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Engineering Chemistry - Polymer

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AKIB JABED SHOVON
AKIB JABED SHOVON

B.Sc. Engineering First Year First Semester Engineering Chemistry Course on Polymer & its Classifications

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CH 1105 ENGINEERING CHEMISTRY Akib Jabed Shovon Department of Mechanical Engineering Khulna University of Engineering & Technology Khulna 9203 Roll: 1705006 POLYMER
Polymer 1 | P a g e a k i b j a b e d s h o v o n @ g m a i l. c o m Polymer: Polymer may be defined as a substance in which many units of a single or two different molecules are united together by a covalent bond. Sodium chloride crystals & liquid water are not polymer. In sodium chloride crystals many molecules of sodium chloride are united by ionic bond & in liquid water many water molecules are united by hydrogen bond. Monomer: The starting molecule from which the polymer molecule is formed is called monomer. Degree of Polymerization: The number of monomer units which are united together to form a polymer molecule, is called degree of polymerization. Degree of polymerization = Moleculer weight of Polymer Molecular weight of Monomer Polymers with a high degree of polymerization is called high polymers & those with low degree of polymerization is called low polymers/oligomers. High polymer have very high molecular weight in which the repeating units are more than 100. Hence high polymers are also called macromolecules. But all macromolecules are not polymers. Such as vitamins & carotene. The main difference between polymers & macromolecules is polymers are composed of repeating units but these macromolecules are not composed of any repeating units. Oligomers/low polymers have repeating unit less than 100. Classifications of Polymer: Depending upon the source polymers may be classified as- 1. Natural Polymer: These polymers are obtained from nature. Example: rubber. 2. Synthetic Polymer: These are manmade polymers. Examples: polyethylene, nylon, terylene, styrene etc. Synthetic polymers are divided into three types: a) Linear Polymer b) Branched Polymer c) Cross Linked Polymer Usually linear & non-cross linked polymers are thermoplastic & cross linked polymers are thermosetting polymers. Depending upon the backbone chain polymers may be classified as- 1. Organic Polymer: Backbone chain is essentially made up of carbon atoms. 2. Inorganic Polymer: Backbone chain is made up of atoms other than carbon atom.
Polymer 2 | P a g e a k i b j a b e d s h o v o n @ g m a i l. c o m Depending upon the monomers polymers may be classified as: 1. Homo-Polymer: Polymer molecule consists of a monomer unit only. βˆ’π΄ βˆ’ 𝐴 βˆ’ 𝐴 βˆ’ 𝐴 βˆ’ 𝐴 βˆ’ 𝐴 βˆ’ 𝐴 βˆ’ 2. Co-Polymer: Polymer molecule consists of two or more different monomer units. Co-polymers are divided into two types- a) Random Co-polymer 𝐴 βˆ’ 𝐴 βˆ’ 𝐡 βˆ’ 𝐴 βˆ’ 𝐡 βˆ’ 𝐡 βˆ’ 𝐴 b) Alternating Co-polymer βˆ’π΄ βˆ’ 𝐡 βˆ’ 𝐴 βˆ’ 𝐡 βˆ’ 𝐴 βˆ’ 𝐡 βˆ’ 𝐴 βˆ’ 𝐡 βˆ’ Depending upon the mechanical properties polymers may be classified as- 1. Thermoplastic Polymer: Thermoplastic are those polymers, which become soft on heating & can be given any desired shape. These polymers are able to retain that given shape on cooling. However, on further heating they become soft again with deformation of given shape. Thus the softening on heating & stiffen on cooling can be repeated many times. As a result, thermoplastic polymers may be recycled several times. Examples: polyvinyl chloride, polyethylene, polypropylene, nylon:6,6 etc. 2. Thermosetting Polymer: Thermosetting polymers may be defined as the polymers, which become soft on heating & can be given any desired shape. The shape is retained on cooling. But during heating these type of polymers undergo some chemical changes in their structure & convert themselves into infusible & in soluble masses. As a result, on further heating they never be soft again. Thus thermosetting polymers can’t be recycled. Examples: bakelite, melamine etc. Difference between Thermoplastic & thermosetting polymers: No. Thermoplastic Polymers Thermosetting Polymers 1. Soften & melt on heating & become hard on cooling. The process is reversible. Soften & melt on heating & become hard on cooling. The process is irreversible. 2. Can be moulded, remoulded & reshaped. Can’t be moulded, remoulded & reshaped. 3. Formed by additional polymerization. Formed by condensation polymerization. 4. Structure is generally linear. Structure is generally cross linked. 5. Low molecular weight. High molecular weight. 6. Soft, weak & brittle. Hard, strong & more brittle. 7. Soluble in organic solvents. Insoluble in organic solvents. 8. Can be reclaimed from wastes. Can’t be reclaimed from wastes. 9. Monomers used in these polymers are generally bi-functional. Monomers used in these polymers are generally poly-functional. 10. Example: nylon:6,6. Example: melamine.
