PREPARATION OF SOAP USING DIFFERENT TYPES OF OILS AND EXPLORING ITS PROPERTIES
ABSTRACT
Soaps are the sodium salts or potassium salts of stearic acids or any other fatty acids. They are prepared by the saponification process, which is, reacting the oil which contain triglycerides with caustic soda (NaOH) to give the soap. However different oils have different composition of fatty acids which are responsible for different properties of soaps made out of them. In the present work 5 different types of oils are taken. They are blended in various ratios to prepare 14 different samples of soap. Different properties of these samples were analyzed to see which soap is the best one. The cleansing and lathering properties of all samples were compared. The blend of coconut oil and castor oil at 3:1 ratio is found out to be the best with 76.8% of TFM and 89.46% of yield. The best blend is analyzed for various properties and they were compared with that given in the literature. The saponification values, iodine values of coconut oil and castor oil were found out and these values were also found for the blend. It was found that the blend was having SAP value of 230.4 and iodine value of 40 which are higher than the individual values. Thus soap prepared using blend of both these oils has better properties than the soaps prepared by individual oils.
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CONTENTS |
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Chapter 1 |
Introduction |
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Chapter 2 |
Literature Review |
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2.1 |
Semi Boiled Process |
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2.2 |
Full Boiled |
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2.3 |
Cold Process |
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2.4 |
Different types of soap making oils |
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2.5 |
Castor Oil |
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2.6 |
Olive Oil |
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2.7 |
Neem Oil |
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3.1 |
Coconut Oil |
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Chapter 3 |
Materials and Methods |
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3.1 |
Materials Required |
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3.2 |
Methodology |
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3.2.1 |
Preparation of Soap |
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3.2.2 |
Comparing different |
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properties of soap with detergent |
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3.2.3 |
Blending of Oils |
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3.2.4 |
Calculation of TFM |
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3.2.5 |
Calculation of free alkali |
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3.2.6 |
Analysis of the best blend |
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3.2.7 |
Saponification Value |
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3.2.8 |
Iodine Value |
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3.2.9 |
Unsaponifiable Matter |
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3.2.10 |
Acid Value |
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Chapter 4 |
Results and Discussion |
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4.1 |
Comparison of soap and detergent |
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4.2 |
Properties of soap after blending of oils |
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4.3 |
TFM values of soaps |
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4.4 |
Analysis of the best blend |
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4.5 |
Saponification Values |
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4.5 |
Iodine Values |
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4.6 |
Unsaponifiable Matter |
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4.7 |
Acid Value |
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Chapter 5 |
Conclusion |
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Chapter 6 |
References |
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List of Tables |
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Sl.no. |
Name of the table |
Page |
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no. |
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1 |
Composition of coconut oil |
13 |
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2 |
Yield of soap using individual oils |
23 |
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3 |
Properties of soap versus detergent |
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4 |
Moisture and Hardness of soap samples from |
24 |
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individual oils |
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5 |
Yield and pH values of soap samples from blending of |
24 |
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oils |
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6 |
Lathering and cleansing power of soap samples from |
25 |
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blending of oils |
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7 |
Moisture and Hardness of soap samples from blending |
26 |
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of oils |
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8 |
Total fatty matter of best blends of oils |
27 |
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9 |
Saponification value of the oil blend |
28 |
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10 |
Iodine value of the oil blend |
28 |
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11 |
Unsaponifiable matter |
29 |
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12 |
Acid Value of the oil blend |
30 |
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CHAPTER ONE
Introduction:
A soap is a salt of a compound, known as a fatty acid. A soap molecule has a long hydrocarbon chain with a carboxylic acid group on one end, which has ionic bond with metal ion, usually sodium or potassium. The hydrocarbon end is non polar which is highly soluble in non polar substances and the ionic end is soluble in water. The structure of the soap molecule is represented below:
The cleaning action of soapsbecause of their ability to emulsify or disperse water-insoluble materials and hold them in the suspension of water. This ability is seen from the molecular structure of soaps. When soap is added to water that contains oil or other water-insoluble materials, the soap or detergent molecules surround the oil droplets. The oil is, dissolved in the alkyl groups of the soap molecules while the ionic end allows it to be dissolved in water. As a result, the oil droplets are to be dispersed throughout the water and can be washed away.
A number of things affect the soap-making process and the quality of this soap produced. The characteristics of this soap depend on the quality of oil, and the amounts of the caustic soda and water used to make it. The speed of the reaction between the oil and the caustic soda is influenced by free fatty acid content of the oil, the heat of the components before mixing, and how vigorously the mixing is to be done. Free fatty acid contents, vigorous mixing, and heat, speed up the given soap-making process.
Castile soap: a mild soap originally made in Spain with pure olive oil. Today many “castile” soaps are made with other vegetable oils. Castile is agood cleanser, producing a rich lather. Cream soaps: soaps containing cold cream materials, and moisturizers. Cream soaps are good for dry and delicate skin
Deodorant soap are soaps to which antibacterial agents have been added to reduce odor-causing bacteria. Floating soaps: soaps which have air bubbles incorporated have low density. This causes the bar to float.Hypo-allergenic soaps: Mild formula soaps, low in potent irritants. They generally produce a poor lather.
Milled soaps: these are the most commonly used, mass produced soaps. Milling is referred to the mixing of colour and soap flakes.
Oatmeal soap: A rough textured soap to which oatmeal has been added as a mild abrasive and lather. Good for and normal skin.
A good soap is biodegradable when it does not contain chemicals that cannot be made to their natural elements. Neither does it contain chemicals that can be harmful to the environment or cause undue destruction to the environment.
· A good soap gets dissolved easily and remove stains from the clothes, human skin or any material being cleaned.
· It gets dissolved in water and produces enough suds.
· It gives a clear and sparkling kind of cleanliness.
· It gives a pleasant smell.
· A good soap does not leave sticky traces on the clothes or on the skin.
· It has a good color that is even and does not streak.
· It disinfects and kills germs.
· It does not damage the fibers or textiles.
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