i know this is not to important but some survivalists are clean freaks(you are not a survivalist creeps). so I'm going to help you to day first off
soap "if its wet its clean"
How To Make Soap
The intention here is to provide the basic data on how to make soap from the most basic materials. There are many fancier soap recipes which make
better soaps, as long as you have all the ingredients.
The first write-up assumes you can just go to a store and buy the ingredients. The second only assumes you have some animals you will be butchering
and that you have been burning wood fires and cleverly saved the ashes.
A small plastic dishpan, about 10" x 12"
A glass or enamel 2-quart saucepan
1 can of lye (sodium hydroxide), 12 ounces
3 pounds of lard
Plastic gloves [really; use eye-protection too]
1. Pour 3 cups of very cold water (refrigerate water overnight first) into the 2-quart saucepan.
2. Slowly and carefully add the lye, a little bit at a time, stirring it with the a wooden or plastic utensil. (Use plastic gloves for this; test them
for holes first.) Do not breathe the vapor or lean over the container or have children nearby. Above all _use no metal_. The mixture will get very
hot. In olden days, a sassafras branch was used to stir, imparting a fragrance and insect deterrent for mosquitoes, lice, fleas and ticks.
3. Let cool at least one hour in a safe place. Meanwhile, the unwrapped lard should be warming up to room temperature in the plastic dishpan.
4. Slowly and carefully, pour the lye solution into the dishpan with the lard. The lard will melt. Mix thoroughly, at least 15 minutes, until it looks
like thick pudding(yum-yum).
5. Let it set until the next morning, then cut it into bars. It will get harder after a few days. Then package.
If you wish to make soap based on olive oil, use about 48 ounces. It may need to harden for a week.
Make chips from your home-made soap cake. Add enough hot water to dissolve. Add citric acid to balance the pH (7 to 8). If you do not, this soap may
be too harsh for your skin.
Basic Method When There Are No Stores!
[This write-up was taken from one done by Marietta Ellis concerning the soap-making practices of colonial America, with the tense mainly changed from
the past into the present.]
Saponification is a very big chemical word for the rather complex but easy to create soap making reaction. Saponification is what happens when a fatty
acid meets an alkali. When fats or oils, which contain fatty acids are mixed with a strong alkali, the alkali first splits the fats or oils into their
two major parts fatty acids and glycerin. After this splitting of the fats or oils, the sodium or potassium part of the alkali joins with the fatty
acid part of the fat or oils. This combination is then the potassium or sodium salt of the fatty acid. As we said at the start, this is soap.
Soap Making Takes Three Basic Steps
1.Making of the wood ash lye.
2.Rendering or cleaning the fats.
3.Mixing the fats and lye solution together and boiling the mixture to make the soap.
First Let's Make The Lye
In making soap the first ingredient required is a liquid solution of potash commonly called lye.
The lye solution was obtained by placing wood ashes in a bottomless barrel set on a stone slab with a groove and a lip carved in it. The stone in turn
rested on a pile of rocks. To prevent the ashes from getting in the solution a layer of straw and small sticks was placed in the barrel then the ashes
were put on top. The lye was produced by slowly pouring water over the ashes until a brownish liquid oozed out the bottom of the barrel. This solution
of potash lye was collected by allowing it to flow into the groove around the stone slab and drip down into a clay vessel at the lip of the groove.
Some colonists used an ash hopper for the making of lye instead of the barrel method. The ash hopper, was kept in a shed to protect the ashes from
being leached unintentionally by a rain fall. Ashes were added periodically and water was poured over at intervals to insure a continuous supply of
lye. The lye dripped into a collecting vessel located beneath the hopper.
[Use whatever you have available or can make.]
Now The Fats Are Prepared
The preparation of the fats or grease to be used in forming the soap is the next step. This consists of cleaning the fats and grease of all other
impurities contained in them.
The cleaning of fats is called rendering and is the smelliest part of the soap making operation. Animal fat, when removed from the animals during
butchering, must be rendered before soap of any satisfactory quality can be made from it. This rendering removes all meat tissues that still remain in
the fat sections. Fat obtained from cattle is called tallow while fat obtained from pigs is called lard.
If soap is being made from grease saved from cooking fires, it is also rendered to remove all impurities that have collected in it. The waste cooking
grease being saved over a period of time without the benefits of refrigeration usually become rancid, so this cleaning step is very important to make
the grease sweeter. It will result in a better smelling soap. The soap made from rancid fats or grease will work just as well as soap made from sweet
and clean fats but not be as pleasant to have around and use.
To render, fats and waste cooking grease are placed in a large kettle and an equal amount of water is added. Then the kettle is placed over the open
fire outdoors. Soap making is an outside activity. The smell from rendering the fats is too strong to wish in anyone's house. The mixture of fats and
water are boiled until all the fats have melted. After a longer period of boiling to insure completion of melting the fats, the fire is stopped and
into the kettle is placed another amount of water about equal to the first amount of water. The solution is allowed to cool down and left over night.
By the next day the fats have solidified and floated to the top forming a layer of clean fat. All the impurities being not as light as the fat remain
in water underneath the fat.
You may have observed this in your own kitchen. When a stew or casserole containing meat has been put in the refrigerator, you could see the next day
the same fat layer.
