Chapter 26 Synthetic Polymers Jo Blackburn Richland College, Dallas, TX Dallas County Community College District  2006,  Prentice Hall Organic Chemistry,

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Presentation transcript:

Chapter 26 Synthetic Polymers Jo Blackburn Richland College, Dallas, TX Dallas County Community College District  2006,  Prentice Hall Organic Chemistry, 6 th Edition L. G. Wade, Jr.

Chapter 262 Introduction A polymer is a large molecule composed of many smaller repeating units. First synthetic polymers:  Poly(vinyl chloride) in 1838  Polystyrene in 1839 Now, 250 billion pounds produced annually, worldwide. =>

Chapter 263 Classes of Polymers Addition, or chain-growth, polymers Condensation, or step-growth, polymers =>

Chapter 264 Addition Polymers Three kinds of intermediates:  Free radicals  Carbocations  Carbanions Examples of addition polymers:  polypropylene plastics  polystyrenefoam insulation  poly(acrylonitrile)Orlon ® fiber  poly(methyl  -methacrylate) Plexiglas ® =>

Chapter 265 Free Radical Polymerization =>

Chapter 266 Chain Branching Low-density polyethylene:  soft and flimsy  highly branched, amorphous structure =>

Chapter 267 Cationic Polymerization Alkene is treated with an acid. Intermediate must be a stable carbocation. =>

Chapter 268 Good Monomers for Cationic Polymerization =>

Chapter 269 Anionic Polymerization Alkene must have an electron-withdrawing group like C=O, C  N, or NO 2. Initiator: Grignard or organolithium reagent. =>

Chapter 2610 Stereochemistry =>

Chapter 2611 Properties of Polymers Isotactic and syndiotactic polymers are stronger and stiffer due to their regular packing arrangement. Anionic intermediate usually gives isotactic or syndiotactic polymers. Free radical polymerization is nearly random, giving branched atactic polymers. =>

Chapter 2612 Ziegler-Natta Catalyst Polymerization is completely stereospecific. Either isotactic or syndiotactic, depending on catalyst. Polymer is linear, not branched. Example of catalyst: solution of TiCl 4 mixed with solution of (CH 3 CH 2 ) 3 Al and heated for an hour. =>

Chapter 2613 Natural Rubber Soft and sticky, obtained from rubber tree. Long chains can be stretched, but then return to original structure. Chains slide past each other and can be pulled apart easily. Structure is cis-1,4-polyisoprene. => n

Chapter 2614 Vulcanization Discovered accidentally by Goodyear, dropped rubber and sulfur on a hot stove. Sulfur produces cross- linking, strengthening the rubber. Hardness can be controlled by varying the amount of sulfur. =>

Chapter 2615 Synthetic Rubber With a Ziegler-Natta catalyst, a polymer of 1,3-butadiene can be produced, in which all the additions are 1,4 and the remaining double bonds are all cis. It may also be vulcanized. =>

Chapter 2616 Copolymers Two or more different monomers. Saran ® : alternating molecules of vinyl choride and 1,1-dichloroethylene. ABS plastic: acrylonitrile, butadiene, and styrene. =>

Chapter 2617 Condensation Polymers Polymer formed by ester or amide linkages between difunctional molecules. Step growth: Monomers do not have to add one at a time. Small chains may condense into larger chains. Common types:  Polyamides  Polyesters  Polycarbonates  Polyurethanes =>

Chapter 2618 Polyamides: Nylon Usually made from reaction of diacids with diamines, but may also be made from a single monomer with an amino group at one end and acid group at other. =>

Chapter 2619 Polyesters Dacron ® and Mylar ® : polymer of terephthalic acid and ethylene glycol. Made by the transesterification of the methyl ester. =>

Chapter 2620 Polycarbonates Esters of carbonic acid. Carbonic acid is in equilibrium with CO 2 and water, but esters are stable. React phosgene with bisphenol A to obtain Lexan ® for bulletproof windows. =>

Chapter 2621 Polyurethanes Esters of carbamic acid, R-NH-COOH. Urethanes are prepared by reacting an alcohol with isocyanate. Polyurethanes are prepared by reacting a diol with a diisocyanate. =>

Chapter 2622 Polymer Crystallinity Microscopic crystalline regions. A linear polymer will have a high degree of crystallinity, and be stronger, denser and more rigid. =>

Chapter 2623 Thermal Properties Glasses at low temperature, fracture on impact. At the glass transition temperature, T g, crystalline polymers become flexible. At the crystalline melting temperature, T m, crystalline polymers become a viscous liquid, can be extruded to form fibers. =>

Chapter 2624 Crystalline vs. Amorphous Phase transitions for long-chain polymers. =>

Chapter 2625 Plasticizers Nonvolatile liquid that dissolves, lowers the attraction between chains, and makes the polymer more flexible. Example: Dibutyl phthalate is added to poly(vinyl chloride) to make it less brittle. The plasticizer evaporates slowly, so “vinyl” becomes hard and inflexible over time. =>

Chapter 2626 End of Chapter 26