Polymer 3 | P a g e a k i b j a b e d s h o v o n @ g m a i l. c o m Synthesis of Polymer: Polymer molecules may be synthesized by four different methods: 1. Addition Polymerization. 2. Condensation Polymerization. 3. Ring Opening Polymerization. 4. Oxidative Polymerization. 1. Addition Polymerization: Addition polymerization may be defined as the process in which monomer units are added together to form a polymer molecule without losing any small molecules. For example: Conversion of ethylene to polyethylene. 𝑛𝐢𝐻2 = 𝐢𝐻2 β†’ (βˆ’πΆπ»2 βˆ’ 𝐢𝐻2 βˆ’) 𝑛 Depending upon the mechanism addition polymerization may be classified into two classes. These are- a) Free Radical Addition Polymerization. b) Ionic Addition Polymerization. Whatever the method, the addition polymerization consists of three steps. 1. Initiation. 2. Propagation. 3. Termination. a) Free Radical Addition Polymerization: In this process the initiation of the polymerization reaction is carried out by the formation of free radical. The transformation of the monomer molecule into free radical is done by the action of light, heat or ionizing radiation or by the addition of external substances which are readily decompose into free radicals. Chain Initiation: In chemical initiation method the polymer reaction is initiated by the decomposition of some organic & inorganic peroxides such as benzoyl peroxide, hydrogen peroxide, diazo compound etc. The decomposition is carried out by the application of heat. Chain Propagation: These radicals serve as the active centers & cause chain propagation by combining with monomers.
Polymer 4 | P a g e a k i b j a b e d s h o v o n @ g m a i l. c o m Chain Termination: 1. Combination: The union of the two free radicals terminates the chain propagation of reaction. 2. Disproportion: It is the transfer of hydrogen atom from one macro radical to another one to form two macromolecules; one with a double bond at its end & other is a saturated molecule. b) Ionic Polymerization: Addition polymerization can be carried through the formation of ions by using different types of initiators. Depending upon the nature of initiators, ionic addition polymerization may be carried out through the formation of cation or through the formation of anion. In cationic polymerization acids particularly Lewis acids are used as initiators. On the other hand, in anion polymerization bases particularly Lewis bases are used as initiators. I. Cationic Polymerization: Chain initiation: 𝐴(𝐿𝑒𝑀𝑖𝑠 𝐴𝑐𝑖𝑑) + 𝐢𝐻2 = 𝐢𝐻2 β†’ 𝐴: 𝐢𝐻3 βˆ’ 𝐢𝐻2 + Chain Propagation: 𝐴: 𝐢𝐻3 βˆ’ 𝐢𝐻2 + + 𝐢𝐻2 = 𝐢𝐻2 β†’ 𝐴: 𝐢𝐻3 βˆ’ 𝐢𝐻2 βˆ’ 𝐢𝐻2 βˆ’ 𝐢𝐻2 + 𝐴: 𝐢𝐻3 βˆ’ 𝐢𝐻2 βˆ’ 𝐢𝐻2 βˆ’ 𝐢𝐻2 + + 𝑛𝐢𝐻2 = 𝐢𝐻2 β†’ 𝐴: 𝐢𝐻3 βˆ’ 𝐢𝐻2 βˆ’ (𝐢𝐻2 βˆ’ 𝐢𝐻2) 𝑛 βˆ’ 𝐢𝐻2 βˆ’ 𝐢𝐻2 + Chain Termination: 𝐴: 𝐢𝐻3 βˆ’ 𝐢𝐻2 βˆ’ (𝐢𝐻2 βˆ’ 𝐢𝐻2) 𝑛 βˆ’ 𝐢𝐻2 βˆ’ 𝐢𝐻2 + β†’ 𝐢𝐻3 βˆ’ 𝐢𝐻2 βˆ’ (𝐢𝐻2 βˆ’ 𝐢𝐻2) 𝑛 βˆ’ 𝐢𝐻 = 𝐢𝐻2 + 𝐴 II. Anionic Polymerization: Chain initiation: 𝐡(𝐿𝑒𝑀𝑖𝑠 π΅π‘Žπ‘ π‘’) + 𝐢𝐻2 = 𝐢𝐻2 β†’ 𝐡: 𝐢𝐻3 βˆ’ 𝐢𝐻2 βˆ’ Chain Propagation: 𝐡: 𝐢𝐻3 βˆ’ 𝐢𝐻2 βˆ’ + 𝐢𝐻2 = 𝐢𝐻2 β†’ 𝐡: 𝐢𝐻3 βˆ’ 𝐢𝐻2 βˆ’ 𝐢𝐻2 βˆ’ 𝐢𝐻2 βˆ’ 𝐡: 𝐢𝐻3 βˆ’ 𝐢𝐻2 βˆ’ 𝐢𝐻2 βˆ’ 𝐢𝐻2 βˆ’ + 𝑛𝐢𝐻2 = 𝐢𝐻2 β†’ 𝐡: 𝐢𝐻3 βˆ’ 𝐢𝐻2 βˆ’ (𝐢𝐻2 βˆ’ 𝐢𝐻2) 𝑛 βˆ’ 𝐢𝐻2 βˆ’ 𝐢𝐻2 βˆ’ Chain Termination: 𝐡: 𝐢𝐻3 βˆ’ 𝐢𝐻2 βˆ’ (𝐢𝐻2 βˆ’ 𝐢𝐻2) 𝑛 βˆ’ 𝐢𝐻2 βˆ’ 𝐢𝐻2 βˆ’ β†’ 𝐢𝐻3 βˆ’ 𝐢𝐻2 βˆ’ (𝐢𝐻2 βˆ’ 𝐢𝐻2) 𝑛 βˆ’ 𝐢𝐻 = 𝐢𝐻2 + 𝐡
