NORTH CENTRAL TEXAS COLLEGE

COURSE SYLLABUS

 

Course Title:       Introduction to Metallurgy

Course Prefix & Number:              METL1301            Section Number:                              Term Code: Fall2023      

Semester Credit Hours: 3              Lecture Hours:   3              Lab Hours:           0

Course Description (NCTC Catalog):

A study of refining, mechanical, and physical properties of ferrous and nonferrous materials including the theory of alloys, heat treatment, and testing.         

Course Prerequisite(s):

Course Type:

 - Academic General Education Course (from Academic Course Guide Manual but not in NCTC Core)

- Academic NCTC Core Curriculum Course

- WECM Course

 

Name of Instructor:         Dale K. Roberts

Campus/Office Location:              Gainesville, CTC

Telephone Number:       940 668 7731 X4415

E-mail Address: dkroberts@nctc.edu

 

Name of Interim Dean: Darrell D. Smith

Office Location: CTC2110

Telephone Number:       940-668-7731, x4426

E-mail Address: ddsmith@nctc.edu

 

 

REQUIRED OR RECOMMENDED COURSE MATERIALS

 

Metallurgy 5th edition by Daniel A. Brandt and J.C. Warner (ISBN 978-1-60525-079-3)

 

 

GRADING CRITERIA

                Graded Course Elements              Percentage or Points Values

                Chapter 1

Practical Applications of Metallurgy

Test over chapter 1          The assignment grade and the test grade will be averaged together for a grade for this element

                Chapter 2

Metallurgical and Chemical Terminology

Test over chapter 2          The assignment grade and the test grade will be averaged together for a grade for this element

                Chapter 3

Hardness

Test over chapter 3          The assignment grade and the test grade will be averaged together for a grade for this element

                Chapter 4

Material Properties

Test over chapter 4

                The assignment grade and the test grade will be averaged together for a grade for this element

                Chapter 5

What is steel

Test over chapter 5          The assignment grade and the test grade will be averaged together for a grade for this element

                Chapter 6

What is steel

Test over chapter 6          The assignment grade and the test grade will be averaged together for a grade for this element

                Chapter 7

What is steel

Test over chapter 7          The assignment grade and the test grade will be averaged together for a grade for this element

                Chapter 8

What is steel

Test over chapter 8          The assignment grade and the test grade will be averaged together for a grade for this element

                Chapter 9

What is steel

Test over chapter 9          The assignment grade and the test grade will be averaged together for a grade for this element

                Chapter 10

What is steel

Test over chapter 10       The assignment grade and the test grade will be averaged together for a grade for this element

                Chapter 11

What is steel

Test over chapter 11       The assignment grade and the test grade will be averaged together for a grade for this element

                Chapter 12

What is steel

Test over chapter 12       The assignment grade and the test grade will be averaged together for a grade for this element

                Chapter 13

What is steel

Test over chapter 13       The assignment grade and the test grade will be averaged together for a grade for this element

                Chapter 14

What is steel

Test over chapter 14       The assignment grade and the test grade will be averaged together for a grade for this element

                Chapter 15

What is steel

Test over chapter 15       The assignment grade and the test grade will be averaged together for a grade for this element

                Chapter 16

What is steel

Test over chapter 16       The assignment grade and the test grade will be averaged together for a grade for this element

                Chapter 17

What is steel

Test over chapter 17       The assignment grade and the test grade will be averaged together for a grade for this element

                Chapter 18

What is steel

Test over chapter 18       The assignment grade and the test grade will be averaged together for a grade for this element

                Chapter 19

What is steel

Test over chapter 19       The assignment grade and the test grade will be averaged together for a grade for this element

                The final grade for this course will be taken from the averaged grade from each element and averaged together for a final grade for this course.              

 

 

END OF COURSE OUTCOMES (WECM)

Define the physical and mechanical properties of ferrous and non-ferrous metals

Describe the steel-making process

Name and describe methods of destructive and nondestructive testing

Explain the effects of hot working, cold working, welding, machining, and heat treating on metal properties

Perform tests to pinpoint failures

Define metallurgical terms and processes

Recognize defects and their causes

 

GENERAL DESCRIPTION OF SUBJECT MATTER FOR EACH LECTURE/DISCUSSION

Topic     General Description of Subject Matter

Practical Applications of Metallurgy        

Define metallurgy, explain what a metallurgist does, describe how metallurgy knowledge can be used to solve industrial problems, state whey the study of metallurgy can be a valuable asset.

