A Step -by-Step Guide To Soap Making For Beginners


Benefits of Natural Homemade Soap

Melt & Pour Vs Cold Process Soap






Soap Making Tools & Ingredients

How to Make Soap Using Soap Molds Safety Precautions



The fast and easy melt and pour method of making soap is the safest to partake in, because the “tricky” parts are pre-made for you!

The basic principle is melting a pre-made soap base and pouring it into a mold.

Extra ingredients, which are referred to as additives, make melt-and-pour soap the most fun to work with.

Add colourants, moisturizers, fragrances and exfoliants to create unique, artistic bars of soap!

The step-by-step recipe below shows you how to easily and safely make natural soap in just 10 steps!



The melt and pour method of making soap is less complex to partake in, as the basic principle is melting a pre-made soap base and pouring it into a mold. Melt and pour soap is ready to use within hours after being made, and it allows for countless variations of artistic effects that can be achieved with additives. This form of soap-making can be likened to baking a cake with a dried cake mix to which you need add only a few more ingredients to enhance its quality. Working with melt and pour soap means the “saponification process” – the process that converts lye or fats into soap – has already been completed and has yielded a base that is ready to use and personalize.

In order for melt and pour soap base to be produced, the saponification process needs to be complete. This entails mixing an oil or fat, which is known as the “acid” with lye, which is the “base.” The end result is the soap, which is considered to be the “salt.” When the mixture cools, it is poured into a suitable mold to cool and set. Once it has cooled it can be melted again to create several fun and unique soaps.

Melt and pour soap contains a high percentage of glycerin, which means it has a highly moisturizing quality that makes it gentle on skin than major retailers soaps or store-bought soaps. Glycerin is a component of fat or oil and is a natural byproduct of the saponification process. Glycerin is a humectant, which means it attracts moisture and this is what lends soap its moisturizing property. When exposed to humidity, melt and pour soap tends to “sweat,” because the glycerin attracts moisture from the air, so they must be kept as dry as possible on well-draining surfaces.


The difference between Cold Process soap making and Melt and Pour soap making is that in the former process, soap is made from scratch using lye as one of the main components. Lye is not as easily obtained as melt and pour soap bases, because it is only supplied by hardware companies specialized in its proper storage. This process also requires more safety measures such as goggles and gloves due to the caustic nature of the lye in which oils are mixed. On the other hand, melt and pour soap bases are pre-made and sold in blocks that are ready to be melted down to make customized soap. Cold Process soap needs to sit for six weeks in order for it to harden and for any excess liquids to evaporate before it can be used. Cold Process soap also requires a higher skill sets to identify and resolve issues during the soap making process.





To add color to soap, only cosmetic grade colorants should be used, as they are specially designed for use on skin. Some popular colorants include: Oxides and Pigments, Liquid Colorants, LabColors, Color Blocks, Micas, and Clays. When adding mica powders, natural tinting herbs, and ultramarines, it is best to begin adding only 1/8 tsp per pound (0.45kg) of soap. If the mixture appears to be too light, more can be added in small amounts at a time. Soaps that are too darkly tinted might discolor skin.

Colorants include: LabColors, Pearlescent Micas, Natural Colorants (Clays, Herbs) and Pigments (Oxides and Ultramarines).

  • LABCOLORS: These are water soluble concentrated liquid dyes that create vibrant hues. They need to be heated and diluted in water, as they bleed in melt and pour soap. Those that come in glass bottles can be heated in the microwave for about 30 seconds. Those in plastic bottles can be submerged inside the bottle in a bowl of boiled water that has cooled down to 60 áµ’ C (140 áµ’ F). When the dye is heated, pour it into the water. After the dye and water mixture has cooled, a water-soluble preservative may be added to it. While stirring the soap batter, add the water and dye mixture one drop at a time. Below is the LabColor Dilution Chart from Bramble Berry:
LabColor Size Amount of Diluted LabColor (for CP) Amount of Soap – Light Tint Amount of Soap – Deep Tint
small 4 ounces 59 pounds 15 pounds
large 8 ounces 118 pounds 30 pounds
jumbo 50 ounces 737 pounds 184 pounds


  • PEARLESCENT MICAS: These are shimmery powder dyes. Before being added to a melt and pour soap, they should be mixed with a small amount of oil or glycerin or they will not disperse properly and will instead clump in one spot. Another way of implementing micas into soap is by sprinkling small amounts of them between several layers of the soap. They do not dissolve in liquids or mix with other colors, so using them in translucent melt and pour soap means they will give it a bright sparkle and crisp, clean lines.
  • NATURAL COLORANTS (CLAYS, HERBS): are natural and more subdued dyes that do not bleed or fade. They produce soap colors in a range of colors including cream, yellow, gray, green, purple, red, pink and orange. Before adding a clay to soap, it is a good idea to mix it with an equal amount of water until it is liquid, as clays draw moisture into themselves and adding them directly to soap can thus cause the soap to crack or crumble.
  • PIGMENTS (OXIDES AND ULTRAMARINES): These are powdered dyes. They are similar to micas in that they need to be mixed with water before being added to soap. The designs made with pigments will also be vivid and well-defined inside soap.



