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Thermoplastic polymers processed by a heat-form-cool cycle John Summerscales Summary of lecture • basic chemical names • addition polymers configuration/conformation o stereoregularity/tacticity o crystalline or amorphous o transition temperatures o • condensation polymers • ring-opening polymers Naming basic chemicals Number C atoms 1 2 3 4 5 6 7 8 9 10 Prefix single bond double bond triple bond MethEthPropButPentHexHeptOctNonDec- -ane -ane -ane -ane -ane -ane -ane -ane -ane -ane -ene -ene -ene -ene -ene -ene -ene -ene -ene -yne -yne -yne -yne -yne -yne -yne -yne -yne Basic chemicals C atoms 1 2 3 Name Methane Ethane Propane Formula CnH2n+2 CH4 C2H6 C3H8 Boiling point -164°C (gas) -89°C (gas) -42°C (gas) 4 5 6 Butane Pentane Hexane C4H10 C5H12 C6H14 -0.5°C (gas) 36°C (liquid) 69°C (liquid) 7 8 9 10 Heptane Octane Nonane Decane C7H16 C8H18 C9H20 C10H22 98°C (liquid) 125°C (liquid) 151°C (liquid) 174°C (liquid) Paraffins/waxes 1000+ Polyethylene C20H42 melts at 37 °C H[CH2]nH quasi-solid solid Transition temperature data from http://www.elmhurst.edu/~chm/vchembook/501hcboilingpts.html Bond rotation • Movie of rotation about a single bond o file taken from http://plc.cwru.edu/tutorial/enhanced/files/polymers/struct/bond.mov • Movie of rotation with different side groups o file taken from http://plc.cwru.edu/tutorial/enhanced/files/polymers/struct/conform.swf Geometric isomers • cis: • trans: Chemical Groups (reactants) • Acid O C O H • Alcohol HO • Amine H H N • NB: nitrogen in amine has a free p-orbital which can become part of a π-bond Chemical Groups (products) • Ester O C O • Amide O C H • Ether O N Polymers • Polymers are class of materials where many small molecules (monomers) are linked together by covalent bonds to form long chains or networks • an alternative name for polymers is macromolecules • a homopolymer has only 1 repeating unit • a copolymer has 2 different repeating units • a terpolymer has 3 different repeating units. Polymers • Thermoplastic - usually long straight chains sometimes with short branches o copolymers AB (and terpolymers ABC) can be alternating ---ABABABABAB-- block ---AAABBAAABB-- graft (type B branches on type A backbone) random ---AABABBBAAB-- • Thermoset - usually 3-dimensional networks • Elastomers - 3-D networks with sparse interlinks between chains (e.g. rubber) Addition polymers • reaction by opening double bonds • all atoms from reactants end up in the product • n CH2=CHX reacts to become [- CH2-CHX-]n o o o o o o if X = H, the polymer is polyethylene if X = CH3, the polymer is polypropylene if X = Cl, the polymer is polyvinylchloride if X = C6H5, the polymer is polystyrene ... this list is not exhaustive if monomer is CF2=CF2, the polymer is polytetrafluoroethylene Configuration/Conformation • Configuration the arrangements of atoms on the polymer chain o fixed relative positions of atoms o • Conformation the arrangement of the atoms in space o regular linear chains can crystallise o branched/bulky side-groups or irregular copolymers have longer repeat units and are thus less likely to crystallise but more likely to be amorphous o Stereoregularity -> tacticity • Isotactic o characteristic groups all on the same side of the polymer chain • Syndiotactic o characteristic groups on alternate sides along polymer chain • Atactic - characteristic groups located at random along the polymer chain o images from http://plc.cwru.edu/tutorial/enhanced/files/polymers/struct/Struct.htm Crystalline vs amorphous • Crystalline polymers o molecules pack more closely leading to: higher density better mechanical properties (more bonds/m3) better resistance to environmental degradation o NB: common polymers are partially crystalline crystallites distributed in an amorphous matrix • Amorphous polymers o random configuration reduced properties re. crystalline materials transparent to white light (e.g. PS, PC, PMMA) Crystallinity • Two model structures have been proposed • Images from http://chem.chem.rochester.edu/~chem421/cryst.htm http://www.pslc.ws/mactest/crystal.htm respectively Fringed micelle Folded lamella Transition temperatures • Tg = Glass transition temperature segmental motion is frozen out o brittle elastic below Tg o tough/viscoelastic above Tg o • Tm = Crystalline melting point o only occurs in crystallites • both temperatures may be a range rather than a specific temperature Transition temperatures Rubbery Specific volume Amorphous/ glassy Liquid Crystalline solid Tg Tm Temperature Condensation polymers • XOH + HY XY + H2O • HOXOH + HYH HOXYH + H2O o further reactions with HOXOH and HYH will produce a linear molecule Condensation polymers • Acid + base salt + water o HCl + NaOH NaCl + H2O • Acid + alcohol ester + water o R.C=O.OH + HO.R’ R.C=O.O.R’ + H2O • Acid + amine amide + water o R.C=O.OH + H2N.R’ R.C=O.HN.R’ + H2O • If two reactive sites on each molecule, then a polymer chain will result Ring-opening polymers • HOXOH + HYH HOXYH +H2O o further reactions with HOXOH and HYH will produce a linear molecule • HOXH + HOXH HOXXH +H2O i.e. both reactants might be on one molecule o but such a system could react with itself to form a cyclic molecule if X > 4C atoms o such a cyclic molecule can polymerise without loss of water (H2O already removed in cyclisation reaction) o Ring-opening polymers • Ring-opening polymerisation during composite manufacture has potential to produce thermoplastic matrix composites from RTM/RIFT caprolactam to produce polyamide 6 (e.g. DSM Fiber Intermediates APA-6), o laurolactam to produce polyamide 12 (e.g. EMS-Grivory APLC12), and o cyclic butylene terephthalate oligomers to produce PBT polyester (e.g. Cyclics Corporation). o Voluntary Plastic Container Coding System n abc • proposed by Society for the Plastics Industry (SPI) in the United States of America • remember Tm = Tg + 200°C (±~50°C) so some common thermoplastics are..... Polymer Acronym Coding Tg (ºC) Tm (ºC) Morphlgy Low-density polyethylene LDPE 4 -130 +105 crystalline High-density polyethylene HDPE 2 -125 +135 crystalline Polypropylene PP 5 -27 .. -10 +165 .. +170 crystalline Polyamide (nylon) 6,6 PA6,6 7 +55 +255 crystalline Poly vinylchloride PVC (V) 3 +75 .. +80 -- amorphous Polystyrene PS 6 +90 .. +100 -- amorphous Polyethylene terephthalate PET 1 +67 .. +80 265 crystalline Polycarbonate PC 7 +145 .. +150 -- amorphous Polyoxymethylene POM 7 < -150 +180 crystalline Polyurethane PU 7 +140 -- amorphous Poly ether ether ketone PEEK 7 +144 367 crystalline (acetal) (PETE) Periodic Table of Thermoplastics (Tangram Technology) http://polymer.w9of.com/wp-content/uploads/2011/01/Polymer-Periodic-Table.pdf Summary of thermoplastics lecture • basic chemical names • addition polymers configuration/conformation o stereoregularity/tacticity o crystalline or amorphous o transition temperatures o • condensation polymers • ring-opening polymers