • Tool and machine designer
  • Plastic technology
  • Engineering graphics
  • Metrology
  • Gauge designer
  • Product drafters
  • CAD operators

Robotics Engineering

In simple terms, a qualified and professional engineer who works on conceptualizing, designing and developing a robot of any kind is a robotics engineer and his or her expertise is classified as robotic engineering.

The main aim of robotics engineering is to simplify manual intervention in various sectors like manufacturing, healthcare etc. by creating industry-specific robots that can execute the specified tasks effectively and precisely.

In order to create a robot, the engineers need to be well aware of mechanical engineering, control systems, electrical & electronics engineering, kinematics & dynamics, and software engineering.

Scope:
  • Robotic Scientist
  • Robotic Engineer
  • Robotic Technician
  • Space Research
  • Banking Industry
  • Healthcare

 Mechatronics

When it comes to the best courses after mechanical engineering, Mechatronics is certainly one of them. It is a unique combination of mechanical engineering, electronics, control, computer and systems design engineering, which caters to the industrial demand of automation & process response.

In this course, the engineers are responsible to design and develop machineries that include diverse modulations in sensing & control systems, automation & robotics, artificial intelligence & expert systems, transportation & vehicular systems, and computer integrated manufacturing systems.

Scope:
  • Transportation and Vehicle Systems
  • Power Devices
  • Biomedical Systems
  • Medical Mechatronics systems
  • Consumer Products
  • Heavy Engineering and Manufacturing Systems
  • Energy Devices
  • Telecommunication and Data Communication Networks
  • Computer Aided and Integrated Manufacturing Devices and Systems
  • Computer Techniques in Medical, Bioimaging and Technology Systems
  • Computer-Aided Design

Nanotechnology Engineering

A nanometer is the unit of measurement, which is equal to 10-9 m. Nanotechnology engineering, in a nutshell, is the practice of engineering executed at the nano level or nanoscale.

Since this form of engineering deals with the smallest elements of everything in existence, it can be used to help create new objects using the basic nature of cells or molecules or enhance the existing elements in natural as well as the artificial world for the betterment of mankind.

Such engineering is usually deployed in healthcare and food processing as nanotechnology engineers break down the complex system to nano units and enhance the processes to ensure their efficacy right from the beginning.

The engineers in this field have to be equipped with analytical skills, research ability, attention to detail, and sound mathematical skills with problem-solving abilities.

Scope:
  • Healthcare
  • Food & Beverage
  • Agriculture
  • Bio-Technology
  • Space Research
  • Genetics
  • Ecological Studies

Thermal Engineering

This is a highly specialized niche of mechanical engineering that focuses on the fundamentals of heat energy, its generation, and primarily, transfer between different mediums as well its transition into other forms of energy that can be leveraged for industrial growth.

A thermal engineer is trained to design and develop machines & systems that can sustain as well as convert energies from various sources and convert them into more easily deployed chemical, mechanical or electrical energy.

The entire segment heavily relies on the transfer of this heat energy from one form to another.

Scope:
  • Electronics industry
  • Energy generating plants
  • Renewable energy sector
  • Cryogenics
  • Hydel Plants
  • Nuclear Plants

Marine Engineering

Marine engineering is a diversified field of engineering that primarily works on design, development, manufacturing, and maintenance of sea-related equipment, ships, boats, and other vessels.

A marine engineer is responsible for the smooth and quick execution of these developed elements and deploys knowledge of mechanical engineering, water management etc.

Scope:
  • Naval Services
  • Private Shipping Organizations
  • Logistics
  • Renewable Energy Resource Sector
  • Oil & Gas Industry

Automobile Engineering

As the name suggests, automotive engineering is a branch of engineering that deals with design, conceptualization, development, manufacturing and innovation of new vehicles.

The engineers are supposed to be well versed with the knowledge of mechanical engineering, electrical engineering, and material science. They can design and innovate the engines, integrate a new technology, vehicle mechanism, and much more.

Scope:
  • Private transport organizations
  • Defense Industry
  • Government projects

So, these are a few lucrative courses that mechanical engineers can undertake to refine their career specifications further. These courses will help engineers attain the niche status, which will amplify their career growth and the earning prospects.

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