Metallurgical and chemical terminology

State the meaning of basic metallurgy terminology, explain how chemistry is related to metallurgy, and define chemical terms such as element, compound, solution, atom. Describe metals and alloys

Hardness            

Explain what hardness is, describe how the hardness testing methods, discuss how each hardness testing methods works, convert between hardness scales.

Metal properties             

Explain the relationship between strength, hardness, and ductility; calculate simple tensile, compressive, torsional, and flexural stresses. Compare the various types of stresses that materials must withstand, define and calculate percent elongation and strain. Compare elastic and plastic deformation, describe stress-strain diagrams for common materials, explain modulus of elasticity, determine lateral strain using Poisson’s ratio. Describe types of corrosion; explain thermal properties such as melting point, coefficient of thermal expansion, thermal conductivity and specific heat.

What is steel     

Describe the composition of steel, identify the differences between steel and iron, and use the steel numbering system to identify various types of steel. Identify the effects of different alloying elements on steel. Describe various kinds of carbon steel and alloy steel, compare the different types of cast iron.

Manufacture of iron and steel   

Identify the basic steps in the production of steel. Describe how cast iron is made, identify the properties and uses of iron ore and pig iron. Differentiate between common steel making and cast iron making processes. Discuss how rolling mills change steel ingots into different shapes.

Crystal Structure             

Explain how a crystal is formed in metal; discuss the formation of space lattice structures and dendrites. Describe the appearance of atoms inside crystals. Explain how temperature affects the growth of a crystal. Tell what is meant by grain size.

Failure and deformation of metal              Explain what happens inside a piece of metal when it breaks, state what is meant by deformation of metal, summarize the different types of metal failure or breakage. Describe work hardening and its applications.

Iron carbon diagram        Describe five important structural forms of steel and iron; identify the transformation regions and other major elements of an iron carbon diagram. Use an iron carbon diagram to determine the steel structures that occur at various combinations of temperature and percentages of carbon. Explain how different cooling techniques are used to produce mechanical properties on steel. Use an iron carbon diagram to determine the temperature to which steel must be heated to cause tit to harden.

Microstructural Analysis               

Compare different structures of steel under a microscope, describe the microscopic appearance of ferrite, pearlite, cementite, austenite, and martensite. Recognize ferrite, pearlite, cementite, austenite, and martensite by looking at their microstructures.

Heat treating and quenching      

Explain heat treating processes, describe the effects and purpose of quenching, and discuss the four stages that metal goes through as it is quenched. Identify common quenching mediums and techniques and describe how they affect metal.

Annealing and normalizing          

Describe the purpose of annealing and normalizing; explain how annealing and normalizing affect the hardness, strength and brittleness of metal. Describe how annealing and normalizing affect the crystal structure of metal. Identify three different types of annealing processes. List the different ways in which annealing and normalizing affect metal compared to quenching.

Isothermal transformation diagrams       

Explain the purpose of an isothermal transformation (IT) diagram and how it is used; recognize the difference in usage between and I-T diagram and an iron carbon phase diagram. Determine whether material will become stronger during the heat treat process by evaluating it I-T diagram. Compare different industrial I-T diagrams; plot a temperature time line on an I-T diagram.

Tempering         

Explain the purpose of tempering, identify characteristics of tempered steel. Discuss some practical aspects of tempering, describe common tempering methods, explain how tempering affects distortion and hardness.

 

 

Surface hardening          

Explain the principles of surface hardening identify metallurgical applications for surface hardening; describe the three basic surface hardening methods. Identify eight different processes used to case harden materials. Compare the advantages and disadvantages of each surface hardening process.

Processing nonferrous metals   

Identify and explain the basic processing methods used for nonferrous metals, describe the different types of atomic structures in metals. Explain the principles of alloying and the structural effects produced by alloying elements. Summarize the effects of cold working on metal. Recognize how precipitation hardening is applied to improve the properties of nonferrous alloys. Use phase diagrams to identify the various structures that occur in alloy systems.

Aluminum and aluminum alloys

Describe the desirable properties of aluminum and aluminum alloys; explain how aluminum is refined, list common applications of aluminum and aluminum alloys. Explain how alloying, cold working, and precipitation hardening can be used to change the properties of aluminum.

