Soda Ash: The Rustic Patina of Handcrafted Soap

Soda Ash

If you’ve encountered a white powdery residue on the surface of your homemade soap, you are not alone. Many soap crafters experience this annoying quirk of their bubbly creations. In soap makers lingo, this light-colored or white chalky cast on soap surface is referred as soda ash.

Soda ash is nothing but a harmless idiosyncrasy of some cold processed soaps.

Many homesteaders like this rustic patina that adds authentic charm to homemade soap bars. Some soap makers, however, prefer glossy and colorful bars of soap. Soda ash can be a bane peculiarity making soap less aesthetic and not very presentable to potential buyers.

The conventional soda ash is a chemical compound called sodium carbonate (Na2CO3) also known as washing soda.

Washing Soda Box

Soap makers speculate that soda ash on their soap bars may be the true soda ash, or it may be some other salts, or soap crystals. Most likely soda ash on soap is a combination of all of the above.

I have never detected soda ash (sodium carbonate), or baking soda (sodium bicarbonate), or sodium hydroxide when I test my soap bars with this white layer.

A simple vinegar test I describe in the following post, confirms absence of soda ash in my soap. I do not discount the fact that some soap makers do have soda ash in the layer. I have never detected it.

Kevin M. Dunn in “Scientific Soapmaking: The Chemistry of the Cold Process” describes the term “soda ash” as either sodium carbonate, or soap crystals, or even sodium hydroxide (excess lye).

Excess lye must be ruled out if you see soda ash on or in your soap.

Soda Ash Forming

Soda ash forms while soap is incubating in the mold or curing. If your goal is to avoid soda ash you may want to explore possible origins of this harmless, but unsightly phenomenon.

Unmolded soap

Possible components of soda ash are soap crystals, soda ash, and other salts.

Soap Crystals

Susan Miller Cavitch proposed her theory of soda ash in “The Soapmaker’s Companion”. According to Cavitch, the hygroscopic* glycerine in handmade soap attracts water from the air to the soap surface. Soap particles dissolve in water and dislodge from the rest of the bar. When the separated soap particles dry, they crystallize forming the powdery appearance.

* Hygroscopic substance attracts water molecules from the environment. Glycerine molecules have polarity so are the water molecules. Because of their polarity, glycerine attracts water. Hygroscopy makes glycerine an excellent skin moisturizer. You can read more about hygroscopy in Wikipedia.

Soda Ash on Soap

True Soda Ash

Soda Ash Powder

Some soap makers believe that when soap is in the molds or when it’s curing, a small portion of free sodium on the soap surface reacts with carbon dioxide in the air forming sodium carbonate or true soda ash. This is unlikely because saponification is almost complete and irreversible at the time of trace.

Sodium will not free itself from the soap salts under normal conditions. There is not enough free sodium in the soap and not enough of carbon dioxide (at 0.04% in the air) to form any significant soda ash on the surface.

Sodium carbonate and other salts may form during early stages of saponification before trace. A small portion of sodium, released from lye, may react with carbon dioxide from the air mixed in by an immersion blender. Sodium carbonate, sodium bicarbonate, and other salts are possible in minute amounts.

Other Salts

Similar to the formation of soda ash, other salts may form before trace.

These salts form because the oils, fats, and water used to make soap are not pure. They contain minerals and many impurities that also react with sodium from lye and with each other.

Soda ash is not just a simple and pure chemical compound. It is a combination of salts formed in the soap and brought out to the surface as well as soap crystallization associated with moisture in the air.

Surfacing of the Salts

How does soda ash get to the surface of the soap bar?

Soap in the mold and while it cures contains water. Water evaporates from the soap as the soap hardens. Salts are water soluble. When water moves to the surface, it carries salt molecules with it. When water reaches the surface, it evaporates leaving concentrated salt deposits.

Soap works like a filter. Surfacing of the salts depends on how dense this filter is. When the density of soap is low, salts are carried out by the water very easily and get deposited on the surface forming soda ash. When soap is dense, it hinders salt molecules from moving all the way to the surface. Water escapes before salt reaches the surface. And soda ash does not form.

Low soap density is not the only factor for soda ash. Formation of this soap veneer depends on many conditions. Let’s take a look at some reasons that soap makers found to cause soda ash.

Possible Reasons for Soda Ash

Soap Recipes, Additives and other Ingredients

Physical and Environmental Causes

Some Ways to Prevent Soda Ash

You may take all measures to avoid soda ash, but it still shows up on your soap. There are ways to remove the unsightly overlay.

Removing Soda Ash

Soda ash is water soluble. You can carefully wash it off with water, rubbing alcohol, or steam. You can scrub it off with try cloth or scrape it off with a knife or veggie peeler.

My personal preference is to avoid soda ash. Removing it can be messy and damaging to the surface of the soap. If I have a batch with soda ash, I use it at home, or shave it to make laundry detergent. My goal is to modify my recipes so that I don’t have soda ash. And then I can give the pretty soap to my family, friends, and neighbors.

Handmade Soap