Mechanical engineering is one of the oldest branches of engineering, which is widely used in all parts of the world today, and plays a significant role in the development and advancement of knowledge and technology. The field of mechanical engineering activity is so extensive that not only cannot be found an industry that is not needed, but an important part of the development of all industries is due to the advances made in mechanical engineering.

On the other hand, with the rapid growth of science coupled with the amazing development of industry and technology in the world, the boundaries between engineering disciplines are diminishing and the areas of joint activity are rapidly expanding. On the one hand, this has led to many courses and trends in each of the engineering disciplines in other engineering fields, and on the other hand, it has created specialized fields called "interdisciplinary”.

The Faculty of Mechanical Engineering is one of the first faculties established at Urmia University of Technology, which was established in 2006 in the field of solid-state mechanical engineering in the field of mechanical engineering. The faculty took the first students in 2008 in fluids, and in the 2011 took mechanical engineering. Also, in the year 2012 in the aerospace field, students were admitted to undergraduate studies.


Mechanical engineering trends



BS in Mechanical Engineering

Definition and Scope:

The Bachelor of Mechanical Engineering is one of the higher education curricula aimed at improving the level of engineering knowledge of the country in the field of mechanics and education of talented individuals whose theoretical and practical knowledge is the level of universities and centers of advanced scientific and industrial world. During this period, graduates of mechanical engineering will be prepared to perform the tasks assigned to the implementation of industrial projects, including preliminary studies, preliminary design, design calculations with details, preparation of drawings and technical documentation, development of manufacturing technology and production methods, management and Implementation and maintenance with scientific and technical knowledge in all fields related to mechanical engineering and successfully carry out the process. Bachelor of Mechanical Engineering includes theoretical, laboratory, workshop and internship courses.


The length of the course and the form of the system:

The average length of this course is 4 years. The length of each semester is 16 weeks. Each theoretical course is for 16 hours and each laboratory course is for 32 hours and each workshop is for 48 hours during each semester.



The total number of units in this set is 142 units as follows:
   1- General lessons: 22 units
   2. Basic courses: 25 units
   3. Main courses: 61 units
   4. Specialized courses Required: 12 units
  5. Selected specialized courses: 15 units
6- Workshop, project and internship lessons: 7 units

Bachelor of Engineering in Aerospace

All-round development of the country and its sustainable development will not be possible without taking steps in the field of superior technologies such as aerospace, information technology, biotechnology and .... In this way, aerospace technology has two unique indicators, on the one hand, this technology can be the engine of other technologies and promote the comprehensive upgrade in many technologies, and on the other hand, its acquisition of modern technology and aerospace can be the manifestation of the authority of countries.


Aerospace engineering is a branch of engineering that designs airplanes, spacecraft, satellites and related issues, as well as designing high-tech systems such as low-cost vehicles and oil and gas equipment and production systems.



Aerospace Engineering is one of the most advanced engineering and engineering disciplines in the field of science and technology. The main topic of this field is to perform calculations for the analysis and design of moving objects in the air and space such as high-performance aircraft, helicopter, missile, spacecraft, etc. The aerospace engineering has many common lessons with mechanical engineering field, such as solid mechanics and fluid mechanics, and was formerly known as a mechanical engineering field. The foundation of these lessons is based on mathematics. However, there are many experimental sections in this field. This discipline includes five major trends: flight and control dynamics, aerodynamics, propulsion, aerospace structures, and space.


BS in Manufacturing



A discipline of engineering that requires education and experience to understand and apply engineering procedures in manufacturing processes and production practices in the industry, and requires planning talent in production processes to cover the tools, to do research about processes, and machinery and equipment to improve them, and will integrate the facilities and systems for the production of quality products and optimal cost. Therefore, it can be said that the field of production and manufacturing helps the field of applied mechanical engineering. Graduates of this course can continue their postgraduate and Ph.D. degrees internally or overseas.







welding workshop

According to available equipment, it is possible to teach welding methods on different metals for students in this workshop.

Equipment in workshop:

• Electric arc welding (GMAW)
• Argon welding (TIG)
• Oxyacetylene Welding
• Resistant welding (RSP)
• Welding chambers


Strength of Materials Laboratory:

Materials resistance is one of the major courses in mechanical engineering and civil engineering. In the Resistance Laboratory of the Department of Mechanical Engineering, Urmia University of Technology, students are familiar with the main topics of this lesson including tension, strain, twisting, impact, hardness and buckling. Some of the tests available in this lab include:

• Tensile test
• Height of symmetrical beams
• Asymmetrical beams
• Stress-strain tests
• truss
• buckling
• Hardness
• Elastic twist
• Plastic twist
• strike
• Strength coefficient of spring


Machine Dynamics Laboratory and Vibration:

Dynamic courses and vibrations are one of the main lessons of mechanical engineering students. The Dynamic and Vibration Laboratory aims to increase students' awareness and examine the concepts presented in the course, such as dynamics, machine dynamics, vibrations, etc. In this laboratory, students are taught in a practical way with speed, acceleration, relative analysis The components of the car and the forces involved and the swinging of the bodies become familiar.

The list of tests available in this laboratory, according to the available equipment, is as follows:
• Static and Dynamic Balance
• Gyroscope
• Vibration absorber
• Governor
• Whirling shaftapparatus
• vibrations of a degree of freedom
• Torsional vibrations
• Centrifugal force
• Crisis acceleration
• Free and compulsive vibration

Fluid Mechanics Laboratory:

In this lab, students are familiar with the principles and methods of working with some laboratory devices, the concept of the error of testing, the methods for reviewing and analyzing the results, and the principles and methods of working in the laboratory.

Perform experiments to understand the concepts and important contents of fluid mechanics lessons and to enhance the learning of practical tasks in determining the characteristics of fluids, such as pressure drop and their relation to flow, and the method of measuring flow and the conceptual learning of the basic equations governing fluids.

According to the available equipment, the list of tests available in this laboratory is as follows:

• Cavitation
• Vertex
• Centrifugal fan
• Water hammer
• Centrifugal pump
• Reynolds number
• Flow measurment
• Losses of the plumbing system
• Overflow
• Water jet
• Series and parallel pumps
• Press Center


M.S : 1. Energy Conversion 2. Applied Design 3. Mechatronics

Bachelor: Mechanics

PhD: Energy Transformation