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Course No
رقم المساق
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Course Name
اسم المساق
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Credit hours
الساعات المعتمدة
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Course Description
وصف المساق
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| 3254 |
Computerized Design Lab 1 |
2 |
This course is designed to provide the fundamental concepts of Computer Aided Design (CAD) and their principles. Students will able to incorporate hands-on experience using CAD software related with drafting, modelling, assembling activities and additive manufacturing. Furthermore, students will utilize the CAD knowledge to complete a simple as well as complex design/manufacturing project throughout the course. |
| 3255 |
Computerized Design Lab 2 |
2 |
The second section of the CAD/CAM lab is intended for CAD/CAM programming on CNC machining using multi-axis contouring utilizing wireframe, splines, surface, and solid modeling. Rough, finish and high-speed machining. Editing, post-processing and verification of completed programs. |
| 3256 |
Computerized Manufacturing Workshop |
2 |
The objective of this course is to introduce students to the fundamentals of computer-aided manufacturing (CAM). The course teaches students how to interpret the coding system for the mechanisms. In addition to being able to write commands for computerized numerical control mechanisms (CNC), the individual must also be able to operate the CNC. In this course, computerized digital control mechanisms are utilized to implement three-dimensional designs. By completing this course, the student will be able to acquire training in the hands-on use of computer technology in various manufacturing processes. |
| 3257 |
|
3 |
This course focuses on the fabrication of metal components, highlighting the selection of processing options and parameters based on material properties and part design. Students will also examine other essential metals processing methods including casting, machining, and additive manufacturing. Students will examine processes by employing some of the key equations that control product quality, process rate, and manufacturing energy intensity. Students will also be able to investigate metal production, end-of-life possibilities, and emerging paradigms in eco-sustainable metals processing. |
| 3258 |
|
1 |
The metalworking lab teaches students the fundamentals of various metals and welding procedures. A study of metal construction and fabrication procedures. Students will learn how to handle and operate embossing tools, soldering guns, propane torch welding, and other metals and equipment in this course. It also covers the basis of the classical lathe and metal cutting processes. The course focuses on building confidence in the use of metalworking tools. |
| 3259 |
|
2 |
The objective of this course is to familiarize students with the fundamentals of joining artifacts produced by various welding processes, such as electric arc welding, metal arc welding with inert gas protection (MIG), electric arc welding using tungsten (TIG), oxystylene welding, and electrical resistance welding. in addition to identifying the varieties of welding defects. And, the causes of haddock and methods for detecting and avoiding them. |
| 3260 |
|
1 |
The course aims to provide students with the skills necessary for welding metals and evaluate the quality of joining operations. In addition to introducing students to the safety controls used during welding. |
| 3261 |
|
2 |
This course is intended to provide students with fundamental knowledge on polymers and plastics, degree of polymerizations, types of polymer and copolymers and their classification, polymer additives, glass transition, melting transition and polymerization methods. Polymer characterization, which includes solubility and swelling, the concept of average molecular weight, the determination of number average, weight average, viscosity average, and Z-average molecular weights and polymer crystallinity. Polymer characterization techniques including IR, XRD, thermal (DSC, DMTA, TGA), and microscopic (optical and electronic) techniques. Preparation and properties commercially important polymers, their preparation methods, properties and applications. |
| 3262 |
|
1 |
This course is designed to provide the background for an understanding of the wide field of polymer processing, and provide a strong foundation including fundamentals and applications of polymer processing. Topics include: fundamentals of extrusion, die forming, mixing, injection molding, and other common plastics processes such as fiber spinning, blow molding, rotational molding, coating, etc. The students will be introduced to extrusion processes including solid conveying, melting, metering, screw types and design. Die Forming, capillary flow, sheet forming and film casting. Injection molding, injection molding cycle and injection molding machine.
Students will learn about the plastics manufacturing processes of twin screw extrusion, film extrusion, tube extrusion, and injection molding process monitoring in this laboratory. Experiments are meant to help students grasp the theory of polymer conversion processes through the interaction of process factors and material properties.
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| 3263 |
|
2 |
The course is designed to educate students with the concept of recycling and its significance in our daily lives, sustainability in using the smallest amount of materials required for manufacturing for the longest period possible, preservation of natural resources, plans, mechanisms, and tools required, and the best preparation for sustainable recycling. |
| 3264 |
Health Administration and Occupational Safety |
2 |
This course is an introductory identifying appropriate procedures to minimize or eliminate injuries and illness in the workplace, incorporate job safety analysis (JSA) and appropriate training, and name elements of an effective safety culture. |
| 3265 |
|
2 |
This course presents theprinciples and techniques of managing engineering projects from the initiation phase, throughplanning, execution, control and closeout. Students will develop the analytical skills andawareness necessary on the management side of engineering projects. Topics include projectinitiation, estimating, budgeting, developing work plans, scheduling, tracking work, resourceallocation, project coordination, quality management, leadership, managing teams, conflict,negotiations, ethics, and professional responsibility and close out. |
| 3266 |
Management and Control of Quality |
2 |
The course includes study of topics related to quality management approaches, design and implementation of quality-related procedures, and related technologies. The focus of the course is on enhancing goods, services, and the business environment. |
| 3267 |
|
2 |
The subject has a laboratory with practices that deal with process automation and robotics. There are different elements reviewed such as programmable PLCs, HMI systems, identification systems,quality control systems, robots and integration in an automated system, by means of a scale copy ofa typical automatic production system. |
| 3268 |
|
1 |
The course's objective is to demonstrate to students the fundamentals of digital control and how to apply various automatic control operations, including automating manual tasks, recognizing the various kinds of sensors and actuators used in automatic control, recognizing the processors used in automatic control systems, evaluating control system performance, and integrating them with smart phones. |
| 3269 |
|
3 |
Students will learn about clean manufacturing practices, clean manufacturing strategies, reducing environmental risks associated with various manufacturing processes, enhancing production quality, lowering pollution rates, manufacturing techniques and tools, minimizing emissions from manufacturing processes, and protecting natural resources in this course. Along with defining the term sustainable design in relation to the production of goods and services, business and innovation strategies, sustainable design principles, aspects, and the idea of concurrent engineering, product design, process design, ecological design, and environmentally friendly products. |
| 3270 |
|
3 |
The course aims to allow students to practice the numerous manufacturing and industrial processes available in local workshops and factories, under proper monitoring and follow-up by the university, in collaboration with local institutions, integrating it into the market, and providing additional skills that may not be available in the University workshops. |
| 3271 |
|
3 |
This course aims to train students in an institution connected to their expertise in a set of fundamental engineering skills such as industrial safety, technical and commercial terminology, administrative relations, drawing and planning and protective measures. In addition to the ability to adhere to and regulate time, as well as deal with people while being technically supervised and directed by the university and the institution. |
| 3272 |
Project |
2 |
The graduation project, which is a required for students who are expected to graduate, aims to provide the student with an academic setting in which he can expand his understanding of various aspects of his field of study in order to add a practical dimension to his experience. |
| 3273 |
|
2 |
Students will leave this course with a comprehensive and basic grasp of the principles of the lathe in use, knowledge of developing patterns and associated ideas, and a basic understanding of the joining process. |
| 3274 |
Mechanical Measurements/Practical |
1 |
This Course provides a simple understanding of the mechanical measurement systems and statistical analysis of experimental data. The course contains the generalized configuration and functional elements of measuring systems, static and dynamic characteristics of measuring instruments. The course also include the instrumentation for displacement, strain, velocity, force, toque, power, pressure, sound, flow and temperature measurement. |
