CERESIN
Ceresin is a waxy mixture of hydrocarbons obtained by purification of ozokerite, a naturally occurring mineral wax.
Ceresin is derived from ozokerite through a purifying process, resulting in a white-to-yellow wax with a high melting point and excellent stability.
Ceresin is used as an alternative to beeswax and paraffin in various applications, including cosmetics, pharmaceuticals, and industrial products.
CAS Number: 8001-75-0
EC Number: 232-290-1
Molecular Formula: C30H50O2
Molecular Weight: 442.73
Synonyms: Ceresin, 8001-75-0, 232-290-1, Ceresin wax, Ozocerite wax, Ozokerite wax, White ceresin wax, White ozokerite wax, CERESIN (II), CERESIN WAX (OZOCERITE), CIRINE WAX, Ceresine wax, DTXSID1093670, EARTH WAX, EINECS 232-290-1, FOSSIL WAX, Q1LS2UJO3A, UNII-Q1LS2UJO3A, WHITE CERESIN WAX (II), Waxes, ceresin, Waxes, ozocerite, Earth Wax, Mineral Wax, Ozokerite, Ceresin, CERA MICROCRISTALLINA, Ceresine wax, OZOKERITE WAX, CERESIN WAX YELLOW, Microcrytalline Wax, CERIN, Cerosin, Earth wax, ceresin(e), Ceresin, Cera mineralis alba, Ceresine, Ceresin wax, Cerin, Cerosin, Cirashine CS, Earth wax, Koster Keunen Ceresine, Mineral wax, purified ozokerite, Ross Ceresine Wax, white ceresin wax, white ozokerite wax
Ceresin is a wax that comes from ozokerite through a purifying process.
Ceresin is a white-to-yellow waxy mixture of hydrocarbons obtained by purification of ozokerite.
Ceresin occurs as odorless, tasteless, amorphous (noncrystalline) brittle, waxy cakes or pastilles.
Ceresin is a wax derived from ozokerite by a purifying process.
Ceresin is originally mineral wax, derived from coal and shale.
Nowadays ceresin for cosmetics is synthesized from petroleum, exactly the blend of paraffin wax and microcrystalline wax.
Ceresin is a white, crystalline, odorless and tasteless solid.
Ceresin is a hard wax with a relatively high melting point and excellent oil binding capacity.
Ceresin is compatible with a wide variety of solvents, oils, fats, resins, petrolatum and other waxes.
Ceresin is a hydrocarbon wax produced by the purification of another hydrocarbon wax, ozokerite.
Ceresin is a wax that comes from ozokerite through a purifying process.
Ceresin is a white-to-yellow waxy mixture of hydrocarbons obtained by purification of ozokerite.
Ceresin occurs as odorless, tasteless, amorphous (noncrystalline) brittle, waxy cakes or pastilles.
Ceresin is a white or yellow wax derived from ozocerite, a naturally occurring fossil wax found near soft shale.
Ceresin is valued for its stability and high melting point and is often a substitute for beeswax.
Ceresin is compatible with the chemistries of natural, mineral, and synthetic raw materials.
Ceresin 1556 is a white wax.
Ceresin waxes are blends of linear and branched hydrocarbons that have a long history of use in industry.
Chemists should choose the properties that are critical to their formulation; melt point, penetration, or gel strength.
They are non-hazardous, non-toxic, and non-irritating for skin and eyes.
Ceresin is compatible with the chemistries of natural, mineral, and synthetic raw materials.
Ceresin is a waxy mixture of hydrocarbons obtained by purification of ozokerite, a naturally occurring mineral wax.
Ceresin serves as an alternative to beeswax in ointments.
Ceresin is a white-to-yellow waxy hydrocarbon mixture.
The native mineral fossil wax ozokerite, which is derived from coal and shale, is extracted and refined to create ceresin.
Another method of producing ceresin involves dissolving ozokerite in ligroin, treating Ceresin with activated clay, and then removing the high-boiling-point fraction.
Ceresin is a white or yellow wax that is obtained from a naturally-occuring mineral wax, ozokerite by purification.
The purifying process often consists of treating ozokerite with heat and sulfuric acid, although other methods have been used.
Ceresin’s commonly used as a substitute for beeswax or paraffin.
Ceresin’s also pretty common to find it listed as an ingredient in the beauty products you use daily.
Ceresin is a degradable, water-insoluble, solid wax that has been used as an antimicrobial agent in pharmaceutical preparations.
The high resistance of Ceresin to oxidation and hydrolysis makes it an effective preservative.
Ceresin can be decarboxylated to produce phenols, which have strong antiseptic properties.
Ceresin also has a high acid complexing ability that makes it useful for preventing the growth of microorganisms.
This property is due to the presence of fatty acids with long chains that are not easily degraded by enzymes in the stomach.
These products are mainly composed of carboxylic acids and alcohols.
Ceresin also has an electrochemical impedance spectroscopy (EIS) profile that is similar to those of other organic compounds such as fatty acids or polycarboxylic acids
When Ceresin is heated, it reacts with lemongrass oil and produces macroscopic reaction products that are visible when viewed under a microscope.
Derived from clay, ceresin is a waxy ingredient used as a thickening agent in cosmetics.
Ceresin is a wax derived from ozokerite by a purifying process.
Ceresin is a wax derived from ozokerite by a purifying process.
