Technology of metal forming | Third Year | 0402314 Metal Forming Technology (3 credits) (Prerequisite: Engineering Materials Science) <br> It aims to introduce the student to the orthogonal methods used in forming metals and plates and to analyze stresses during these operations, and includes topics in compression formation such as automatic and manual forging, wire drawing and engineering sections, the use of extrusion in formation, rolling of all kinds, cutting and bending of plates, deep drawing of sheets and forming by methods Unconventional high-energy, such as the use of explosives in cutting and forming. In addition to practical topics in studying the susceptibility to cross-sectional materials and their relationship to their mechanical properties. |
Technology of metal cutting | Third Year | 0402312 Metal Cutting Technology (3 credits) (Prerequisite: Advanced Engineering Workshops) <br> The course aims to introduce the student to the various production processes and includes topics in the different production processes: the basics and conditions for metal cutting. Influence of speed, feeding, corrosion and vibrations on metal cutting operations. Properties of materials and shapes of cutting tools. Coolant fluids. The economics of cutting operations. Cutting various metals such as turning, sorting, drilling, grinding, and abrasion. Modern methods and methods of cutting metals and unconventional methods |
Engineering polymers | Third Year | 0402368 Engineering Polymers (3 credits) (Prerequisite: Engineering Materials Science) <br>This course aims to introduce the student to the engineering of polymeric materials and the relationship of their properties to operational conditions and includes the following topics, the exact chemical and physical structure of polymers, mechanical properties including theories of breakage and damage and the destructive and non-destructive examinations of these materials, engineering applications and the process of preparing these materials in engineering fields including materials The vehicle. |
Composite materials | Fourth Year | 0402462 Composite Materials and Manufacturing Operations (3 credit hours) (Prerequisite: Engineering Materials Science + Engineering Polymers) <br>Study of composite materials and their basic components, fiberglass and industrial material, manufacturing processes, principles of mixing composite materials, production of composite materials and methods of examination |
Ceramic and engineering materials | Second Year | 0402263 Engineering Materials and Ceramics (3 credit hours) (Prerequisite: Engineering Materials Science) <br>Carbon and iron alloys, carbon steel, alloy steel, aluminum alloys, stainless steel, copper and its alloys, iron alloys, number alloys, titanium and its alloys, nickel and cobalt alloys, magnesium and zinc, surface hardening and surface change of metals, ceramic materials and their properties |
Design of jigs ,fixtures, and molds. | Fifth Year | 0402562 Molds, guides and arrangements (3 credit hours) (Prerequisite: Mechanical Design (1)) <br>This article contains the following topics: Freedoms of metal materials in custom molds: bending, punching, pulling, deep drawing operations, extrusion and other production processes. Studying the design factors affecting obtaining their qualitative characteristics, the product diminishing the special origin in molds |
Product design | Fourth Year | 0402415 Product Design (3 credits) (Prerequisite: Mechanical Design (1)) <br>This course aims to introduce the student to the steps of developing and designing the industrial product and includes the following topics: the need and requirements of the product, public safety, reliability and ease of maintenance, the process of selecting these materials and their manufacturing methods and applications in engineering fields, their conformity with specifications and economics from the cost of production, design and marketing. |
Measurement systems and devices | Third Year | The course aims to introduce the student to the principles of measuring the different physical quantities and requirements of measurement systems, and it includes: topics in: definitions of measurement devices and their types, linear and angular measurements of both displacement, speed, acceleration, force and torque measurements, power, pressure, temperature, flow, height, various electrical measurements, accuracy, reference, and calibration, The use of optical interference in measuring flatness, surface properties, measuring dimensions and angles using (Slip gauges) and accessories, using mechanical, optical and electrical comparison devices, measuring emotion by different methods |
Design of industrial facilities | First Year | |
Design of jigs ,fixtures, and molds. | Fifth Year | 0402562 Molds, guides and arrangements (3 credit hours) (Prerequisite: Mechanical Design (1)) <br>This article contains the following topics: Freedoms of metal materials in custom molds: bending, punching, pulling, deep drawing operations, extrusion and other production processes. Studying the design factors affecting obtaining their qualitative characteristics, the product diminishing the special origin in molds |
Analysis and design of industrial systems | First Year | |
Manufacturing processes and product planning | First Year | |
Management of industrial projects | First Year | |
engineering drawing | First Year | 0403198 Engineering drawing (2 credit hours) (Prerequisite: None) <br>This course aims to enable the student to read the completion of engineering plans, and includes the introduction to drawing tools. Draw basic 2D objects, such as: lines, circles, tangents, and polygons. Geometric line training. Measurement of its various types, such as: linear, circular, and central measurement ... Etc., the orthogonal projection of basic objects such as: the cube and the sphere, in addition to the composite objects subtracting, merging, or intersecting. Sections and tilting materials. Three-dimensional representation of objects such as the isometry, drawing polyurons. The conclusion conclusion. Drawing orthogonal and diagonal projections for points, lines and levels. The intersection of lines, levels and objects. Solve engineering problems by means of orthogonal and oblique projection of lines, basic objects, and complex objects. Draw parabolic, rotational, and parabolic objects. Straightening objects like a cube and a cone. |
Machine drawing | Second Year | 0402218 Machine drawing (2 credit hours) (Prerequisite: Computer engineering drawing) <br> This course aims to provide the student with a review of the various engineering drawing processes and methods, and also includes engineering sections and setting dimensions on engineering drawing, technical terms and abbreviations, detailed drawing and group drawing, traditional representation of some mechanical, Tolerances, limits & fits), and types of stabilizers: It includes bolts, wedges, gaskets, spirals, springs, and weld seam joints. |
materials science and engineering | First Year | |
workshops ,training ,graduate projects ,masters theisis | First Year | |
joining and casting | Fourth Year | 0402461 (3 credit hours) (Prerequisite: Advanced Engineering Workshops + Engineering Materials Science) <br> This course aims to introduce the student to the basic detailed information of advanced welding and plumbing operations. It includes: welding classifications and standard specifications, heat treatment, different plumbing methods and their properties. |
safety of industrial systems | Fourth Year | |