Polymer 5 | P a g e a k i b j a b e d s h o v o n @ g m a i l. c o m 2. Condensation Polymerization: Condensation polymerization is the process in which many monomer molecules unite together to form a big macromolecule with the loss of some simple molecules, usually water, carbon dioxide etc. ο‚· Preparation of Nylon:6,6: ο‚· Preparation of Dacron: Difference between Chain Growth Polymerization & Step Growth Polymerization: No. Chain Growth Polymerization Step Growth Polymerization 1. CGP is the formation of polymers from unsaturated monomers. SGP is the formation of polymers from bi- functional or multi-functional monomers. 2. A polymer chain is formed at the beginning by the attachment. Oligomers are formed at the beginning are later combined together forming polymer chain. 3. Unsaturated monomers are used in CGP. Bi-functional & multi-functional monomers are used in SGP. 4. No rapid loss of monomers at beginning. A rapid of monomers at the beginning. 5. An active site can be observed at the end of the polymer chain. All monomers are active themselves. 6. Initiators requires to break the double bond in monomer molecules. Doesn’t require initiators. 7. CGP shows no growth of polymerization after termination. SGP doesn’t show termination. 8. Only monomers & polymers are observed in CGP. Any type of molecule such as dimers, trimers, tetramers & oligomers can be observed in SGP. Nylon 6,6
Polymer 6 | P a g e a k i b j a b e d s h o v o n @ g m a i l. c o m Conductive Polymer: Conductive Polymers are those polymers which can conduct electricity. Advantages of Conductive Polymers over Traditional Polymers: ο‚· Can provide electromagnetic shielding of electronic circuits. ο‚· Can be used as antistatic coating material to prevent electrical discharge exposure on photographic emulsions. ο‚· Can be used as hole injecting electrodes for OLEDs ο‚· In use as emissive layer in full color video display. ο‚· Usage on electro luminescent (mobile/telephones). ο‚· Some are promising for field effect transistors. ο‚· Some absorbs microwaves. Difference between Polymers & Macromolecules: ο‚· Macromolecules & polymers are giant molecules both. Some macromolecules are polymer, but not all. Some of them can’t be divided into small unit. ο‚· Polymers are macromolecules with a repeating unit called monomer throughout the molecular structure. But not all macromolecules have a monomer in their structure. ο‚· Macromolecules comprise of both polymeric & non polymeric molecules. But polymer include only polymerized molecules. Living Polymer: A polymer that continues to grow without chain termination steps until either all of the monomers are consumed or external agent is added