![superduper backup coupon superduper backup coupon](http://static.cb-content.com/mycontent/882/TI2015_affiliate_banners_300x250_16.png)
In other words, the total makeup of the lye mixture is 1 part lye to 2.3 parts water.
![superduper backup coupon superduper backup coupon](https://qph.fs.quoracdn.net/main-thumb-613254-200-XTKlvTN5QCd3c3CB7MQ9G7EkpyrDGZgk.jpeg)
A common dilution rate is 30% lye and 70% water. The important part of determining how much water to use in your recipe depends on the ratio of lye to water you prefer. Remember, the lye solution is created by dissolving and diluting lye into distilled water. The amount of water in a recipe is determined by the amount of lye, not the amount of oils in your recipe. Other lye/soap calculators may give a slightly higher or lower amount. Water is roughly 22% of the total recipe (oils + lye + water) when calculated with the Bramble Berry Lye Calculator. In fact, if you plug in your recipe of soap making oils into various lye calculators, you may end up with slightly different amounts. Technically, there is not an “absolutely correct” amount of water to use in your soap recipe.
![superduper backup coupon superduper backup coupon](https://freebies2deals.com/wp-content/uploads/2018/06/ip-46.png)
Water discounting a recipe can cause the soap to accelerate, resulting in a thick trace.
Superduper backup coupon full#
If you’re looking for more information, the All About the Trace post is full of tips and photo examples of thin vs. I generally recommend water discounting for more advanced soapers who are prepared to work with a faster moving trace. If your recipe contains a large amount of hard oils or an accelerating fragrance oil, you may want to avoid water discounts. In this post, Clara demonstrates wonderfully how soap is affected by water content.īecause a water discount causes the soap to accelerate faster, water discounts can make a recipe difficult to work with. A fantastic (and beautiful!) demonstration of this is shown in The Ghost Swirl by Clara of Auntie Clara’s Handcrafted Cosmetics. The water content also affects when soap goes through gel phase and how it reacts to heat. This is because the lye solution is more concentrated, which speeds along the emulsification process.
![superduper backup coupon superduper backup coupon](https://i.pinimg.com/originals/a1/da/2f/a1da2f0c7cfe5ca04bb10b85c8a9cf70.jpg)
Generally, the more a recipe is water discounted, the faster the soap thickens. The trick is that water discounting a soap recipe can cause the soap batter to thicken quickly. You may be thinking, “ If there are so many great reasons to water discount, why don’t soapers do it all the time?” Some soapers do choose to water discount with every recipe.
Superduper backup coupon how to#
Learn more about how to avoid glycerin rivers here. Water discounting is a great way to avoid glycerin rivers (shown above). Water discounting has plenty of benefits. In addition, water discounting affects the temperature at which soap goes through gel phase. Using less water can reduce the chance of soda ash and glycerin rivers. Soapers may also choose to water discount if the recipe contains additives that naturally contain water, like fruit or vegetable purees. Using less water also results in a shorter curing and drying time, as there is less water to evaporate from the soap. Water discounting helps the soap release from the mold faster. Using less water than originally called for in a recipe is known as a “water discount.” There are several reasons why you may want to water discount soap. You may also choose to “water discount” the recipe and use less than what is called for. If you’re unfamiliar with how the saponification process works, click here to learn more about the balance of lye and oils. How much water you use in your soap will depend on the calculator you use. Water is used to dissolve the sodium hydroxide lye so it can interact with the soaping oils to begin the saponification process. As the soap cures, some of the water evaporates and makes a harder, longer-lasting bar of soap. Water and lye are crucial components of cold process soap.