Moisturizers such as vegetable butters, vegetable oils, and clays can be added as the melt and pour soap base is heated. It might seem counterintuitive to use clay as a moisturizing ingredient, as it is known to have properties that draw out the moisture from the skin, but in its damp phase, it exudes beneficial minerals. The rate of usage for moisturizers is approximately 1 – 2 tbsp per pound (0.45 kg) of soap base.

Adding a moisturizer like Mango Butter will allow your soap to help combat skin irritations such as dryness, fine lines, wrinkles, sunburn, insect bites, rashes and stretch marks. Conditioning butters like Shea and Cocoa provide a creamy lather as well as hardness to the soap. Cocoa Butter helps skin retain moisture and protects it against harsh environmental pollutants by creating a barrier, and it provides soap with the added benefit of its mild, pleasant smell.

Clays such as Rhassoul will not only clean and firm but also condition and nourish the skin.  To add clay to a soap base without causing the clay to clump when it comes in contact with the soap, it must first be made into a paste with distilled water. 0.33 tbsp (1 tsp) of clay can be distilled in 1 tbsp of distilled water. Clays tend to add earthy colors to soaps.



Soaps can be scented with fragrance oils, which are synthetic or with essential oils, which are natural. They are added to melt and pour soap base before it is removed from the stove to be poured into the mold, as these scents will not melt properly in soap that has already cooled. Adding scents at this time helps make them last, although the strength of scents varies from oil to oil. Kaolin clay is a common additive for scented soaps, as it helps the soap retain its aroma by giving the fragrance something to “stick” to. What also helps soap retain its scent is storing the final product in a cool, dry place out of direct sunlight.

Fragrance oils may contain ingredients that have natural colors – vanillin is one example – and the soap color can be affected by these natural colors. In the case of vanillin, it turns soap brown over time. The color of some essential oils might also affect the color of the soap. For melt & pour soap, the recommended amount of fragrance oils is 15 ml per pound (0.5 oz per 0.45kg) of soap, and the recommended amount of essential oils is 7.4 ml per pound (0.25 oz per 0.45kg) of soap.

It is highly recommended that soap makers thoroughly read and understand the vendor’s safety instructions for usage before adding the appropriate ratio of fragrance/essential oils to the soap-making process. It is important to consider how skin will react to the particular essential oils used as well as how they might dissipate in reaction to heat. Skinsational Scents has a number of soap and candles making options for the soap making lovers out there.



Exfoliants are ingredients with textures and properties that lend them the ability to polish dry, dull skin. They work to remove the dead cells on the top layer of skin. To prevent a layer of exfoliating botanicals from forming in the soap, it is a good idea to avoid using too much of the exfoliant and to ensure continuous stirring of the soap batter after the exfoliants have been added. In general, the rate of exfoliant usage is 1 – 2 tablespoons per pound (0.45 kg) of soap. If a coarse, abrasive soap is desired then the amount of exfoliant needs to be higher than this recommended base amount.

  • FINE EXFOLIANTS (E.G. COLLOIDAL OATMEAL, JOJOBA BEADS): These can be added to the soap base after the fragrance is added. The best way to incorporate colloidal oatmeal is to grind it up into the texture of oat flour and to disperse it in a liquid such as oil or water to prevent clumping in the melted soap. Jojoba beads are small, smooth, waxy spheres that provide a gentle exfoliation. As with the oatmeal, they should be incorporated into the soap mix when it is at a temperature between 48 °C – 51 °C (118 °F – 123 °F).  If the temperature is higher than this, both the oatmeal and the beads will float at the top rather than remain suspended evenly throughout the final product. It is best to use just a pinch of beads to begin, as the more jojoba beads that are used, the harder it will be to ensure they are spread out evenly.
  • MEDIUM EXFOLIANTS (E.G. FINE GRAIN DEAD SEA SALTS, SUGAR, SHREDDED LOOFAH): Due to the speed with which soap tends to set when salts are added, it is best to move quickly when adding them to the base and to mix them in well with a spoon. It is ideal to spoon rather than pour the soap into the mold to avoid fast setting. Soaps containing salt need to be cut about an hour after being poured into their molds, otherwise, they crumble when being cut. Sugars can be added when the soap is melted halfway and then stirred in quickly with a spoon until it is completely dissolved. Then it should be mixed with hands into a paste and pressed firmly into molds. Adding sugar has the added benefit of increasing the soap’s lather. It is best to add shredded loofah after the soap has slightly cooled so that the shreds remain suspended in the melted soap. Shredded loofah can be embedded into soap by sprinkling it onto the melted soap in layers inside molds: pour the first layer of soap and allow it to firm up before sprinkling the loofah onto it, and then pour another thin layer of warm soap over that.
  • LARGE EXFOLIANTS (E.G. COFFEE GROUNDS, STRAWBERRY SEEDS): Add the coffee grounds once the soap has become liquid and the heat has been turned off. Then pour the mixture into the molds. After strawberry seeds are added to the melted soap, they should be mixed in thoroughly to promote even suspension throughout the soap. For a more abrasive soap bar, the seeds can be added to just one side of the soap. To start, use 1 – 2 teaspoons per pound (0.45 kg) of soap. Adjust the amount as needed.



