The caveman chemisty link
@amd linked above is written by Dr. Kevin Dunn, author of
Scientific Soapmaking: The Chemistry of the Cold Process, so if you read that page 56 that
@amd mentions, I think it is obvious that he is talking about a crystalline structure. And on page 73 of that same link, Kevin says, "The structure of solid soap is similar to that of neat soap, but the fatty tails of the soap molecules are “frozen” in a crystal lattice." That, too is a crystalline structure, as further stated by
@amd above and supported by DeeAnna's explanation that
@MrsZ linked in her response.
So I don't quite understand how a anyone could say, "Just read Scientific Soapmaking" and claim it proves the opposite of what Kevin Dunn says in his other information easily accessible online. I do have his book and have not found a contradiction to what he says on his Caveman Chemistry site. So if they can specify a particular quotation, page and reference in his book, I'd be eager to look it up. ETA: Saying that those 3 things happen as Microchick mentions
above does not preclude the other things that Dr Dunn says in the Kevin Dunn soap lectures I have attended in person & pdf linked by amd in her first post in this thread.
Dr. Dunn has lectured extensively and not everything appears in his book in as much detail, as some of his lectures, so by saying something is disproved by its absence in a given book is ludicrous.
Here are a couple of links that address solids with or without crystalline structure:
https://opentextbc.ca/chemistryatomfirst2eopenstax/chapter/lattice-structures-in-crystalline-solids/https://chem.libretexts.org/Bookshe..._According_to_Its_State-_Solid_Liquid_and_Gas
The second talks about glass as amorphous rather than crystalline. So I suppose an argument could be made that soap is an amorphous solid like glass rather than crystalline solid, but even Kevin Dunn talks about the crystalline structure in the pdf
@amd linked, so I am not sure that would reconcile. However, it is possible to convert a crystalline solid to an amorphous solid according to Britannica and other sources, and heat is part of that process. So I suppose that solid soap could become amorphous after the crystalline phase given sufficient heat.
Here is a
link that shows how amorphous solids break versus how crystalline solids break, and I did once have a soap that fit that criteria quite dramatically. But does it all? I am not at all sure. I believe that one soap that broke like Obsidian (volcanic glass, an amorphous solid) breaks had something to do with the ingredients and how long I waited before attempting to cut the soap. But then, maybe that is a clue? I am unsure.
Although I am not a chemist, I am aware that something can start out with crystalline structure and end up amorphous solid and that amorphous solids can also be converted to crystalline solids (
link). So is solid soap one of those things? Does it start out crystalline and stay crystalline? Or does it start out crystalline and become amorphous? Or are both or either possible depending on conditions? In the NIH article that I linked (a couple of sentences back), it states that both can co-exist, so could that be the case with soap?
I suppose that all are possible, but is it really that crucial to know or argue about? Maybe for the nit-pickers.
