Major courses
This is our Major courses.
| Number | Course Name | Hrs/Credits | Details |
|---|---|---|---|
| NC1001 | Chemistry I | 3 cr. 3 hr. | The basic laws and theories of chemistry: characterization of the elements and their most important compounds. For students who need a foundation for work in advanced chemistry and related sciences. |
| NC1011 | Chemistry Lab I | 1 cr. 3 hr | The subject of this lab will be related with the contents of chemistry I. The properties and application of molecules, the properties of acids and bases will be examined with various instruments and reagents. |
| NC2001 | Intro Met Mater Engr. Design | 3 cr. 3 hr. | This course will introduce the student to effective procedures for solving simple metallurgical and materials engineering and design problems using mathematics, computers, basic measuring systems and devices, computational tools, and statistical concepts. |
| NC2011 | Intro to MME design lab | 1 cr. 3 hr. | The course combination of MME 1301/1101 will introduce the student to effective procedures for solving simple metallurgical and materials engineering and design problems, using mathematics, computers, basic measuring systems and devices, computational tools, and statistical concepts. |
| NC1002 | Chemistry II | 3 cr. 3 hr. | Students completing this course will have a clear understanding of the chemical and physical basis for spontaneity, reactions including the characteristics of acids and bases, an understanding of rates of reaction, solubility, electrochemistry, and a structural understanding of simple organic substances. |
| NC1012 | Chemistry Lab II | 1 cr. 3 hr. | The subject of this lab will be related with the contents of chemistry I. Topics related with rates of reaction, solubility, electrochemistry, and a structural understanding of simple organic substances will be experimented with various instruments and reagents. |
| NC2002 | Into Materials Sci & Eng. | 3 cr. 3 hr. | Introduction to the properties of engineering materials and relationships to their structure, behavior, and processing. Materials testing and measurement of properties. |
| NC2021 | Graphic fundamental Engr. Design | 2 cr. 4 hr. | Graphics Fundamentals in Engineering Design Fundamentals of multi-view projections, auxiliaries, sections, pictorial drawings, dimensioning; introduction to CAD, decision process, and geographical information systems. |
| NC2003 | Materials & Energy Balance | 3 cr. 3 hr. | Introduction to process variables, stoichiometry, materials balance, first law of thermodynamics, and energy balance applied to materials systems. |
| NC2004 | Mechanics of Materials | 4 cr. 6 hr. | A first course in Newtonian mechanics, using vectors. Equilibrium of particles, and rigid bodies, forces in space, centroids, moments of inertia, study of stress and strain; use of stress-load equations to determine the state of stress in specific structural elements; study of combined stresses. |
| NC2005 | Applied Thermodynamics | 3 cr. 3 hr. | First, second, and third law of thermodynamics applied to materials systems. Topics include thermochemistry, chemical equilibria, phase equilibria, solutions, activity, and electrochemical potentia. |
| NC1003 | General Physics II | 3 cr. 3 hr. | continuation of PHYS 1403 treating topics in electricity, magnetism, sound, and light. |
| NC2006 | Mechanical Behavior of Materials | 4 cr. 6 hr. | The microstructure-property relationships will be emphasized in this course. The deformation processes for metals, ceramics, polymers and composite materials will be analyzed in terms of current theories and models. The topics include twinning, martensite, fracture, dislocation theory, plastic deformation, creep, fatigue, strengthening mechanisms and mechanical testing. |
| NC3601 | Nano-Organic Materials | 3 cr. 3 hr. | The two main topics of this course are polymer chemistry and the other organic materials such as rotaxane. The physical and chemical properties and synthetic methods of polymers will be introduced. The properties and applications of rotaxane and other organic materials in nano-technology will be introduced. |
| NC3602 | Electronics Materials Science & Technology | 3 cr. 3 hr. | Course would cover the following subjects: Basic Principles of Electronics, Instrumentation ,Printing Technologies, Printed Devices, Printing Applications, RFID (with corresponding lab) and Printed Electronics Materials |
| NC3603 | Nano functional Physical Metallurgy | 4 cr. 6 hr. | The underlying principles of physical metallurgy dealing with the structure property relationships will be covered. Topics will include crystal structures; nano, micro, and macro defects; solid solutions; precipitation hardening; diffusion; and phase equilibriums including nanophases, deformation and annealing, nucleation and growth, solidification and nanophases affecting properties. |
| NC3604 | Corrosion | 3 cr. 3 hr. | Application of electrochemistry and engineering principles to the corrosion, passivity and protection of metals and alloys. |
| NC3605 | Nanomaterials & Nanostructure | 3 cr. 3 hr. | The contents of this course are zero-dimensional nanostructures, one and two-dimensional nanostructires, fabricated nanostructure, and characterization of nanomaterials. |
| NC3701 | Senior Prof. Orientation | 1 cr. 1 hr. | Introduction to the engineering profession with emphasis on job placement, professional ethics and an engineering field examination. |
| NC3702 | Printable Materials | 3 cr. 3 hr. | The course deals with various aspects of nano size particles in conjunction with printing processes to form layered materials for flexible electronics, sensors, RFIDs and medical devices. |
| NC3703 | Biomaterials Biomedical Printing and Devices | 3 cr. 3 hr. | This course provides an overview of digital and non-impact printing for biomedical applications. Their use in non traditional disciplines such as MEMS or bioengineering will be explained. |
| NC3704 | Materials Synthesis & Manufacturing | 4 cr. 6 hr. | Materials and processes in soldering, brazing, glass and ceramic production, powder metallurgy, surface modification, vapor deposition, fabrication of patterned multi-layers, solidification, etc. Analysis using material and energy balance, fluid flow, heat transfer, kinetics, and thermodynamics. |
| NC3705 | Structural Characterization | 4 cr. 6 hr. | The application of modern instrumentation and techniques to structural characterization problems. Both theory and operation will be stressed. X-Ray analysis, electron microscopy (TEM-SEM) and electron probe analysis will be included. |
| NC3801 | 3D Additive Manufacturing | 4 cr. 6 hr. | The course deals with various aspects of additive, subtractive, and joining processes to form three-dimensional parts with applications ranging from prototyping to production. |
| NC3802 | Design & Practice | 4 cr. 6 hr. | Introduction to creative industrial problem-solving and the design process in materials engineering. Topics include material and process selection, project planning and resource management, economic decision making in terms of cost evaluation and profitability, and optimization methods. |
| NC3803 | Failure Analysis | 3 cr. 3 hr. | The mechanisms of materials failure, failure analysis techniques and non-destructive testing methods and discussed with emphasis on analysis and interpretation of case studies. |
| NC3804 | Special/Independent topic | 3 cr. 3 hr. | Original investigation of special problems in the student's field, the problem to be selected by the student with the approval of the head of the department. May be repeated for credit. Restricted to major: MME. Prerequisites: Senior standing. |
| NC1999 | Graduation Thesis and Examination | 3 cr. | Prospective graduates will be instructed their graduation thesis or graduation test by their mentors. |