to terminate the chain. Chain Initiation: π‘π‘Ž + π‘π‘Žπ‘π‘‘β„Žπ‘Žπ‘™π‘’π‘›π‘’ ⇄ π‘π‘Ž+ + π‘π‘Žπ‘π‘‘β„Žπ‘Žπ‘™π‘›π‘’βˆ’ Chain Propagation: π‘π‘Žπ‘π‘‘β„Žπ‘Žπ‘™π‘›π‘’βˆ’ + π‘ƒβ„Ž βˆ’ 𝐢𝐻 = 𝐢𝐻2 β†’ π‘π‘Žπ‘π‘‘β„Žπ‘Žπ‘™π‘’π‘›π‘’ + π‘ƒβ„Ž βˆ’ 𝐢𝐻 βˆ’ 𝐢𝐻2 βˆ’ Polymer Properties & Structure: Isotactic & Syndiotactic polymers are ordered polymer (more crystaline). Atactic polymers are non-crystaline polymers. Natural Rubber – Non crystaline. Gutta Percha – Crystaline.
Polymer 7 | P a g e a k i b j a b e d s h o v o n @ g m a i l. c o m Polymer Structure: 1. Primary Structure (Chemical Composition). 2. Secondary Structure. Polymers have high molecular weight, have higher strength.

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Engineering Chemistry - Polymer

  • 1. CH 1105 ENGINEERING CHEMISTRY Akib Jabed Shovon Department of Mechanical Engineering Khulna University of Engineering & Technology Khulna 9203 Roll: 1705006 POLYMER
  • 2. Polymer 1 | P a g e a k i b j a b e d s h o v o n @ g m a i l. c o m Polymer: Polymer may be defined as a substance in which many units of a single or two different molecules are united together by a covalent bond. Sodium chloride crystals & liquid water are not polymer. In sodium chloride crystals many molecules of sodium chloride are united by ionic bond & in liquid water many water molecules are united by hydrogen bond. Monomer: The starting molecule from which the polymer molecule is formed is called monomer. Degree of Polymerization: The number of monomer units which are united together to form a polymer molecule, is called degree of polymerization. Degree of polymerization = Moleculer weight of Polymer Molecular weight of Monomer Polymers with a high degree of polymerization is called high polymers & those with low degree of polymerization is called low polymers/oligomers. High polymer have very high molecular weight in which the repeating units are more than 100. Hence high polymers are also called macromolecules. But all macromolecules are not polymers. Such as vitamins & carotene. The main difference between polymers & macromolecules is polymers are composed of repeating units but these macromolecules are not composed of any repeating units. Oligomers/low polymers have repeating unit less than 100. Classifications of Polymer: Depending upon the source polymers may be classified as- 1. Natural Polymer: These polymers are obtained from nature. Example: rubber. 2. Synthetic Polymer: These are manmade polymers. Examples: polyethylene, nylon, terylene, styrene etc. Synthetic polymers are divided into three types: a) Linear Polymer b) Branched Polymer c) Cross Linked Polymer Usually linear & non-cross linked polymers are thermoplastic & cross linked polymers are thermosetting polymers. Depending upon the backbone chain polymers may be classified as- 1. Organic Polymer: Backbone chain is essentially made up of carbon atoms. 2. Inorganic Polymer: Backbone chain is made up of atoms other than carbon atom.
