Future Of Mechanical Engineering In Canada

So, if you want to know anything about engineering jobs in Canada, you have come to the right place. In this article, we cover all the stuff related to the future of mechanical engineering in Canada.

Mechanical engineering is a broad field that encompasses everything from civil and aerospace engineering to manufacturing, robotics, and biomedical engineering. With the right education, you can explore this wide variety of disciplines. Universities in Canada have been offering programs and degrees in mechanical and mechatronics engineering for more than 25 years and we recently unveiled our state-of-the-art Engineering Complex which provides the space, technologies and facilities needed by today’s students and tomorrow’s innovators.

The truth is, Mechanical engineers can work in almost any engineering industry, so there are many mechanical engineering job opportunities in Canada. These engineers can work in industries as diverse as biotechnology, construction, or energy. Mechanical engineers bring home a median salary of $79,996 a year. Do you want to learn about the latest findings which engineering is best for future in Canada ? Get ready! Find out all the information you need right here on Collegelearners.com so you don’t have to go looking again. Find all the specifics you need, such as future scope of mechanical engineering in Canada, are mechanical engineers in demand in Canada to does mechanical engineering have a future

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Future Of Mechanical Engineering In Canada

The versatility of this field has historically lead to rich job prospects for mechanical engineers, and the same seems to hold true for the future. Employment for mechanical engineers is expected to grow at 4% annually between 2018 and 2028, according to the U.S. Bureau of Labor Statistics. They do, however, also mention that this rate will most likely favor those who stay abreast with the latest technological advances. 

While core mechanical engineering principles, such as thermodynamics, fluid mechanics, and machine design are still valid, expertise in composites, mechatronics, and nanotechnology are in increasingly high demand. 

What is the future Scope Of Mechanical Engineering In Canada

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These new subject areas, which are the result of modern advancements, are prerequisites for several emerging and promising fields, including artificial intelligence, biomechatronics, and nanotechnology. Some of the areas where mechanical engineers are expected to be in high demand include:

Electric Vehicles

The transportation sector continues to generate the largest share of greenhouse gas emissions in the United States. Mounting pressures to use alternative sources of energy has helped to fuel the rise of electric vehicles. While mechanical engineers have always been essential in the automotive industry, their role is crucial now more than ever. 

Replacement of the traditional internal combustion engine with cleaner, battery-powered systems brings new challenges regarding torque and energy loss, and the design of mechatronics to support new electrical systems.

Furthermore, as vehicle manufacturing becomes more automated, mechanical engineers will be front and center in the design of robotics and assembly lines.

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Nanoengineering

Nanotechnology refers to the manipulation of materials at the smallest level. This rapidly growing field is one that offers abundant opportunities for mechanical engineers. 

In the years ahead, mechanical engineers are expected to be integral in using nanotechnology to:

  • Create stronger composite materials
  • Develop superior renewable energy storage systems
  • Create advanced biomedical devices

Biomechatronics

The role of mechanical engineers in robotics is taken a step even further with the rapid growth of biomechatronics. This field, which seeks to merge body and machine, involves the design and testing of complex and intricate device architectures that mimic the body’s musculoskeletal design. 

Mechanical engineers will be primarily involved in the design of mechanical sensors, controllers, and actuators for biomedical devices used in prosthetics and miniature medical implants. In addition to the medical field, research is also being carried out on the use of biomechatronics in the military industry.  

Manufacturing

Manufacturing is an ever-evolving field. Mounting pressures to increase production efficiency while minimizing operating costs have fueled demand for new and innovative technologies.

Automation and robotics (an area in which mechanical engineers are crucial) continue to be essential in helping manufacturing industries keep up with consumer demand while maximizing profit. 

Top Ten Universities for Mechanical Engineering in Canada | NewEngineer.com

However, according to Huffington Post, despite the exponential growth of the manufacturing industry, many U.S. manufacturers are finding difficulty filling vacant positions for skilled workers, engineers included. This industry is therefore ripe with opportunities for professionals with mechanical engineering degrees. 

While new technologies have no doubt changed the engineering landscape, the future looks bright for the mechanical engineering industry. New fields of study and subject areas will favor engineering graduates. Practicing professionals, however, will need to keep up-to-date with current and future advancements to avoid being left behind. 

Mechanical engineering in the automotive industry: The electric car effect

Cars are complex products, with numerous components carefully designed and tested by mechanical engineers before ever even entering production. However, the rise of electric vehicles (EVs) – with their much simpler internal layouts – could significantly alter what mechanical engineers contribute to cars and trucks.

