HOW TO MAKE SOAP
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Copyright 1995 Elaine C. White. All rights reserved.


So, you want to make soap?

Good! I'll try my best to tell you how. I'm Elaine White, author of "Soap 
Recipes: Seventy tried-and-true ways to make modern soap with herbs, beeswax and 
vegetable oils" These instructions are very condensed and cannot possibly 
contain the details included in "Soap Recipes."

Nonetheless, I believe you will have a good overview after you read these 
instructions. Once you learn basic safety precautions, soapmaking procedures and 
terminology, you will be able to make soap from any recipe. The outline for 
these instructions is:

A) Safety precautions in handling lye, lye/water and freshly-made soap
B) The equipment list
C) The procedure of combining ingredients and molding soap
D) Herbal soap
E) Superfatting soap
F) US Soapmaking suppliers
G) Soap recipes
H) Blender soap

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A) Locating lye and safety precautions in handling it.

(The following may frighten you, but I promise that thousands of people make 
soap everyday without mishap. You need to know all the dangers present in order 
to avoid trouble. If you can get past the following warnings--you are destined 
to make soap!) Look where drain cleaners are sold and buy 100% lye (Red Devil is 
one brand). Don't bother looking at liquid drain cleaners and don't try Drano 
(it contains metal). If you aren't sure the product is 100% lye, then order lye 
from a soapmaking or chemical supplier (addresses listed). Most good soap 
recipes list lye by weight for accuracy: lye in granular form (drain cleaner) 
measures differently than lye in flake form (the form of lye from laboratory 
chemical suppliers, pool chemical suppliers, etc). Scales are a necessary part 
of successful soapmaking and allows you to use any type of lye. Lye can be nasty 
if handled improperly. Lye (sodium hydroxide) is also known as caustic soda. 
Upon opening a container of lye, the lye crystals absorb water from the air, 
which can weaken the strength of the lye and cause it to form a solid lump. When 
not in use, keep lye closely capped. Lye reacts with some metals: aluminum, 
zinc, and tin. Safe containers include heatproof stoneware, glass, enamel, 
stainless steel and plastic. Lye can be fatal if swallowed. 

Lye can remove paint. If lye, lye/water or freshly-made soap splatters onto a 
painted surface, wipe it off immediately. Wash the area with water and 
detergent; wash it with clear water, then wipe it dry. Lye, lye/water and 
freshly-made soap can burn and irritate skin. You'll notice itching before 
burning. Lye/water on skin is first noticed by a slippery feeling. Rinse your 
hands with vinegar and immediately rinse them with running water. Since lye can 
burn skin, you can imagine what it does to eyes. It's difficult to rinse your 
eyes while they're burning and you can't see. This painful and dangerous 
situation in entirely avoidable. Always wear eye protection! 

You may wonder why anyone wants to bathe with soap that contains something as 
harsh as lye. Well, the good news is that soap is *made* with lye, but soap 
doesn't *contain* lye. Lye reacts with fats, creating roughly three molecules 
soap and one molecule glycerin. The lye is no longer present--only great soap 
and glycerin. 

*NOTE: If  you have small children, keep lye (and essential oils) in a *locked* 
cabinet. Lye/water sitting at the edge of a counter can easily be reached by 
children and even swallowed. Drinking lye/water is like drinking liquid fire. 
Anyone ingesting lye/water should immediately be taken to an emergency room for 
treatment! Like I said: everyday, thousands of people make soap without mishap. 
In order to do so, you must be aware of all safety hazards. Children and feeble-
minded people should not be in the soapmaking area or have access to stored 
soapmaking ingredients, especially lye and essential oil.

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B) The equipment list:

* one 4-to-6 cup mixing container made of lye-resistant material
   (I use a stainless steel mixing bowl)
* one heatproof container that holds at least 2 cups
   (I use a Pyrex measuring cup)
* stainless steel, plastic, wooden spoon or a rubber spatula
* two thermometers made of glass or stainless steel
  (candy and meat thermometers work well)
* eye protection (wear sunglasses if you have to!)
* rubber gloves (optional)
* scale to weight the fats and lye
* soap molds (any flexible plastic container works well)
* a clock with a second hand or other type timer
* wire whisk (optional)
* pot holders or oven mitts
* measuring spoons

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C) The procedure

1) Put the fats in a lye-resistant container and place a glass or stainless 
steel thermometer into the fats. Be sure the thermometer doesn't touch the 
bottom of the container and give a false reading. Heat the fats and optional 
ingredients to the temperature specified in the recipe.

2) Put on eye protection and rubber gloves.