  • 3. Polymer 2 | P a g e a k i b j a b e d s h o v o n @ g m a i l. c o m Depending upon the monomers polymers may be classified as: 1. Homo-Polymer: Polymer molecule consists of a monomer unit only. βˆ’π΄ βˆ’ 𝐴 βˆ’ 𝐴 βˆ’ 𝐴 βˆ’ 𝐴 βˆ’ 𝐴 βˆ’ 𝐴 βˆ’ 2. Co-Polymer: Polymer molecule consists of two or more different monomer units. Co-polymers are divided into two types- a) Random Co-polymer 𝐴 βˆ’ 𝐴 βˆ’ 𝐡 βˆ’ 𝐴 βˆ’ 𝐡 βˆ’ 𝐡 βˆ’ 𝐴 b) Alternating Co-polymer βˆ’π΄ βˆ’ 𝐡 βˆ’ 𝐴 βˆ’ 𝐡 βˆ’ 𝐴 βˆ’ 𝐡 βˆ’ 𝐴 βˆ’ 𝐡 βˆ’ Depending upon the mechanical properties polymers may be classified as- 1. Thermoplastic Polymer: Thermoplastic are those polymers, which become soft on heating & can be given any desired shape. These polymers are able to retain that given shape on cooling. However, on further heating they become soft again with deformation of given shape. Thus the softening on heating & stiffen on cooling can be repeated many times. As a result, thermoplastic polymers may be recycled several times. Examples: polyvinyl chloride, polyethylene, polypropylene, nylon:6,6 etc. 2. Thermosetting Polymer: Thermosetting polymers may be defined as the polymers, which become soft on heating & can be given any desired shape. The shape is retained on cooling. But during heating these type of polymers undergo some chemical changes in their structure & convert themselves into infusible & in soluble masses. As a result, on further heating they never be soft again. Thus thermosetting polymers can’t be recycled. Examples: bakelite, melamine etc. Difference between Thermoplastic & thermosetting polymers: No. Thermoplastic Polymers Thermosetting Polymers 1. Soften & melt on heating & become hard on cooling. The process is reversible. Soften & melt on heating & become hard on cooling. The process is irreversible. 2. Can be moulded, remoulded & reshaped. Can’t be moulded, remoulded & reshaped. 3. Formed by additional polymerization. Formed by condensation polymerization. 4. Structure is generally linear. Structure is generally cross linked. 5. Low molecular weight. High molecular weight. 6. Soft, weak & brittle. Hard, strong & more brittle. 7. Soluble in organic solvents. Insoluble in organic solvents. 8. Can be reclaimed from wastes. Can’t be reclaimed from wastes. 9. Monomers used in these polymers are generally bi-functional. Monomers used in these polymers are generally poly-functional. 10. Example: nylon:6,6. Example: melamine.
  • 4. Polymer 3 | P a g e a k i b j a b e d s h o v o n @ g m a i l. c o m Synthesis of Polymer: Polymer molecules may be synthesized by four different methods: 1. Addition Polymerization. 2. Condensation Polymerization. 3. Ring Opening Polymerization. 4. Oxidative Polymerization. 1. Addition Polymerization: Addition polymerization may be defined as the process in which monomer units are added together to form a polymer molecule without losing any small molecules. For example: Conversion of ethylene to polyethylene. 𝑛𝐢𝐻2 = 𝐢𝐻2 β†’ (βˆ’πΆπ»2 βˆ’ 𝐢𝐻2 βˆ’) 𝑛 Depending upon the mechanism addition polymerization may be classified into two classes. These are- a) Free Radical Addition Polymerization. b) Ionic Addition Polymerization. Whatever the method, the addition polymerization consists of three steps. 1. Initiation. 2. Propagation. 3. Termination. a) Free Radical Addition Polymerization: In this process the initiation of the polymerization reaction is carried out by the formation of free radical. The transformation of the monomer molecule into free radical is done by the action of light, heat or ionizing radiation or by the addition of external substances which are readily decompose into free radicals. Chain Initiation: In chemical initiation method the polymer reaction is initiated by the decomposition of some organic & inorganic peroxides such as benzoyl peroxide, hydrogen peroxide, diazo compound etc. The decomposition is carried out by the application of heat. Chain Propagation: These radicals serve as the active centers & cause chain propagation by combining with monomers.