Copper, bronze, and brass           

List and explain the desirable properties of copper and its alloys. Explain how copper is refined from copper ore; describe the favorable properties of bronze and brass. Explain the effects of work hardening and precipitation hardening on copper and its alloys.

Magnesium, zinc, tin and specialty metals            

Identify the properties and commercial applications of magnesium, zinc, tin, and other nonferrous metals. Describe how the die casting process is used to produce parts from magnesium and zinc, explain the use of tin alloys in wave soldering and other joining processes, list the properties and applications of nickel based super alloys and titanium. Recognize how intermetallic compounds are formed.

 

 

 

ATTENDANCE POLICY

Regular and punctual attendance is expected of all students in all classes for which they have registered.  All absences are considered to be unauthorized unless the student is absent due to illness or emergencies as determined by the instructor.  It is the student responsibility to provide documentation as to the emergency for approval and judgement by the faculty member.  Approved college sponsored activities are the only absences for which a student should not be held liable and only when provided by a college official ahead of the absence.  Valid reasons for absence, however, do not relieve the student of the responsibility for making up required work.  Students will not be allowed to make up an examination missed due to absence unless they have reasons acceptable to the instructor.  A student who is compelled to be absent when a test is given should petition the instructor, in advance if possible, for permission to postpone the exam.  Student will be dropped from a class by the Registrar upon recommendation of the instructor who feels the student has been justifiably absent or tardy a sufficient number of times to preclude meeting the course’s objectives.    Persistent, unjustified absences from classes or laboratories will be considered sufficient cause for College officials to drop a student from the rolls of the College. From Board Policy FC (LOCAL)

 

Last day to

Withdraw

                the last day to withdraw from a course with a “W” is November 2^nd 2023

 

 

Student Rights & Responsibilities

NCTC Board policy FLB (Local) Student Rights and Responsibilities states that each student shall be charged with notice and knowledge of the contents and provisions of the rules and regulations concerning student conduct.  These rules and regulations are published in the Student Handbook published in conjunction with the College Catalog. 

 

Scholastic Integrity

Scholastic dishonesty shall constitute a violation of college rules and regulations and is punishable as prescribed by Board policies. Scholastic dishonesty shall include, but not be limited to cheating on a test, plagiarism, and collusion.  See the Student Handbook for more information.

 

STUDENT SUPPORT SERVICES

 

DISABILITY SERVICES (Office for Students with Disabilities)

The Office for Students with Disabilities (OSD) provides support services for students with disabilities, students enrolled in technical areas of study, and students who are classified as special populations (i.e. single parents).

Support services for students with disabilities might include appropriate and reasonable accommodations, or they may be in the form of personal counseling, academic counseling, career counseling, etc.  Furthermore, OSD Counselors work with students to encourage self-advocacy and promote empowerment. The Counselors also provides resource information, disability-related information, and adaptive technology for students who qualify.

 

 

Tobacco-Free Campus

 

               

NCTC restricts the use of all tobacco products including cigarettes, cigars, pipes and smokeless tobacco on campus property.

 

 

 

 

 

 

 

 

 

 

 

 

 

 

CORE CURRICULUM FOUNDATIONAL COMPONENT AREA

 

             Communication

             Mathematics                    

             Life and Physical Science

             Language, Philosophy & Culture

             Creative Arts

             American History

 

             Government/Political Science

             Social and Behavioral Sciences

             Component Area Option

 

 

REQUIRED CORE OBJECTIVES (For classes in the Core)

 

                             Critical Thinking

                             Communication

                             Empirical and Quantitative

 

                             Teamwork

                             Personal Responsibility

                             Social Responsibility

COURSE TYPE

             Academic General Education Course (from ACGM but not in NCTC Core)

             Academic NCTC Core Curriculum Course

             WECM Course

 

STUDENT HANDBOOK

Students are expected to follow all rules and regulations found in the student handbook and published online.

 

ACADEMIC DISHONESTY

Scholastic dishonesty shall include, but is not limited to cheating, plagiarism, academic falsification, intellectual property dishonesty, academic dishonesty facilitation and collusion.  Faculty members may document and bring charges against a student who is engaged in or is suspected to be engaged in academic dishonesty.  See Student Handbook, “Student Rights & Responsibilities: Student Conduct ([FLB(LOCAL)]”.