Sir the concept of plasticizers and crosslinking is opposite in the sense one keeps the chain separated and the other crosslink between the chain, however, both positively contribute to polymers. How is it possible?
Brittleness is not simply correlated with amorphous structure. Yes, ordinary soda-lime-silica glass is amorphous and brittle. But most ceramics, say SiC for example, are crystalline and brittle. And metallic glass is ductile despite being amorphous.
@Vishal Dolas I think temperature must play a role. However, structure of silica glass cannot be described in terms of chains as in the case of polymers.
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Amazing teacher
Sir the concept of plasticizers and crosslinking is opposite in the sense one keeps the chain separated and the other crosslink between the chain, however, both positively contribute to polymers. How is it possible?
thanks a million sir
if the specific volume of the polymer is decreased...what happens to the degree of
crystallanity?
Thank you
Nice explanation....tq sir😊
very helpful
thnkkkuuu
Sir, In crystal structure amorphous is a brittle. (e.g) glass. But in polymers is amorphous leads to brittleness??
Brittleness is not simply correlated with amorphous structure. Yes, ordinary soda-lime-silica glass is amorphous and brittle. But most ceramics, say SiC for example, are crystalline and brittle. And metallic glass is ductile despite being amorphous.
@Vishal Dolas I think temperature must play a role. However, structure of silica glass cannot be described in terms of chains as in the case of polymers.
Nice
Thanks sir.
Thank you sir
Thanks sir
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Thank you sir
Nice
It is very good.
Plz make more vedio on polymer science. It is very useful for students