  • 5. Polymer 4 | P a g e a k i b j a b e d s h o v o n @ g m a i l. c o m Chain Termination: 1. Combination: The union of the two free radicals terminates the chain propagation of reaction. 2. Disproportion: It is the transfer of hydrogen atom from one macro radical to another one to form two macromolecules; one with a double bond at its end & other is a saturated molecule. b) Ionic Polymerization: Addition polymerization can be carried through the formation of ions by using different types of initiators. Depending upon the nature of initiators, ionic addition polymerization may be carried out through the formation of cation or through the formation of anion. In cationic polymerization acids particularly Lewis acids are used as initiators. On the other hand, in anion polymerization bases particularly Lewis bases are used as initiators. I. Cationic Polymerization: Chain initiation: 𝐴(𝐿𝑒𝑀𝑖𝑠 𝐴𝑐𝑖𝑑) + 𝐢𝐻2 = 𝐢𝐻2 β†’ 𝐴: 𝐢𝐻3 βˆ’ 𝐢𝐻2 + Chain Propagation: 𝐴: 𝐢𝐻3 βˆ’ 𝐢𝐻2 + + 𝐢𝐻2 = 𝐢𝐻2 β†’ 𝐴: 𝐢𝐻3 βˆ’ 𝐢𝐻2 βˆ’ 𝐢𝐻2 βˆ’ 𝐢𝐻2 + 𝐴: 𝐢𝐻3 βˆ’ 𝐢𝐻2 βˆ’ 𝐢𝐻2 βˆ’ 𝐢𝐻2 + + 𝑛𝐢𝐻2 = 𝐢𝐻2 β†’ 𝐴: 𝐢𝐻3 βˆ’ 𝐢𝐻2 βˆ’ (𝐢𝐻2 βˆ’ 𝐢𝐻2) 𝑛 βˆ’ 𝐢𝐻2 βˆ’ 𝐢𝐻2 + Chain Termination: 𝐴: 𝐢𝐻3 βˆ’ 𝐢𝐻2 βˆ’ (𝐢𝐻2 βˆ’ 𝐢𝐻2) 𝑛 βˆ’ 𝐢𝐻2 βˆ’ 𝐢𝐻2 + β†’ 𝐢𝐻3 βˆ’ 𝐢𝐻2 βˆ’ (𝐢𝐻2 βˆ’ 𝐢𝐻2) 𝑛 βˆ’ 𝐢𝐻 = 𝐢𝐻2 + 𝐴 II. Anionic Polymerization: Chain initiation: 𝐡(𝐿𝑒𝑀𝑖𝑠 π΅π‘Žπ‘ π‘’) + 𝐢𝐻2 = 𝐢𝐻2 β†’ 𝐡: 𝐢𝐻3 βˆ’ 𝐢𝐻2 βˆ’ Chain Propagation: 𝐡: 𝐢𝐻3 βˆ’ 𝐢𝐻2 βˆ’ + 𝐢𝐻2 = 𝐢𝐻2 β†’ 𝐡: 𝐢𝐻3 βˆ’ 𝐢𝐻2 βˆ’ 𝐢𝐻2 βˆ’ 𝐢𝐻2 βˆ’ 𝐡: 𝐢𝐻3 βˆ’ 𝐢𝐻2 βˆ’ 𝐢𝐻2 βˆ’ 𝐢𝐻2 βˆ’ + 𝑛𝐢𝐻2 = 𝐢𝐻2 β†’ 𝐡: 𝐢𝐻3 βˆ’ 𝐢𝐻2 βˆ’ (𝐢𝐻2 βˆ’ 𝐢𝐻2) 𝑛 βˆ’ 𝐢𝐻2 βˆ’ 𝐢𝐻2 βˆ’ Chain Termination: 𝐡: 𝐢𝐻3 βˆ’ 𝐢𝐻2 βˆ’ (𝐢𝐻2 βˆ’ 𝐢𝐻2) 𝑛 βˆ’ 𝐢𝐻2 βˆ’ 𝐢𝐻2 βˆ’ β†’ 𝐢𝐻3 βˆ’ 𝐢𝐻2 βˆ’ (𝐢𝐻2 βˆ’ 𝐢𝐻2) 𝑛 βˆ’ 𝐢𝐻 = 𝐢𝐻2 + 𝐡
  • 6. Polymer 5 | P a g e a k i b j a b e d s h o v o n @ g m a i l. c o m 2. Condensation Polymerization: Condensation polymerization is the process in which many monomer molecules unite together to form a big macromolecule with the loss of some simple molecules, usually water, carbon dioxide etc. ο‚· Preparation of Nylon:6,6: ο‚· Preparation of Dacron: Difference between Chain Growth Polymerization & Step Growth Polymerization: No. Chain Growth Polymerization Step Growth Polymerization 1. CGP is the formation of polymers from unsaturated monomers. SGP is the formation of polymers from bi- functional or multi-functional monomers. 2. A polymer chain is formed at the beginning by the attachment. Oligomers are formed at the beginning are later combined together forming polymer chain. 