3) Use a heat-proof container to measure the amount of cold water (70 to 75 
degrees F) specified in the recipe. Cold water is important. If you add lye to 
hot or boiling water, the water could "boil-up" out of the container; if you add 
lye to *really* cold water, the lye/water might not reach the high temperatures 
required to make some recipes. Stir the water and slowly add the lye. The water 
will get hot and turn cloudy. Continue to stir until the lye dissolves. Don't 
breathe or intentionally smell the fumes coming from the cup because they are 
quite "chokey." If you wait too long to stir the water, the lye could harden in 
the bottom of the container. This is not a problem. You can still stir it, but 
it will be more difficult. Add a glass or stainless steel thermometer to the 
lye/water and wait until it reaches the temperature specified in the recipe. 
(Note: Some people are extremely sensitive to fumes which come from the 
lye/water. The fumes which come from small batches (1 pound) isn't a problem. Be 
aware than larger amounts of lye (larger batches) creates more fumes, which, 
with prolonged contact, can burn eyes and skin of sensitive people.)

4) When both the fat and the lye/water reach the temperature specified in the 
recipe, add the lye/water to the fat. It's sometimes a balancing act to get the 
fat mixture and the lye/water mixture to specific temperatures at the same time. 
Never place lye/water in a microwave (the cup could break). It takes lye/water 
longer to cool than it takes fat to heat. Most soapmakers wait for the lye/water 
to cool to about five degrees above the desired temperature, then heat the fat. 
When both the lye/water and the fat are within five degrees of the temperatures 
specified in the recipe, use a pot holder and move the bowl to a sink (to 
contain splatters). Slowly pour the lye/water into the fats while stirring. 
(Note: Temperatures for small one-pound batches of soap poured into individual 
molds aren't critical. As long as the lye/water and fats are between 120 and 140 
degrees F you will have good success. Larger batches or batches poured into a 
single mold, require the lower temperature range.)

5) Stir the soap until it "traces." When lye, water and fat first combine, the 
mixture is thin and watery. Gradually, as the lye and fat react chemically to 
form soap, the mixture thickens and turns opaque. "Tracing" is a term to 
describe the consistency (thickness) of soap when it's ready to pour into molds. 
To test for tracing:
 a. Drip some soap onto the surface of the soap in the stirring bowl. It should
leave a "trace" or small mound.
b. Draw a line in the soap with a spoon or rubber spatula. If a "trace" of the 
line remains for a few seconds, the soap has traced. Tracing is easy to 
recognize, yet it causes new soapmakers a lot of worry Relax and know that the 
soap will trace eventually. Just stir the soap constantly for the first 15 
minutes or so, then stir the soap every fifteen minutes until it thickens and 
traces, no matter how long it takes.

6) After the soap traces, add up to one tablespoon essential oil (if desired) 
and stir a few minutes longer to incorporate the oil. About the only soap that 
remains totally scent-free is the Pure Soap Recipe that follows. Other fats 
result in soap that has a "fatty lye" smell. Essentials oils are necessary for a 
pleasant-smelling product.

7) Pour the soap into molds and wait for it to harden.

8) Unmold the soap, Soap is still harsh when it's time to remove it from the 
molds. Put on rubber gloves and press the back of each mold compartment to 
release the soap. It's a lot like removing ice cubes from a tray. Sometimes the 
soap doesn't release easily from the mold. To overcome this problem, leave the 
soap in a freezer for a few hours. Freezing soap causes it to contract slightly, 
become hard and release from the plastic mold.

9) Wait the time specified in a recipe for the soap to "age." (usually 3 weeks). 
During the aging time the pH of the soap decreased (the soap becomes mild) and 
the bars harden. It's a good idea to write the following information on a piece 
of paper and place it with the soap: the date you made the soap, the date the 
aging time is over, and the recipe name.

10) Step 10 is *enjoy your soap!*

As soap ages, a fine, white powder may appear on the surface. This is soda ash 
(sodium carbonate) formed by a reaction of lye with carbon dioxide in air. This 
white powder is mostly on the surface exposed to air while the soap was in the 
molds. Soap that contains wax develops little or no soda ash. There are three 
ways to deal with soda ash:
a. Try to prevent it. Immediately after pouring soap into molds, cover the soap 
with plastic wrap or waxed paper. Press the wrap or paper onto the surface of 
the soap to prevent air contact.
b. Cut it away. Overfill the molds slightly. Later, when the soap hardens, take 
a knife and cut the soap level with the mold. This also cuts away the soda ash.
c. Wash it away. Wait until the soap ages and hardens. Wash the powder away by
rubbing the soap with your hands under running water or by rubbing the soap over 
a wet dishcloth.

