polymer
classified as synthetic, inorganic or organic based on their source or composition
number of different monomers can be combined to make copolymers => different arrangements possible
large molecule, often out of 1000s small molecules together, ti form a macromolecule
Forms of Polymerization:
reaction that breaks bonds from monomers to link them
addition polymerization: with double bonds possible
Polyethylene
condensation polymerization: reaction that joins monomers with loss of small molecules (H2O, HCl, NH3)
nylon out of adipic acid and hexane diamine
lactic acid
PET from ethylenglycol and terephtalic acid
Properties of Polymers
different sizes (sometimes not easy to control)
different properties due to large molecular weight but in general stable! => ultra high molecular weight polyethylene is used for garbage bins due to its exceptional abrasion resistance
linear, branches, cross linkes
enzymes cant break all of them (e.g. starch yes in humans, cellulose not)
H-bondings: tensile strength (nylone)
most insoluble in water
little to no reactivity
some elastic
Thermoplastics
type of materials can be melted and shaped into different objects (bags, bottles, pipes)
shaping and reheating for finite number of times => recycling)
e.g. HDPE (linear) or LDPE (brnached), PLA (polylactic acid)
Elastomers
lightly crosslinked rubber => elastic
can be stretched to many times their original length and can bounce back into their original shape without permanent deformation => go back to higher entropy
Tg < TR
polyisoprene, natural rubber, polybutadiene
Thermoset
vulcanized rubber
sulfur for crosslinking polymer chains => stronger rubber that is not tacky when reheated
shaping and reheating is only once possible (cause S-S-double bonds break)
amorphous polymer has to have a glass transition temperature higher than room temperature
TG > TR
Polymer additives
additives are small molecules that are added to polymers to change their properties
added during the polymerization reaction of manufacturing process
colourants: dyes or pigments used to add colour
flame retardants: compounds that help to minimize the flammability
most polyaromatic, able to do H-Bonds
plasticizers: compounds that are added to improve flexibility
stabilizers: aid in preventing degradation when the polymer is exposed to sun light, heat, oxygen
fillers: help to improve mechanical properties such as strength or throughness
processing compounds: aid in manufacturing, prevention of mold or blowing agents
Triple bottom line
social, environmental and financing accounting framework for assessing financial benefits, social impact and environmental imapct
cradle-to-cradle
resources are used again, instead of throwing them away
environmentally-friendly products, can be composed
resources: sugar cane, sugar beets => fermentation => lactic acid => PLA pellets => use of coffee capsules => compost => CO2, H2O, biomass
increase reuse, recycling, green chemistry
Compostable and biodegradable
compostable
needs composting conditions like humidity and temperature
aerobic microbial degradation
yields CO2, H2O, inorganic compounds
no toxic residue
biodegradable
degradation results from the action of microorganisms like fungi, bacteria, algea
anaerobic: CH4, H2O, biomass
aerobic: CO2, H2O, inorganic compounds, biomass
reasons why not recycling?
no mechanical or chemical ways to separate different polymers, additives in the products => multilayer polymers
costs
may be more expensive to recycle (co2 emissions, emissions from cleaning,transport processing of polystyrene containers, processing)
new innovations
plastic-to-oil-pyrolysis
larvae to eat plastic
politics: prohibit use of plastic
self-repairing plastics
bubbles in the plastic expand to press materials back to its form
conduction polymers: conduct electricity: delocalized electrons in rings
Synthetic polymers example
nylon, polyethylene, polyester, teflon, epoxy
inorganic polymers
doesnt include carbon atoms in the backbone
polysulfides (S-S), polysiloxanes (Si-O), polysilanes (Si-Si)
organic polymers examples
from natural sources
carbohydrates: starch, cellulose
proteins
nucleic acid
lipids
Copolymers
a number of different monomers can be combined to make copolymers
addition copolymerization of monomers X and Y can result in different arrangements of monomers
Sources for monomers
e.g. petroleum
plants (natural products) => can be monomers or polymers
then: purification and reactions => polymer
polymer additives - colourant
polymer additives - flame retardants
Nomex: has amide bond => that is capable of doing H-bonds
Polymer additives - plasticizers
Polymer additives - stabilizers
Polymer additives - fillers
Polymer additives - processing compounds
substances/compounds that are added which aid in manufacturing, prevention of mild or blowing agents
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