Does anyone titrate their soap using the total alkali test from Scientific Soapmaking to learn exactly how much acid to add in order to neutralize any potential free alkali?
I've noticed that, when using citric acid, things aren't so simple. If using HCl, the test is straightforward and linearly applicable. With citric acid however, the base logic doesn't quite follow (a 2g sample of soap might require 1g of 0.5% citric acid, but the entire stock of product, say 2000g, will not require 1000g of acid, but rather 1500g (subsequent tests still yield alkaline (pink sample) soap, instead of being neutral)). As a consequence you need to test and neutralize your batch like 3 times before the sample finally stops being pink.
With HCl, the test and bigger batch neutralization was completely linear. 2g-1g meant 2000g-1000g. The very next test after the first yields a colorless solution.
Any ideas as to why that is? Not a chemist, but I suspect it is due to using a weak acid to neutralize a strong base.
Are buffering agents present or formed? Can this be the reason?
I've noticed that, when using citric acid, things aren't so simple. If using HCl, the test is straightforward and linearly applicable. With citric acid however, the base logic doesn't quite follow (a 2g sample of soap might require 1g of 0.5% citric acid, but the entire stock of product, say 2000g, will not require 1000g of acid, but rather 1500g (subsequent tests still yield alkaline (pink sample) soap, instead of being neutral)). As a consequence you need to test and neutralize your batch like 3 times before the sample finally stops being pink.
With HCl, the test and bigger batch neutralization was completely linear. 2g-1g meant 2000g-1000g. The very next test after the first yields a colorless solution.
Any ideas as to why that is? Not a chemist, but I suspect it is due to using a weak acid to neutralize a strong base.
Are buffering agents present or formed? Can this be the reason?
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