MN 219 - Survey of Polymer Technology
Description
In this course, students learn the basic chemistry of the most common polymers used in the industry today. How thermoplastic and thermosetting polymers are formed is a key consideration. Also emphasized throughout this course are the physical and chemical behaviors of plastics as they relate to their applications.
Credit Hours: 3
Contact Hours: 3
School: School of Business & Industry
Department: Manufacturing
Discipline: MN
Major Course Revisions: N/A
Last Revision Date Effective: 20240301T12:08:59
Course Review & Revision Year: 2028-2029
Course Type:
Program Requirement- Offering designed to meet the learning needs of students in a specific GRCC program.
Course Format:
Lecture - 1:1
General Education Requirement: None
General Education Learner Outcomes (GELO):
NA
Course Learning Outcomes:
- Compare and contrast basic elements and bonding, organic families, and various polymer structures used in the most common industrial plastics.
- Recognize key mechanical, thermal, and electrical properties for common industrial plastics for processing (including additives used) and end function.
- Identify and demonstrate testing of common thermoset and thermoplastic polymers including temperature effects and chemical synthesis.
- Identify the best solution to a problem or issue.
- Complete work accurately, with attention to detail.
Approved for Online Delivery?: No
Course Outline:
I. Atomic TheoryA. The atom
B. Particles
C. Historical developments II. Periodic Table A. Organization
B. Metals
C. Non-metals
D. Semi-conductors III. Chemical Bonding A. Ionic bonding
B. Covalent bonding
C. Polarity
D. Metallic bonding
E. Secondary Bonding IV. Chemical Formulas and Equations A. Physical and chemical changes
B. Laws of conservation of mass
C. Atomic weights
D. Balancing Equations V. Solutions and Chemical Reactions A. Acids, bases and salts
B. Types of chemical reactions
C. Exothermic and endothermic reactions
D. Catalysts
E. Solutions VI. Organic Chemistry A. Hydrocarbons
B. Alkanes, Alkenes, Alkynes
C. Isomers
D. Major functional groups VII. Polymer Synthesis A. Condensation reactions
B. Addition reactions
C. Example polymer reactions VIII. Classification of Polymers A. Polymer structure 1. Isotactic, Atactic, Syndiotactic
2. Linear, Branched, Crosslinks B. Molecular weight
C. Degree of polymerization
D. Dispersion (MWD) IX. Thermoplastics A. Glass transition
B. Melting
C. Amorphous
D. Crystalline
E. Molecular shape determining properties
F. Examples
G. Alloys X. Thermosets A. Crosslinking
B. Rigid
C. Elastomers
D. Examples XI. Additives A. UV inhibitors and absorbers
B. Heat stabilizers
C. Anti-oxidants
D. Plasticizers
E. Fillers and reinforcements
Mandatory CLO Competency Assessment Measures:
None
Name of Industry Recognize Credentials: NA
Instructional Strategies:
Lecture using Power Point: 50 - 70%Applied Learning: 20-30% Informational Media: 0-5%
Mandatory Course Components:
None
Academic Program Prerequisite: None
Prerequisites/Other Requirements: None
English Prerequisite(s): None
Math Prerequisite(s): None
Course Corerequisite(s): None
Course-Specific Placement Test: None
Course Aligned with IRW: N/A
Consent to Enroll in Course: No Department Consent Required
Total Lecture Hours Per Week: 3
Faculty Credential Requirements:
Professionally qualified through work experience in field (Perkins Act or Other) (list below)
Faculty Credential Requirement Details: Bachlor’s Degree in related field with 4000 hours of experience.
Maximum Course Enrollment: 24
Equivalent Courses: None
Dual Enrollment Allowed?: No
Advanced Placement (AP) Exam Credit Accepted: None
AP Min. Score: NA
Number of Times Course can be taken for credit: 1
First Term Valid: Fall 2019 (8/1/2019)
Programs Where This Courses is a Requirement:
Plastics-Polymer Engineering Technology, A.A.A.S., Plastics-Polymer Engineering Technology Certificate, Plastics-Polymer Engineering Technology, A.A.A.S (Ferris State University-Manufacturing Engineering Technology), Plastics-Polymer Engineering Technology, A.A.A.S (Ferris State University-Plastics Engineering Technology)
1st Catalog Year: 2019-2020
People Soft Course ID Number: 101529
Course CIP Code: 48.9999
High School Articulation Agreements exist?: No
Non-Credit GRCC Agreement exist?: No
If yes, with which Departments?: NA
Corporate Articulation Agreement exist?: No
If yes, with which Companies?: NA
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