Set the soap aside to dry----then, *enjoy your soap!*

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D. Herbal soap

You can replace the water in soap recipes with herbal tea, but to be honest, 
most of the properties (color and fragrance) are lost. The best way to use herbs 
in soap is to add dry, finely powdered herbs to the fats before adding the 
lye/water. Use anywhere from 1 tablespoon to 1/4 cup dried herbs to 1 lb soap. 
Coarsely ground herbs should be restricted to about 1 or 2 tablespoons per lb 
soap because they contribute a coarseness to the soap that sometimes makes it 
uncomfortable during use. The nicest way to add properties of herbs to soap is 
the addition of pure essential oils. Most soap develops a "lye/fat" odor, which 
essential oil prevents. Use anywhere from 1 teaspoon to 2 tablespoons essential 
oil per lb soap (depending on the strength of the oil). Color is an illusive 
thing as far as soap is concerned. Natural colors can be obtained by adding 2 
tablespoons red clay, Calendula petals, or palm oil from Lorann Oils (yellow).

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E. Superfatting soap

The following recipes have the exact amount of lye to make soap that contains 
very little excess fat. This soap leaves skin perfectly clean and smooth 
feeling. Some people like excess fat in recipes. For this I recommend 2 to 4 
tablespoons castor oil added when the soap traces. Castor oil is emollient and 
contributes to soap lather. Adding castor oil after tracing along with 1 
tablespoon essential oil also seems to help retain the soap fragrance. To 
superfat with other fats, you can subtract about .2 oz weight lye from one lb 
batches of soap recipes which allows excess fat to remain.

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F. Soapmaker's supply list (United States)

Barker's Enterprises, Inc.
15106 10th Ave SW
Seattle WA 98166
Telephone: 206-244-1870
retail/wholesale: waxes, molds and candle dye (which works for soap)

Chem Lab Supplies
1060 Ortega Way, Unit C
Placentia CA 92670
Telephone 714 630-7902
Fax  714-630-3553
retail: pH kits, electronic scales, lye

Hagenow Laboratories, Inc.
1302 Washington St
Manitowoc WI 54220
No telephone, correspond by mail and request catalog lye, waxes, clays, 
essential oils, thermometers and pH kits

Liberty Natural Products
8120 SE Stark St
Portland OR 97215
1-800-289-8427
$50 minimum order retail/wholesale same price essential oils, soapmaking fats, 
herbs, clays, etc.

Lorann Oils
4518 Aurelius Rd
Lansing MI 48909
Telephone 1-800-248-1302
retail/wholesale: essential oils, fats, candy molds, waxes The powdered food 
coloring these folks recommend for soap doesn't work. Don't buy it.

Pourette Soapmaking Supplies
6910 Roosevelt Way NE
Seattle WA 98115
Telephone 1-800-888-WICK (9425)
retail/wholesale molds, wax (request *soapmaking* price list as it's different 
than their regular catalog, which contains candle molds) Their dye once worked 
great in soap and is recommended in the "Soap Recipe" book.. Pourette changed 
the dye and what they sell now DOESN'T  WORK!--don't buy it!

Sunfeather Soapmaking Supply
HCR 84 Box 60-A
Potsdam NY 13676
Telephone 315-265-3648
retail only: lye, fats, soap fragrance, soap color

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G) Now, the moment you've been waiting for--the recipes!

Ounces (oz) are determined by weight unless otherwise stated.
Lye is "sodium hydroxide technical grade" granular or flake form.

Soap I -- Pure Soap (the only recipe I've discovered that remains scent-free and 
doesn't require essential oils) A bit harsh for bath soap, but great for 
cleaning, washing dishes, delicate laundry, etc. Great lather and no fragrance..

16 oz coconut oil
2.8 oz lye
1 cup water (8 fluid ounces)
Fat and lye/water temperature about 120 degrees F
Estimated tracing time: 1 1/2 hours
Time in molds: 48 hours
Age: 6 weeks
Soap II -- Pure Soap Mink Oil Shampoo

16 oz weight coconut oil
1/2 cup mink oil or (4 T. Castor oil)
2.9 oz lye
1 cup water (8 fluid oz.)
Oil room temp

Mix and use lye when the water turns clear. Put all ingredients in the blender. 
Follow the instructions for "Blender Soap" Don't let this soap trace. Process 
until the mixture is smooth (no oil streaks) and pour it into molds. Leave in 
molds 2 days, freeze soap 3 hours to release it from the molds.
Age 3 weeks.


Soap III

6 oz coconut oil
6 oz olive oil
5 oz vegetable shortening
2.6 oz lye
1 cup water (8 fluid ounces)

Fat and lye/water temperature about 120 degrees F.   Time in molds: 48 hours
Age: 4 weeks


Soap IV

9 oz vegetable shortening
4 oz coconut oil
3 oz lard
2.4 oz lye
3/4 cup water (6 fluid ounces)

Fat and lye/water temperature about 120 degrees F.   Time in molds: 24 hours
Age: 3 weeks


Soap V - Sorta a traditional and blender soap combination. The fats are 
expensive, but milk allows for about 12 bars, vs. only 6 bars of the same recipe 
without milk. Pretty sneaky, huh? 

