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Specialty Chemistry Forums => Materials and Nanochemistry forum => Topic started by: Rayan on November 06, 2007, 02:57:17 PM

Title: radical polymerization
Post by: Rayan on November 06, 2007, 02:57:17 PM
Hello,
I hope i'm posting this in the right form..
Well i'd like to ask about the kinetics of a radical polymerization; i found in my course that we suppose that the rate of formation of the free radicals is equal to their rate of consumption, and that's because the terminating constant is much greater than the initating constant.
Here's my question: if the terminating constant is much bigger then the initiating constant, then why do polymerization still occur?
thanks in advance

ps: i hope i'm speaking correct english. i had trouble translating this from french..
Title: Re: radical polymerization
Post by: Mitch on November 06, 2007, 03:14:29 PM
Because the polymerization is not reversible
Title: Re: radical polymerization
Post by: agrobert on November 06, 2007, 07:54:47 PM
Also, not all termination steps are unfavorable.  For example in radical chlorination Cl. can attack Cl. but Cl. can be regenerated from Cl2.
Title: Re: radical polymerization
Post by: Rayan on November 11, 2007, 12:24:51 PM
are there any other factors that also affect the polymerization?
Title: Re: radical polymerization
Post by: P on November 13, 2007, 06:19:01 AM
Here's my question: if the terminating constant is much bigger then the initiating constant, then why do polymerization still occur?
thanks in advance

To terminate the radicals have to collide with each other - if two radicals meet then they will terminate.  Until they actually meet however (conc. is low compared to the monomer) they will whizz around reacting with monomer until two radical chain ends come into close enough proximity for a termination reaction to take place.

are there any other factors that also affect the polymerization?

look up chain transfer.

PS: Some factors which effect polymerisations are: Temp, Solvent Conc., type of solvent, atmosphere (some need to be oxygen free and thus are degassed first).