Finally The Soap Making Can Begin
In another large kettle or pot the fat is placed with the amount of lye solution determined to be the correct amount. This is easier said than done.
We will discuss it more later. Then this pot is placed over a fire again outdoors and boiled. This mixture is boiled until the soap is formed. This is
determined when the mixture boils up into a thick frothy mass, and a small amount placed on the tongue causes no noticeable "bite". This boiling
process could take up to six to eight hours depending on the amount of the mixture and the strength of the lye.
Soft and Hard Soap
Soap made with wood ash lye does not make a hard soap but only a soft soap. When the fire is put out and the soap mixture allowed to cool, the next
day reveals a brown jelly like substance that feels slippery to the touch, makes foam when mixed with water, and cleans. This is the soft soap the
colonists had done all their hard work to produce. The soft soap is then poured into a wooden barrel and ladled out with a wooden dipper when needed.
To make hard soap, common salt is thrown in at the end of the boiling. If this is done a hard cake of soap forms in a layer at the top of the pot. As
common salt may be expensive and hard to get, it is not usually wasted to make hard soap. Common salt is more valuable to give to the livestock and
the preserving of foods. Soft soap works just as well as hard and for these reasons the colonists, making their own soap, did not make hard soap bars.
In towns and cities where there were soap makers making soap for sale, the soap could be converted to the hard soap by the addition of salt. As hard
bars it will be easier to store and transport. Hard bars produced by the soap maker were often scented with oils such as lavender, wintergreen, or
caraway and were sold as toilet soap to persons living in the cities or towns.
Hard soap is not cut into small bars and wrapped as has been familiar. Soap made by the soap makers is poured into large wooden frames and removed
when cooled and hard.
The amount of soap a customer wants can be cut from the large bar. Soap is sold usually by the pound. Small wrapped bars were not available until the
middle of the 19th century [nor maybe shortly after the end of the 20th].
Difficulties in Making Soap
The hardest part is in determining if the lye is of the correct strength, as we have said. In order to learn this, the soap maker floats either a
potato or an egg in the lye. If the object floats with a specified amount of its surface above the lye solution, the lye is declared fit for soap
making. Most of the colonists felt that lye of the correct strength would float a potato or an egg with an area the size of a modern quarter above the
surface. To make a weak lye stronger, the solution can either be boiled down more or the lye solution can be poured through a new batch of ashes. To
make a solution weaker, water is added [more data to be added here on how to determine the correct strength of lye].
A Pennsylvania Dutch recipe once carefully warned that a sassafras stick was the only kind of implement suitable for stirring the mixture [see Hulda
Clark comment above re sassafras] and the stirring must be done always in the same direction [?].
Not Always Done Down On The Farm
Soap making as a trade had grown in direct proportion with the growth of the colonies. Even in the very early days there were tradesmen making and
selling soap, who were called soapboilers. Since tallow was the main ingredient for both soap and candles, many tradesmen were producers of both.
These tradesmen were called chandlers.
Potash and Pearlash Trade
Soap making and the manufacture of potash and pearlashes were closely related trades of colonial America. Pearlash, purified potash, because of its
many industrial uses, was an important item of export for the colonies. Pearlash, in addition to soap making, was used for making glass both in the
colonies and in Europe....
Potash is the residue remaining after all the water has been driven off from the lye solution obtained from the leaching of wood ashes. Pearlash is
then made from the potash by baking it in a kiln until all the carbon impurities were burned off. The fine, white powder remaining was the
and now tooth paste"milk will do as long you have a cow(hey does that included my wife)"
Pour a half of a cup (110g) of baking soda into a mixing bowl . Baking soda has a natural cleansing ability and can even be found in some commercial
toothpastes. It's non-toxic and will help polish your teeth. Some recipes call for table salt, in which case you should mix three parts of baking
soda with one part of table salt.
Add three teaspoons (15g) of glycerine for every 1/4 cup (55g) of dry mixture. This is optional; it acts as a sweetener. An alternative is Xylitol. It
is a natural, sugarless sweetener that actually promotes tooth and gum health!
Add 1/4 cup (60g) of household hydrogen peroxide and one drop of peppermint oil. Hydrogen peroxide naturally disinfects your mouth and will also help
whiten your teeth. If you don't have it around, use water. The drop of peppermint oil will leave your mouth feeling fresh. Hydrogen peroxide breaks
down very quickly in the presence of UV light, so it is necessary to store the toothpaste away from sunlight. If you're not into the peppermint
flavor, some alternatives are ground cinnamon, vanilla extract, fennel, ginger, and almond extract. Whatever it is, make sure it doesn't have sugar
added or that it isn't strongly acidic, since acids will produce a fizzing reaction with the baking soda.
Mix the hydrogen peroxide and baking soda until it is a paste . If you need to, mix in more hydrogen peroxide until you get the right consistency. See
Store the toothpaste in a small plastic container where it won't dry out. You can also purchase a small, empty lotion bottle so that you can squeeze
out the toothpaste onto the toothbrush more easily, rather than dip it(so what kids find it easer to dip).
how to make tooth paste: www.wikihow.com...
how to make soap: www.i4at.org...