SOAP FORMULATION
COSMETOLOGY
DR NG SHIOW FERN
TITLE
Soap Formulation
DATE OF EXPERIMENT
27th April 2016
INTRODUCTION
Soaps are carboxylate salts with very long hydrocarbon
chains. Saponification is a process of making soap which is from fats and lye.
For simple definition, it is a chemical reaction between an acid and base
forming a salt. It is done by boiling them together under a certain temperature
forming a crystalline nature of soaps before adding other substances.
Hydrolysis of esters occur when triglyceride in fats/oils react with aqueous
sodium hydroxide or potassium hydroxide. Acidic oils will neutralize the
alkaline solution forming a salt. Thus, saponification occurs.
OBJECTIVES
- To understand the
rationale behind the use of different types of ingredients in a soap
formulation.
- To understand the
acid-base reaction (saponification process) by which soap is produced.
- To evaluate the quality of products that have been produced.
APPARATUS
Analytical
balance, mould, beaker, porcelain mortar and pestle, glass rod.
MATERIALS
Olive
oil, vegetable shortening, coconut oil, potassium hydroxide, sodium hydroxide,
glycerin, alcohol, castor oil, distilled water, petroleum jelly, fragrance and essential oil, colorants,
honey, oatmeal.
METHODS
Honey and oatmeal soap bar :
Coconut oil
|
19.6%
|
Olive oil
|
19.6%
|
Vegetable shortening
|
29.6%
|
Sodium hydroxide
|
9.9%
|
Distilled water
|
20.9%
|
Honey
|
0.17%
|
Oats
|
q.s
|
Colorants
|
q.s
|
Fragrance/essential oil
|
3 drops
|
The above amounts were used.
1.The
molds were clean and dried completely and greased with petroleum jelly.
2.The
fats and oil (coconut oil, olive oil and vegetable shortening) were weighed
using analytical balance.
3.The
fats were melted in a porcelain evaporating dish on a water bath at around
40-500C. After all the fats melted, it was removed from the heat.
4.Sodium
hydroxide and water were weighed out. The sodium hydroxide were added into the
water and mixed well. The solution was left to cool.
5.When
the sodium hydroxide has completely dissolved in water, the solution was poured
into the warm oil mixture. The oil will become opaque. The mixture was mixed in
circular motion constantly for 15 minutes. It was rested and mixed more until
it thickened.
6.The
mixing was stopped after a ‘trace’ was formed. Honey oats, fragrance and
essential oils were added and mixed well.
7.The
soap was poured into the mold and was covered with cloth and kept at moderately
warm temperature for about 24-48 hours.
8.The
soap was removed from the mold.
Mixture becomes opaque after sodium hydroxide is added
Color of soap mixture after colorant has been added
RESULTS
SOAP A
|
OBSERVATION
|
Effectiveness
|
The stain disappear, thus the soap are effective
|
Skin irritation
|
No irritation occur on the skin
|
Stability
|
Stable
|
SOAP B
|
OBSERVATION
|
Effectiveness
|
The
stain disappear, thus the soap are effective
|
Skin irritation
|
No
irritation occur on the skin
|
Stability
|
Stable
|
DISCUSSION
Soap
is a product for cleaning made from natural ingredients that may include both
plant and animal products, including items as animal fat, such as tallow or
vegetable oil, such as castor, olive or coconut oil. The earliest known soap
recipe was by the ancient Babylonians around 2800 B.C. Soap supposedly got its
name from Mount Sapo in Rome. The word sapo, Latin for soap, first appeared in
Pliny the Elder's Historia Naturalis. Through the ages soap has been used to
wash wool in textile industry, to cure skin sores and diseases, to dye hair,
and as a salve or skin ointment. But today it is generally used as a cleanser
or perfume. There are some interesting facts about soap. Soaps have been
categorized into several types depending on the particular purpose for which
they are used. The soap industry is constantly working hard to produce newer
soap formulas. There are soaps for personal use, laundry use, dishwashing and
even pet cleaning. Over the course of millennia’s, soap managed to infuse
itself into our culture and way of life. As one of the most primary means of
maintaining personal hygiene, soaps lived through countless waves of
improvements that enabled it mature into its modern state. In this experiment,
we were required to make soap for personal use. There are several types of
personal use soap which are hard soap, liquid soap, glycerine soap, and
transparent soap.