The biggest change is probably the succession of internal combustion engines by cleaner battery-based power systems. This shift is considerable, but it should not be read as the elimination of the bulk of all mechanical engineering tasks for typical automobiles. Anticipating the rise of EV back in 2012, the American Society of Mechanical Engineers (ASME) highlighted the many challenges requiring specific attention from engineers, including:

  • The need to replace various composites, plastics and aluminum alloys with sheet-metal steel, which is essential to the torque of an electric motor and minimizing the overall loss of its energy as heat.
  • The increased demand for lithium-ion (Li-ion) batteries. Navigant Research estimated the market for vehicle-specific Li-ions at $7.8 billion in 2015 and projected it would reach $30.6 billion in 2024.
  • The development of rugged mechatronics hardware to accompany AC/DC inverters and high-amperage/voltage motor controls. These pieces of equipment have to withstand constant vibrations as well as wide variances in temperature.
  • The design, testing and installation of the different infrastructures supporting EVs. For example, mechanical engineers may contribute to the roadside charging stations necessary for recharging an EV on the go.

Plus, mechanical engineers will continue to focus on specific components like the drivetrains, transmissions and steering controls of EVs. Such parts are carryovers from traditional auto manufacturing, along with others including brakes, suspension and heating/cooling systems. Even with the looming decrease in importance of the gas-powered engine, there is still more than enough work for mechanical engineers to perform in ensuring the efficiency, safety and cost-effectiveness of mass-produced EVs.

Mechanical Engineering students

As car manufacturing becomes more automated, mechanical engineers will also be front and center in the creation of the robots and other machines that drive automotive assembly lines. Automakers are already among the largest purchasers of specialty robots, which are the work of mechanical engineers.

Automotive-related mechanical engineering does not always resemble the classic conceptions of engineering as strictly the art of designing parts, either. Engineers do not merely pore over the specifications of an engine or wiring; they also assist in the selection and application of materials during manufacturing. More specifically, engineers will apply their knowledge of fluid mechanics and tribology (i.e., the study of how surfaces react in relative motion) in determining the ideal combination of material and design in a component such as a hood cover or a taillight on an EV.

Nanotechnology: The other next big frontier for mechanical engineers

In addition to automotive, automation and robotics, the BLS forecast for mechanical engineers also highlighted the rich prospects ahead in nanotechnology. There is considerable overlap between nanoengineering and mechanical engineering, as the ASME itself has noted.

Nanotechnology pertains to the manipulation of materials at the smallest levels. Almost a decade ago, ASME convened a summit to set a vision for the next 20 years of mechanical engineering. That outlook included a starring role for nanotech as a facilitator of “technologies that foster a cleaner, healthier, safer and sustainable global environment.”

Many of the nanotech projects mechanical engineers will work on in the years ahead will resemble their efforts in other areas (such as automotive manufacturing), only on a much smaller scale. The possibilities include:

  • Stronger composites: EVs and consumer electronics will benefit from the development of new materials that are both lighter and stronger than current mainstays such as carbon fiber. Graphene is one of the best known of these substances; it was recently engineered to filter whiskey into completely clear liquid.
  • Superior energy storage infrastructures: Mechanical engineers are essential to the success of the growing renewable power sector. For instance, they can harness nanomaterials, like enhanced cathode materials, to create more efficient batteries and photovoltaic cells for storing excess solar energy.
  • Biomedical devices: Nanotechnology could be a game-changer in medicine, thanks to its applications in the targeted diagnosis and treatment of many common conditions such as certain cancers. According to BCC Research, nanomedicine could become a $528 billion market by 2019, up from $214 billion in 2013.

Overall, nanotechnology could be integral to the future of almost every commercial and industrial sector, provided it is implemented via durable sensors and supported by sustainable manufacturing processes. Mechanical engineers will be responsible for ensuring both of these conditions are met.

salary of mechanical engineer in canada

Average Mechanical Engineer’s Salary in Canada

The table below details the hourly wages for Mechanical Engineers.

The Canadian national occupation classification code (NOC) for this role is 2132.

Job titles and exact duties vary in this occupation and examples of some job titles are: mechanical engineer, automotive engineer, refrigeration engineer and fluid mechanics engineer.

According to the latest figures, the highest hourly average (median) wages are earned in Halifax – Nova Scotiaa at $42.00 per hour and the lowest average (median) wages are earned in Saskatoon / Biggar – Saskatchewan and Prince Edward Island at $31.25 per hour.