3. Unsaturated monomers are used in CGP. Bi-functional & multi-functional monomers are used in SGP. 4. No rapid loss of monomers at beginning. A rapid of monomers at the beginning. 5. An active site can be observed at the end of the polymer chain. All monomers are active themselves. 6. Initiators requires to break the double bond in monomer molecules. Doesn’t require initiators. 7. CGP shows no growth of polymerization after termination. SGP doesn’t show termination. 8. Only monomers & polymers are observed in CGP. Any type of molecule such as dimers, trimers, tetramers & oligomers can be observed in SGP. Nylon 6,6
  • 7. Polymer 6 | P a g e a k i b j a b e d s h o v o n @ g m a i l. c o m Conductive Polymer: Conductive Polymers are those polymers which can conduct electricity. Advantages of Conductive Polymers over Traditional Polymers: ο‚· Can provide electromagnetic shielding of electronic circuits. ο‚· Can be used as antistatic coating material to prevent electrical discharge exposure on photographic emulsions. ο‚· Can be used as hole injecting electrodes for OLEDs ο‚· In use as emissive layer in full color video display. ο‚· Usage on electro luminescent (mobile/telephones). ο‚· Some are promising for field effect transistors. ο‚· Some absorbs microwaves. Difference between Polymers & Macromolecules: ο‚· Macromolecules & polymers are giant molecules both. Some macromolecules are polymer, but not all. Some of them can’t be divided into small unit. ο‚· Polymers are macromolecules with a repeating unit called monomer throughout the molecular structure. But not all macromolecules have a monomer in their structure. ο‚· Macromolecules comprise of both polymeric & non polymeric molecules. But polymer include only polymerized molecules. Living Polymer: A polymer that continues to grow without chain termination steps until either all of the monomers are consumed or external agent is added to terminate the chain. Chain Initiation: π‘π‘Ž + π‘π‘Žπ‘π‘‘β„Žπ‘Žπ‘™π‘’π‘›π‘’ ⇄ π‘π‘Ž+ + π‘π‘Žπ‘π‘‘β„Žπ‘Žπ‘™π‘›π‘’βˆ’ Chain Propagation: π‘π‘Žπ‘π‘‘β„Žπ‘Žπ‘™π‘›π‘’βˆ’ + π‘ƒβ„Ž βˆ’ 𝐢𝐻 = 𝐢𝐻2 β†’ π‘π‘Žπ‘π‘‘β„Žπ‘Žπ‘™π‘’π‘›π‘’ + π‘ƒβ„Ž βˆ’ 𝐢𝐻 βˆ’ 𝐢𝐻2 βˆ’ Polymer Properties & Structure: Isotactic & Syndiotactic polymers are ordered polymer (more crystaline). Atactic polymers are non-crystaline polymers. Natural Rubber – Non crystaline. Gutta Percha – Crystaline.
  • 8. Polymer 7 | P a g e a k i b j a b e d s h o v o n @ g m a i l. c o m Polymer Structure: 1. Primary Structure (Chemical Composition). 2. Secondary Structure. Polymers have high molecular weight, have higher strength.