What is gel phase in soap making

Has your cold process soap ever looked gelatinous after a few hours in the mold? It’s likely going through gel phase. That’s a part of the saponification process where the soap gets hot – up to 82 °C. It doesn’t affect the quality of the final bars, but it does affect the way they look.

You can choose whether to force gel phase based on your recipe and personal preference.

Forcing gel phase

There are a few reasons you may want to gel soap:

  • You want vibrant colors. Gel phase helps the colors pop and it gives the bars a slightly shiny appearance. Learn more about how to color handmade soap here.
  • You’re using natural colorants. Without gel phase, they can have a dull appearance and a different hue. For instance, gelled soap colored with madder root powder has a deep red hue. The ungelled version is a muted mauve. See both versions in this post.
  • You’re using LabColors. Gel phase makes them brighter and ensures they’re true to color
  • You’re in a hurry. Because of the higher temperatures, gelled soap hardens and unmolds more quickly. The soap still needs to cure for 4-6 weeks.

Warm temperatures are key to forcing gel phase. Start with your lye and oils around 50-55 °C. Once the soap is in the mold, cover it with a cutting board and then a towel or blanket.

If your soapmaking area is cooler, you can place it on a heating pad set to medium. Check it after 30 minutes to make sure it’s not overheating – that can cause volcanoes, heat tunnels, or glycerin rivers. If it’s getting too hot, turn the heating pad off and remove the blanket. If not, leave it on for another 30-60 minutes. Then, turn the heating pad off but leave the soap on it overnight. Learn more about how to insulate soap here. 

Preventing gel phase

Here’s why you might want to prevent it:

  • You prefer matte soap. Ungelled bars look creamy and have pastel colors that some makers love.
  • You’re making cold process soap with milk. It can scorch if it gets too hot, which causes discoloration and an unpleasant smell. That can also happen with alternative liquids like coffee, wine, tea, etc.
  • The same goes for soap made with additives like fruit or honey. We recommend keeping the temperatures low to prevent scorching.
  • You’re working with soap frosting. If it gets too hot it may not hold its shape.

This Pure Honey Soap is kept cold to prevent scorching.

To keep your soap cool, start with your lye and oils around 32-37 °C. Once it’s in the mold, put it in the fridge or freezer for 24 hours. You can also put the soap  in a cool area like a garage or basement and run a fan over it.

The third option is to leave your soap uncovered at room temperature. It may gel or not, depending on oil and lye temperatures and how warm the space is. That can sometimes result in partial gel phase, where one area of the soap (typically the middle) is slightly darker than the rest. Again, that only affects the look of the bars – they’ll still feel great on the skin.

These bars only gelled in the middle, which caused the color difference.

As with everything in soapmaking, the best way to find out what you prefer is to experiment. Try all three methods and then choose your favorite.

Leave a Reply

Your email address will not be published. Required fields are marked *