Endüstri Mühendisliği 4

Endüstri Mühendisliği

What does an industrial Engineer do ?
Engineering engulfs a vast variety of fields and one cannot restrict themselves to any certain possibility. The world is progressing every minute and the trends are changing rapidly and so are the needs. In order to deal with the challenges Industrial engineering is becoming a dire need and so are the Industrial engineers.
So the question arises that What does an industrial engineer do? Well then, we’ll make sure you get all the points across. An industrial engineer mainly works for the improvement of the manufacturing process for his company. He/She has an idea in his/her mind to better utilise machines and employees, working on those machines. An industrial engineer is supposed to study reports related to process efficiency and try the best to enhance the efficiency percentage of the industry. Industrial Engineers keep control on safety measures, manufacturing speed and quality of products.
An Industrial Engineer works hard to find a way to eliminate or at least reduce the wastes produced as a result of production processes. And that is not yet the end; Industrial engineers also try and deduce such ways to integrate machines, materials and workers in order to produce a suitable outcome that can be a product or to simply provide with the efficient services.
Industrial engineers apply the rules of mathematics, the facts of science and the applications of engineering on some of the integrated and complex operations as well as the systems. The systems to deal with are so large and complex, that an Industrial engineer must have a strong grip on almost all of the related disciplines.
Material handling systems, dealing with the manufacturing and designing facilities are some of the highlighted tasks that an Industrial engineer must be able to perform one exposed to the field work.
Industrial engineers usually do the following:
• Review production schedules, engineering specifications, process flows, and other information to understand manufacturing and service methods and activities
• Figure out how to manufacture parts or products or deliver services with maximum efficiency
• Develop management control systems to make financial planning and cost analysis more efficient
• Enact quality control procedures to resolve production problems or minimize costs
• Work with customers and management to develop standards for design and production
• Design control systems to coordinate activities and production planning to ensure that products meet quality standards
• Confer with clients about product specifications, vendors about purchases, management personnel about manufacturing capabilities, and staff about the status of projects
Industrial engineers apply their skills to many different situations – from manufacturing to business administration. For example, they design systems for:
• Moving heavy parts within manufacturing plants
• Getting goods from a company to customers, including finding the most profitable places to locate manufacturing or processing plants
• Evaluating how well people do their jobs
• Paying workers
In all these different projects, industrial engineers focus on how to get the work done most efficiently, balancing many factors such as time, number of workers needed, actions workers need to take, achieving the end with no errors, technology that is available, workers’ safety, environmental concerns, and cost.
To find ways to reduce waste and improve performance, they first study product requirements carefully. Then they use mathematical methods and models to design manufacturing and information systems to meet those requirements most efficiently.
Hence balancing many factories, Industrial engineers focus on getting the work done in the most efficient way. Their duties also include managing the waste produced and improving the performance. This field of engineering is quite versatile and allows an Industrial engineer to serve its services not only in the factories but also in the businesses, government sectors and non-profit organizations. The number of possibilities only depends upon the engineer’s level of interest to engage in his work and utilize the skills he or she has learned so far.
Today, name any engineering field and there is most probability to find an industrial engineer there. Industrial Engineering related work can be found in any industry such as health care, manufacturing, technology and there sub fields.
The industries in which and Industrial engineer has the highest chance of getting hired are,
• Aerospace manufacturing of the parts.
• Motor vehicles products manufacturing.
• Management of the companies.
• Manufacturing of the machines.
• Engineering related services.
• Service engineer.

Industrial engineers can serve as a bridge towards a flourishing future if they join hands with the professionals and work head on.
Some of the projects upon which the industrial engineers working or have already worked on are mentioned below and they are only here to encourage you to play your part in the betterment of these projects.

• Conversion of an airplane production line to a lean manufacturing
• Performing motion studies at a candy company
• Reducing the length of waiting lines.
• Designing of admissions procedures at hospital.
• Prototypes development for cell phone car adapter.
• Development of a hardware protection for spacecraft.
• Quality assurance program for a national restaurant chain.
• Smart Packing With QR – Improving Cal Poly’s Parking System for All Users
• Multi-Axis Machining Project Development.
• Zero Waste Campus Dining.
• Mentoring of Management Database.
And we can go on and on with the list of projects but for now brainstorm on these ones and try to gather your knowledge around them and let us see if you can get yourself around.
How to Become an Industrial Engineer
Students interested in studying industrial engineering should take high school courses in mathematics (algebra, trigonometry, calculus), computer science, chemistry, and physics. Entry-level industrial engineering jobs require a bachelor’s degree. Employers also value experience, so cooperative-education engineering programs at universities are also valuable.
Bachelor’s degree programs typically are four-year programs and include lectures in classrooms and practice in laboratories. Courses include statistics, production systems planning, and manufacturing systems design, among others. Many colleges and universities offer cooperative-education programs in which students gain practical experience while completing their education.
Some colleges and universities offer five-year degree programs that lead to a bachelor’s and master’s degree upon completion. A graduate degree will allow an engineer to work as a professor at a university or to engage in research and development. Some five-year or even six-year cooperative-education plans combine classroom study with practical work, permitting students to gain experience and to finance part of their education. Programs in industrial engineering are accredited by ABET (formerly the Accreditation Board for Engineering and Technology).
Beginning industrial engineers usually work under the supervision of experienced engineers. In large companies, new engineers also may receive formal training in classes or seminars. As beginning engineers gain knowledge and experience, they move to more difficult projects with greater independence to develop designs, solve problems, and make decisions.
Eventually, industrial engineers may advance to become technical specialists, such as quality engineers or facility planners. In that role, they supervise a team of engineers and technicians. Many move into management positions because the work they do is closely related to the work of a manager.
What is the workplace of an Industrial Engineer like?
Depending on their tasks, industrial engineers work both in offices and in the settings they are trying to improve. For example, when observing problems, they may watch workers on a factory floor or staff in a hospital. When solving problems, they may be in an office at a computer looking at data that they or others have collected.
Industrial engineers often work on teams with other professionals and production staff. They may need to travel to observe processes and make assessments in various work settings. Most work full time.
Industrial engineers are earning quite handsome amount of money and we’ll let you see how and more precisely in what fields and nature.

• Star Pipe Products Industrial Engineer $65,406
• IM Flash Technologies Industrial Engineer $79,437
• Northrop Grumman Industrial Engineer $77,029
• American Express Industrial Engineer $56,450

Industrial Engineer Earnings by Seniority *
Top End Industrial Engineer Earnings
The highest earning Industrial Engineers in the United States earn: $61.02 an hour $126,920 per year
Senior Industrial Engineer Earnings
Senior Industrial Engineers in the United States earn: $49.85 an hour $103,680 per year
Experienced Industrial Engineer Earnings
Experienced Industrial Engineers in the United States earn: $40.13 an hour $83,470 per year
Junior Industrial Engineer Earnings
Junior Industrial Engineers in the United States earn: $32.06 an hour $66,680 per year
Starting Industrial Engineer Earnings
Starting Industrial Engineers in the United States earn: $25.63 an hour $53,300 per year
Approximate values based on highest and lowest earning segments.
Hence Industrial engineers are the back bone of the industrial era. The burden which they have to carry is huge and many of the successful industrial engineers are being quite honest with their jobs and doing their part for bringing the things in harmony for the generations to come.