A typical full-time annual salary for this occupation is in the region of $70,000 – $100,000.

Employment prospects are very good for this profession. The government forecasts that there will be a shortage of workers in this profession for the near future.

Average Hourly (Median) Wages for Mechanical Engineers in Canada

LocationLow Wage
$ per hr
Average Wage
$ per hr
High Wage
$ per hr
Year
Calgary – Alberta*36.0640.8768.992019
Edmonton – Alberta*30.0035.87101.542019
Vancouver / Lower Mainland – British Columbia20.5136.0654.002018
Winnipeg – Manitoba23.0032.0362.502018
Fredericton / Oromocto – New Brunswick(1)29.0637.6949.692018
Halifax – Nova Scotia35.0042.0076.922018
Toronto – Ontario24.0438.4646.152018
Ottawa – Ontario19.2336.0658.242018
Windsor / Sarnia – Ontario23.0039.3457.692018
Kitchener / Waterloo / Barrie – Ontario20.6538.4665.002018
Prince Edward Island20.0031.2553.332018
Montreal – Quebec26.4439.4252.002018
Saskatoon / Biggar – Saskatchewan22.4031.2576.922018

what are the job opportunities for mechanical engineers in canada

Mechanical Engineering Jobs in canada for freshers

Are you interested in a career in engineering? This field is in high demand in Canada, so there are plenty of job opportunities. Engineering is a broad field, and there are many different types of engineers.

Learning about engineering job opportunities can help you decide which type of engineering is most interesting to you. Here are seven engineering job opportunities in Canada to consider.

1. Aerospace Engineer

Aerospace engineers design aircraft, satellites, missiles, and even spacecraft. While few of the big aerospace manufacturers are in Canada, there are plenty of aerospace engineering job opportunities in Canada.

There’s an extensive supply chain to provide parts for the big manufacturers. That means there are many small companies in Canada that need aerospace engineers. Aerospace engineering is ranked one of the best jobs in Canada by Canadian Business. Aerospace engineers earn a median salary of $89,003 a year.

2. Mechanical Engineer

Mechanical engineering is a broad sector. As a mechanical engineer, you’ll get to develop, build, and test a variety of mechanical devices. These devices include tools, engines, and machines. Mechanical engineers can work in almost any engineering industry, so there are many mechanical engineering job opportunities in Canada. These engineers can work in industries as diverse as biotechnology, construction, or energy. Mechanical engineers bring home a median salary of $79,996 a year.

3. Petroleum Engineer

Are you interested in the oil and gas industry? You may be interested in petroleum engineering job opportunities in Canada. Petroleum engineers develop new ways for oil companies to extract oil and gas from the Earth. While the recent oil downturn was hard on petroleum engineers, this field still made Canadian Business’s list of the top 100 jobs in Canada. As a petroleum engineer, you could earn a median salary of $104,000 a year.

4. Software Engineer

If you love computers, consider becoming a software engineer. This is one of the most sought-after careers in engineering. Software engineers are responsible for writing, editing, and testing computer programs. They ensure the programs they create continue to function properly through ongoing maintenance.

Since nearly every modern business needs computers, software engineers’ skills are in demand. These engineers earn a median salary of $90,001 a year.

5. Electrical Engineer

If you’ve always been fascinated by the power of electricity, a career as an electrical engineer may be right up your alley. Electrical engineers design, develop, and test electrical equipment.

Since much of today’s technology uses electricity, these engineers have essential expertise and can work on many interesting projects. Everything from satellites to computers to wireless networks requires the knowledge of electrical engineers. These engineers earn a median salary of $64,480 a year.

6. Chemical Engineer

Chemical engineers use chemistry to solve problems. These problems can involve the production and use of a wide variety of products, ranging from food to drugs to fuel. For example, they could develop safety procedures that will be used by people working with dangerous chemicals. Chemical engineers can specialize further and focus on fields like nanomaterials or oxidation. With their specialized skills, they earn a median salary of $85,009 a year.

7. Civil Engineer

Have you always been interested in bridges, dams, and other feats of engineering? As a civil engineer, you can design and build these types of infrastructure projects. Civil engineers are also involved with operating and maintaining these structures. They have to study how environmental factors, like the weather, will affect their structures. They also have to make sure the structures meet safety standards. For their efforts, they earn a median salary of $80,080 a year.

What is Mechanical Engineering and Why is it Important? | GCU Blogs

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