  • A clean stretch of countertop or table that would be wide enough to prepare a cake
  • Melt and pour soap base
  • A microwave or stove and double boiler to melt the soap base
  • A sharp knife or dough cutter for cutting enough of the base to fit the desired mold after it is melted
  • A large heat resistant measuring cup that measures 1 liter (4 cups) or a microwave safe bowl in which to place the chopped base for melting
  • A heat-resistant spoon for mixing the base
  • Any kind of heat-resistant mold from which soap can easily be released (avoid using hard plastic or metal, which can react with and discolor soap ingredients)
  • Any additive can be included in a melt and pour soap mixture, including fragrances, colorants, skin care nutrients such as herbs, butters, exfoliants, and sparkles and more.
  • A small spray bottle of alcohol
  1. Sterilize the soap-making area, which should be large enough to prepare a cake mixture.
  2. Cut the desired amount of soap base into small squares. Every pound (0.45 kg) of soap base will yield 4-6 bars.
  3. Place the squares into A) a microwave safe bowl and heat them at short intervals of 15-20 seconds, stirring gently with each heating, B) a double boiler – a saucepan that is half full of water, which is heated until it boils. A second pan containing the chopped soap base is placed inside this saucepan. The heat from the bottom pan is transferred to the second pan and melts the soap base.
  4. With a heat-resistant spatula, stir the melted soap base slowly between each heating to avoid creating bubbles. If bubbles do arise, they can be dispersed with a spritz of alcohol from the spray bottle. Stirring slowly is also conducive to maintaining the right temperature for the soap, as soap bases lose water when heated at too high a temperature.
  5. Remove the soap from the heat source before it is completely melted and continue to stir it until the heat of the mixture is dispersed consistently throughout. At this point, essential oils, fragrance oils, colorants and other additives can be added while the mixture is stirred gently.
  6. Pour the melted soap base into the desired mold, ensuring that it is level. Any bubbles that form can be dispelled with a spray of alcohol. Fragrance oils might cause the soap to “weep,” which means the soap will feel wet and oily, so it is a good idea to do a batch test when using them.
  7. Allow the soap to sit and completely cool inside the mold. This wait time can be a couple of hours long or it can even cool overnight.
  8. Carefully release the soap from the molds onto a clean, flat surface with a tea towel or a paper towel to prevent denting any stubborn soaps stuck inside their molds. If this happens, a soap can be further frozen for 15-30 minutes to for easier removal. After being taken out of the freezer, hold the mold under hot water to melt the coating. The soap should then be easily peeled out.
  9. Any rough edges can be smoothed down with a paring knife and a clean cloth moistened with alcohol.
  10. Allow the soaps to air dry before packaging them, as any moisture trapped inside the packaging can make the soap slimy. Cellophane bags or shrink wrap are ideal for wrapping soap. It is best to wrap soap immediately after it has finished cooling, as this will prevent the soap from shrinking because of evaporated water content.

Before incorporating any additive into a soap recipe, it is important to understand the amount that can be safely used. Too much of an additive might lead to issues such as the breakdown of chemical bonds or it might necessitate the use of preservatives.

Only heat-safe equipment should be used to make soap as the melting temperatures generally reach above 48 C (120 F). When skin is exposed to hot soap, it is painful.

Fresh ingredients such as fruits, vegetables, or milk are best avoided in a melt and pour soap recipe, as they will always spoil eventually.

IMPORTANT: All Skinsational Scents products are for external use only unless otherwise indicated. This information is not intended to diagnose, treat, cure, or prevent any disease, and it should not be used by anyone who is pregnant or under the care of a medical practitioner.


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