In this experiment, the ingredients
in the soap are coconut oil, olive oil, vegetable shortening, sodium hydroxide,
distilled water, honey, oats, colorants, and fragrance. Coconut oil is one of
the oils for soap making that gives natural soap its lather and is good for all
skin types. Coconut
oil provides cleansing abilities and a big bubbly lather. Olive oil cleans the skin
without stripping away the natural oils and the skin don't end up dry and flaky
after its used. Olive oil also allows the skin to sweat and shed cells
naturally. Other than that, Sodium Hydroxide (NaOH), also known as lye, is an
essential ingredient in the soap making process. When sodium
hydroxide beads are mixed with a liquid, a lye solution is
created. This solution, when mixed with fats and oils, will cause a chemical
reaction called saponification. The result of saponification is beautiful
handmade soap. Distilled water is used to help activate the lye and disperse it
through the oils. Besides, used of fine blended oats in the soap will add light
exfoliation and will absorb and hang onto the essential oils. Honey is actually
a pretty remarkable liquid and contains antioxidants, trace amounts of
vitamins. It imparts a light, warm, sweet scent, the added sugar content helps increase the lather, and acts as a humectant. Colorant and
fragrance are also added to make the soap looks more attractive and masks the
unpleasant scent of other ingredients respectively.
There
are 2 types of soap that we had done during the lab session, Soap A and Soap B.
Soup A and soap B contain same ingredients but different in fragrance and
colouring. Soap A used purple colour with apple fragrance while soap B used red
colour with floral fragrance. For the evaluation test on soap, first and
foremost is about effectiveness. Generally, soap is an excellent cleanser
because of its ability to act as an emulsifying agent. An emulsifier is capable
of dispersing one liquid into another immiscible liquid. This means that while
oil (which attracts dirt) doesn't naturally mix with water, soap can suspend
oil/dirt in such a way that it can be removed. In this test, we found that both
soap A and soap B produced foam and able
to remove dirt on clothes. It is able to remove ground dirt with some forces
applies on it.
The
next one is about skin irritation. Normal healthy skin has potential of
hydrogen (pH) range of 5.4-5.9 and a normal bacterial flora. The use of soap
with high pH causes an increase in skin pH, which in turn causes an increase in
dehydrate effect and skin irritation. For our soap, both of it doesn’t irritate our skin even we use it
for several times. One of the reason is that, our materials is light and safe
which doesn’t cause harmful effects and the soap’s pH is compatible with our
skin.
Thirdly,
the stability of the soap. The purpose of stability testing cosmetic products
is to ensure that a new or modified product meets the intended physical,
chemical and microbiological quality standards as well as functionality and
aesthetics when stored under appropriate conditions. When we exposed it to
sunlight, the soap became watery and contaminated due to exposure to sunlight
and environment. The colour become colourless and fragrance. In cold area, the
stability of our soap doesn’t show any effect. The colour and fragrance remains
the same.
While
doing this product, some precaution steps have to be taken. Lye(sodium
hydroxide) is caustic. It can eat holes
in fabric and cause burns on the skin. Extra caution must be taken when using
lye. Use of gloves, eyes protection and a mask are desired. When the lye is mix
with water, it will heat up and fume for about 30 seconds to a minute. It may
cause a choking sensation in the throat. The lye must always be added to water
and not water to lye. If allowed to clump on the bottom, it could heat up all
at once and cause an explosion. Next, after making soap, the equipment that
have been exposed to lye must always be cleaned. The lye can be neutralize by
white vinegar, then the equipment are being washed well. For the rest of it,
let it sit for several days because when we first make soap, it is all fat and
lye. We will be washing forever and could burn our hands on the residual lye.
If we wait, it becomes soap and all it takes to clean it is a soak in hot
water.
CONCLUSION
In
conclusion, we have determined the rationale behind the use of the different
type of ingredients in soap formulations. We already understand the
saponification process which is an acid-base reaction. Finally, the quality of
the soaps had been showed by a few volunteers when the soap is safe and user-friendly.
It also shows a good result with no side effects such as rash, irritation,
itchy and the most important thing is, it has a good stability.
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http://www.cleanlink.com/sm/article/Types-Of-Soap-How-To-Pick-Correctly--4710 (Accessed 3.5.2016)
