About
Industrial engineering is the branch of engineering that involves figuring out how to make or do things better. Industrial engineers are concerned with reducing production costs, increasing efficiency, improving the quality of products and services, ensuring worker health and safety, protecting the environment and complying with government regulations.
They "work to eliminate waste of time, money, materials, energy and other commodities," according to the Institute of Industrial Engineers. For example, industrial engineers may work to streamline an operating room, shorten a roller-coaster line, make assembly lines safer and more efficient, and speed up the delivery of goods.
Career
Industrial engineers can expect job growth of about 1% from 2014-2024, slower than the average rate of growth expected of all occupations, according to the U.S. Bureau of Labor Statistics (BLS). The BLS published in May 2015 that the median annual salary among industrial engineers was $83,470; engineers working in Alaska, California, and Wyoming earned more money than their counterparts in other states.
Job Prospects
Industrial engineers are involved in all stages of production and processing. They may design new facilities from the ground up, or they may be responsible for upgrading, expanding or reconfiguring existing facilities. They may be required to design new equipment or write specifications for equipment purchased from outside vendors and ensure that it meets those requirements. They may also need to repurpose existing facilities and equipment, design new processes, and design new tools and fixtures.
In order to maintain these standards, industrial engineers must have a basic working knowledge of many areas of engineering and also be familiar with work processes, equipment, tools and materials in order to design facilities, systems and equipment that meet requirements for cost, quality, safety and environmental protection.
More and more, industrial engineers rely on computer-aided design (CAD) systems to design facilities and equipment. They also use computer modeling to simulate process flows and supply chains in order to maximize efficiency and minimize costs. A comprehensive list of necessary skills and abilities for industrial engineers can be found at My Majors.com.
Remuneration
Most industrial engineer jobs require at least a bachelor's degree in engineering. Many employers, particularly those that offer engineering consulting services, also require certification as a professional engineer (PE). A master's degree is often required for promotion to management, and ongoing education and training are needed to keep up with advances in technology, materials, computer hardware and software, and government regulations. Additionally, many industrial engineers belong to the Institute of Industrial Engineers (IIE).
According to Salary.com, as of October 2014, the salary range for a newly graduated industrial engineer with a bachelor's degree is $49,636 to $70,852. The range for a midlevel engineer with a master's degree and five to 10 years of experience is $69,849 to $106,304, and the range for a senior engineer with a master's or doctorate and more than 15 years of experience is $89,587 to $131,045. Many experienced engineers with advanced degrees are promoted to management positions or start their own businesses, where they can earn even more.
Course Structure
Part-I
Subject Code | Subject Name | Download |
1.1 10001 | ENGINEERING MATHEMATICS |
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1.2 10002 | APPLIED PHYSICS |
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1.3 10003 | APPLIED CHEMISTRY |
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1.4 10004 | COMMUNICATION SKILL |
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1.5 10005 | ENGINEERING DRAWING |
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1.6 10006 | COMPUTER FUNDAMENTAL |
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1.7 10007 | TIME MANAGEMENT |
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1.8 10008 | MANUFACTURING PROCESS |
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1.9 10009 | ENGINEERING MECHANICS |
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Part-II
Subject Code | Subject Name | Download |
2.1 30251 | STRENGTH OF MATERIALS |
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2.2 30252 | FLUID MECHANICS |
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2.3 30253 | MATERIAL SCIENCE & ENGINEERING |
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2.4 30254 | WORKSHOP TECHNOLOGY |
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2.5 30255 | ENVIRONMENTAL ENGINEERING |
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2.6 30256 | METROLOGY |
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2.7 30257 | TECHNICAL ENGINEERING DRAWING |
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2.8 30263 | THEORY OF MACHINES |
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2.9 30264 | THEORY OF ELECTRICAL ENGINEERING |
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2.10 30265 | FLUID POWER & TRIBLOGY |
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2.11 30266 | INDUSTRIAL ECONOMY & MANAGEMENT |
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2.12 30267 | AUTOMOBILE ENGINEERING |
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2.13 30268 | MANUFACTURING TECHNOLOGY |
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2.14 30269 | INTERNAL COMBUSTION ENGINE |
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2.15 30270 | CNC MACHINE |
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2.16 30271 | REFRIGERATION & AIR CONDITIONING |
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2.17 30272 | POWER PLANT ENGINEERING |
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2.18 30273 | THERMAL ENGINEERING |
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Project Work
Candidates are required to submit a Referee / Project Report to complete the requirement of the Technician Membership Examination(TMIIE-DIPIIE-DMIIE).
A candidate of Technician Membership Examination(TMIIE-DIPIIE-DMIIE) can take up submission of his report only after he has obtained a pass in Part-I of TMIIE-DIPIIE-DMIIE Examination and only after he/she has appeared and obtained 40% marks in at least 5 subjects of Part-I of TMIIE-DIPIIE-DMIIE Examination.
Project Report / Referee Report
Each candidate appearing for Technician Membership Examination under the scheme of examination as approved by Govt. of India, is required to submit the Project Report in bound volumes.
Project Report detailed requirements and Project Report applications form is given in Institution website .The Project Report Application should be submitted with a fee.
Final pass Certificate will be issued only after Project Report is approved. Candidate is also required to pay certification fee and submit experience certificate for minimum period of 3½ years on employer’s letterhead.
Model Format for submission of Refree/ project report for TMIE-DIPIIE-DMIIE Examinations .
Note: Academic Member needs to undertake Six months practical training from A.I.C.T.E or applicable Polytechnic/College.