8 oz weight cocoa butter
5 oz weight palm oil
3 oz weight castor oil
2.2 oz weight lye (sodium hydroxide)
1 cup cold milk (I used 2% right from the frig)
1 cup water
1 tablespoon essential oil (I added 2 chamomile tea bags and 2 jasmine tea bags, 
dry) Fats: 100 degree range
Lye/water/milk combination: 125 degree range

Add the lye/milk/water mixture to the fats and stir about 5 minutes. Add the 
fragrant oil and put the soap mixture into a blender. Process about 30 seconds, 
or until the mixture looks smooth and a uniform color. It will not trace. Pour 
it into the molds (it won't separate, trust me)


Soap VI & VII

16 oz lard or beef tallow
2.3 oz lye
3/4 cup water (6 fluid ounces)
Estimated tracing 45 minutes
Fat and lye/water temperature about 120 degrees F
Time in molds: 24 hours
Age: 3 weeks


Soap VIII -- Beeswax Castile

13 oz weight olive oil
2 oz beeswax
1 oz palm oil
2.1 oz lye
1 cup water (8 fluid ounces)
(melt the beeswax with the fats)
Fat and lye/water temperature about 150 degrees F
Tracing time: about 12 minutes FAST! (This is not a good blender soap 
candidate!)
Time in molds: 48 hours Place the soap in a freezer for 3 hours, then remove it 
from the molds
Age: 6 to 8 weeks for the bars to harden


Soap X -- Beeswax Soap IX

(follow directions at "Soap VIII". This is not a good blender soap candidate.)

16 oz weight olive oil
2 oz weight beeswax
2.2 oz weight lye
1 cup water (8 fluid ounces)


Soap XI -- Goat Milk Soap (by measurements, not weight)

1 cup lard, melted
1 cup coconut oil, melted
1 cup goat (or other) milk
1/4 cup Red Devil lye granules (not flakes or crystals from other sources)
1/4 cup water

Ingredients near 110 to 120 degrees F. Tracing time about 1 hour 15 minutes. 
Leave in molds 2 days, place in freezer 3 hours, remove soap from molds.
Age 3 weeks.

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Good luck and happy lathering.

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H) Dear Soap Enthusiast:                                 April, 1995

I'm writing this special note to inform you about the latest development in 
hand-crafted soap. A new technique, developed on AOL April, 1995 by Joyce 
Chance. Ms. Chance agreed for me to print this new technique in the next 
printing of "Soap Recipes." I suggest you learn to make soap by following "Soap 
Recipes" or these condensed instructions. Save the technique (I'm about to 
describe) until you are comfortable handling lye and familiar with soap reaction 
(tracing, etc.) I'm sure you will see the great chance of accidents so please be 
careful! Follow all safety guidelines provided with your blender! Yes, your 
blender! I'm going to tell you how to make "Blender Soap!" Heres the procedure:

1) Use the recipes as described in "Soap Recipes" (one-pound batches only). 
2) Use liquid fat at room temperature. Heat solid fats only until melted. 
3) Dissolve the lye in cold water and wait until the mixture turns clear. 
4) Put all ingredients into the blender (lye/water, fragrance--everything). 
5) Lock the blender in position, *secure the cover* and process at the lowest 
speed. 6) Stop the blender and check the soap often to watch for a thin-trace 
stage. When
    you stop the blender, wait a few seconds before removing the cover. 
Sometimes
    the soap "burps" when it stops (as a large amount of trapped air comes to 
the  
    top). 
7) At the thin trace stage, stop the blender. Stir the soap to check for tracing 
and to allow bubbles to escape. Pour the soap into individual molds. Thats all 
there is to it!

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Now, what are the advantages of blender soap? There are many! First of all, no 
thermometers! You're going to experience very short tracing times. Soap that 
requires a 30-to-45-minute tracing time by the "cold-stir method" can trace in 
30 seconds in the blender! (Soap that takes 2 days to trace can trace within 15 
to 20 minutes in the blender.) Tracing times are so short, that I don't 
recommend you use recipes with "cold-stir" tracing times shorter than 30 
minutes. I suggest you use the blender method instead of the "oven method" 
outlined in some of the recipes in "Soap Recipes." The texture of blender soap 
is more opaque and smoother-textured. You'll also discover less problems with 
separation. The only shortcoming is that the process can produce bubbles in the 
mixture. That's why it's important to pour the soap into individual-bar molds at 
the thin-trace stage. Stop the blender and stir the soap. The soap should be 
thin enough so that bubbles can escape the mixture and come to the top of the 
soap. Hope you enjoy this new technique and we should all be grateful to Ms. 
Joyce Chance for sharing it with us!--I am!