1. Polymer Chemistry Polymer Characteristics and Classifications Ms. Mandel Honors Physical Science

2. D15 O Explain the general formation and structure of carbon-based polymers, including synthetic polymers, such as polyethylene, and biopolymers, such as carbohydrate.

3. D16 O Explain how simple chemical monomers can be combined to create linear, branched and/or cross-linked polymers.

4. D17 O Explain how the chemical structure of polymers affects their physical properties.

5. Learning Targets O I can explain how the structure of a polymer affects its properties. O I can differentiate between thermoset and thermoplastic polymers. O I can explain how polymers are synthesized.

6. Polymers O What is a Monomer? O The individual units that join together to form a polymer. O What is a Polymer? O A very long molecule composed of repeating units connected by covalent bonds.

7. Characterizing a Polymer O Structure O Classification O Synthesis

8. Structure of a Polymer O Skeletal Structure O Chemical Structure

9. Skeletal Structure O Linear O A straight chain with two ends

10. Linear Structure O What properties might a linear structure produce? O Short and long chains O Long molecules can get tangled up in each other and stick together better O Long molecules are harder and have higher melting points O Short chains pass over each other easily and are softer and “squishy” O No side chains means it has a higher density because more molecules can pack into the same amount of space O The molecules can slide over each other more easily if there is nothing in the way to stop them O Stretchy

11. Skeletal Structure O Branched O Have side chains

12. Branched Structure O What properties might a branched structure produce? O If chains are branched then they cannot pack close together = low density O Branches catch on each other, preventing chains from sliding past one other O Plastic is less stretchy

13. Skeletal Structure O Cross-linked O Chains are connected to other chains

14. Cross-Linked Structure O What properties might cross-linking produce? O Chains permanently connected to each other O Makes the material stronger and harder O Vulcanization O Degree of cross-linking determines stretchiness rubberpump.com

15. No chains linked together Larger range of motion available to chains  more bouncy Chains linked together Increasing stiffness Less range of motion available  rigid and stiff

16. Identify the following polymers:

18. Learning Target Checkpoint O How does structure determine the property of a polymer?

19. Chemical Structure O Homopolymer O Only one monomer - A – A – A – A – A – A – A -

20. Chemical Structure O Copolymer O More than one monomer

21. Classifications O Thermoplastic O Thermoset O Elastomer

22. Thermoplastics O Linear or branched polymers O Can be melted when heat is applied O Can be molded into any shape with processing techniques O Commonly known as “plastics” www.mr-dt.com

23. Thermoplastics O Examples: bottles, grocery bags, water piping, rope, fishing line, car parts, etc. O Most are recyclable www.petervaldivia.com

24. Plastic Resin Codes mjacobandsons.com

25. Thermosets O Normally are rigid materials O Network polymers in which chain motion is greatly restricted by a high degree of crosslinking O Cannot be reshaped once formed www.mr-dt.com

26. Thermosets O Examples: super glue, counter top laminates, tires (vulcanized rubber) O Cannot be recycled (burn/scorch with heat) www.stephensinjectionmoulding.co.uk

27. What are Elastomers? O Thermoplastics O Thermosets O Natural O Synthetic O Can be stretched to many times their original length O Can bounce back into their original shape without permanent deformation O Low degree of crosslinking

28. Elastomers O Uses: examination gloves, rubber bands, bouncing balls, hoses, medical, etc. O Not recyclable www.glstpes.com

29. Differentiate between the 2 polymers. www.recycledplastic.com Learning Target Checkpoint

30. Polymer Chemistry Polymer Synthesis

31. Addition Polymerization (Polyaddition) O Reactions in which monomers combine without the formation of a small molecule. O Usually involves the breaking of a double bond.

32. Condensation Polymerization (Polycondensation) O Reactions in which small molecules (such as H 2 O, and HCl) are formed when the monomers combine.

33. Polymerization Video

34. Learning Target Checkpoint O How do you differentiate between condensation polymerization and addition polymerization?