Foots oil is a by product of the manufacturing process of paraffin wax
oil content of foots oil or residue wax is (35+/-5% ) and has line fatty acids and free fatty acids foots oil is a rich source of base oil
Foots oil early used in the candles, polish, matches the ink and paper used carbon
Widely used in rubber, textile, leather, rubber, plastics, lubricants
Plastic processing, polishing, chipboard industry and the general wood working industries.
Foots oil early as Paraffin is a byproduct of the manufacturing process . There are plenty of oils and fatty acids in the product lives up to the base and free fatty acids are a rich source of oil. Foots Oil (residue wax) produced during the extraction of oil from the slack wax or is derived from the producing process of semi-refined paraffin wax .
Features of foots oil
low melting point
foots oil is full of oil , so the melting point is low , it is about 45 to 50 C in normal temperature , because of this feature packing should be quite good and tight to avoid leakage of oil
Foots oil Persistence in water
oil amount of the residue wax does not let to be solved in water or other liquid products .
it (if they contain harmful chemicals) can have a negative impact on aquatic ecosystems. The persistence of oil in water can result in contamination of water bodies, harming aquatic life, plants, and the quality of water.
Low viscosity
The exact viscosity of residue wax will depend on the specific characteristics of the wax. Here are some general guidelines:
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Viscosity Range: For most waxes and residues derived from petroleum, the viscosity can range from about 100 to 10,000 centipoise (CP) at room temperature (20-25°C). The higher the molecular weight and the greater the presence of heavier hydrocarbons, the more viscous the wax tends to be.
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Effect of Temperature: Viscosity typically decreases with increasing temperature, meaning that residue wax becomes less viscous (more fluid) as the temperature rises. The specific temperature-viscosity relationship can be modeled, but it is generally nonlinear.
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Measurement: Viscosity can be measured using various instruments, including rotational viscometers or capillary viscometers, under standardized conditions (e.g., using a specific shear rate, temperature).
If you’re working with a specific type of residue wax, it’s best to refer to technical data sheets or conduct laboratory measurements to determine its precise viscosity under the conditions you’re interested in.
Foots oil Color: Brown yellow
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Beeswax: Beeswax tends to leave a yellowish or golden residue. It may darken with age or exposure to heat.
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Paraffin Wax: Paraffin wax residue can be white, translucent, or slightly off-white. If colored dyes or fragrances were added to the wax, the residue can show a lighter version of the original color.
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Soy Wax: Soy wax usually leaves a white or cream-colored residue. It is often used in candles and can appear more opaque.
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Palm Wax: Palm wax often leaves a creamy or light tan-colored residue, similar to soy wax but with more texture due to its crystalline structure.
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Colored Wax: If the wax used is dyed (such as in colored candles), the residue color will reflect the dye used, although it will likely be paler than the original wax color.
If you’re looking at the color of wax residue in a specific context, such as after melting or during use, the presence of any additives or environmental factors like heat or air exposure could affect its final appearance.