The purifying process of the ozokerite commonly comprises a treatment with heat and sulfuric acid, but other processes are also in use.
Ceresin is a waxy mixture of hydrocarbons obtained by purification of ozokerite, a naturally occurring mineral wax.
A hydrocarbon wax produced by the purification of another hydrocarbon wax, ozokerite.
Ceresin is mostly used in stick type products to keep them nice and solid.
A white or slightly yellowish Mineral wax prepared from purified and decolorized Ozocerite.
Ceresin is refined by treating powdered ozocerite with concentrated Sulfuric acid then filtering through animal Charcoal.
The resultant wax is similar to paraffin, but is harder and has a higher melting point.
Ceresin is composed of a wide range of long chain saturated hydrocarbons ranging from C20 to C32.
Ceresin is used for candles, textile and paper sizing, floor polish, waterproofing, shoe polishes, and leather coating.
Ceresin is a wax, white to yellow in color, a mixture of hydrocarbons, usually obtained when ozokerite (A natural clay) purification process is carried out.
Ceresin is a waxy mixture of hydrocarbons obtained by purification of ozokerite, a naturally occurring mineral wax.
Ceresin is not a vegetable wax, but more closely related to paraffin.
Ceresin is a waxy mixture of hydrocarbons obtained by purification of ozokerite, a naturally occurring mineral wax.
Ceresin is not a vegetable wax, but more closely related to paraffin wax (petroleum wax).
Ceresin is important in rubber compounding due to their low acid number (less interference with cure) and inert qualities.
A thickening agent that also keeps the oil and liquid parts of an emulsion from separating.
As a wax, Ceresin helps harden lipid (oil) based solutions like pomade or balm.
Ceresin also reduces brittleness and adds strength and stability to various stick cosmetics, such as lipstick.
Ceresin's valued for its stability and high melting point, and often functions as a substitute to Beeswax.
Ceresin is primarily used in personal care products such as lipstick, lip/eye liner, lip gloss, eye shadow, facial moisturizer, mascara and anti-aging serum.
Ceresin, also known as ceresin or cerin, is a wax that comes from ozokerite through a purifying process.
Ungraded products supplied by Spectrum are indicative of a grade suitable for general industrial use or research purposes and typically are not suitable for human consumption or therapeutic use.
Ceresin is a white wax.
Ceresin is blends of linear and branched hydrocarbons that have a long history of use in industry.
Chemists should choose the properties that are critical to their formulation; melt point, penetration, or gel strength.
Ceresins are non-hazardous, non-toxic, and non-irritating for skin and eyes.
Ceresin is compatible with the chemistries of natural, mineral, and synthetic raw materials.
Applications include cosmetics, personal care, crayons, coatings, candles, industrial, pharmaceuticals, fruit and vegetable coatings, and inks.
Ceresin is compatible with the chemistries of natural, mineral, and synthetic raw materials.
Ceresin is blends of linear and branched hydrocarbons that have a long history of use in industry.
Chemists should choose the properties that are critical to their formulation; melt point, penetration, or gel strength.
Ceresins are non-hazardous, non-toxic, and non-irritating for skin and eyes.
Applications of Ceresin:
Ceresine is predominantly complex hydrocarbons formulated into specialty waxes, custom blended to the customer's needs.
Years of formulation and production experience meeting a wide array of industrial needs has helped Strahl & Pitsch develop a full range of Ceresine.
Ceresins are consistent and reproducible from batch to batch, with specific properties critical to the formulator, including melt point, hardness, viscosity, penetration, gel strength and color.
These waxes are used in a wide range of applications where consistency is necessary to insure uniformity of finished product in today's quality-conscious world.
Ceresin typically melt between 130-160 degrees Fahrenheit, while Ozokerite Waxes generally melt at the higher range of 140-200 degrees Fahrenheit.
Both waxes are non-toxic and non-hazardous, thus permitting use in countless personal-care applications.
Uses of Ceresin:
Ceresin-containing products should be used last in your skincare routine to seal serums and creams with active ingredients.
Ceresin helps to maintain the thickness and consistency of cosmetics such as lipstick, lip balm, mascara, and eyeliner.
Ceresin can also be used as a thickening agent in moisturizers and certain hair care products.
Without Ceresin, large categories of beauty products would be impossible to create due to its thickening, hardening and stabilizing properties.
The texture would be inconsistent without ceresin.
Lipsticks, pomades, balms, and thicker creams would be impossible.
Also, Ceresin would not be possible to create great moisturizers and do skin treatments such as slugging.
Ceresin is substitute for beeswax; for making candles, wax figures; for waxed paper and cloth; in polishes, electrical insulators; waterproofing fabrics; for bottles for hydrofluoric acid; in dentistry for impression and inlay waxes and modeling compounds.
Ceresin is a thickener and a binder with noncomedogenic properties.
Ceresin regulates the viscosity, suspension properties, and overall stability of a skin care preparation.
Ceresin is used in protective creams as a beeswax and paraffin substitute.
This white-to-yellow waxy, Ceresin, mixture of hydrocarbons is obtained by the purification of ozokerite.
The purifying process of the ozokerite commonly comprises a treatment with heat and sulfuric acid, but other processes are also in use.
Ceresin will increase viscosity, assist in emulsion stability and reduce the brittleness of stick preparations and add hardness.
These properties encourage Ceresin's use in lipstick and lip care products to promote structure and stick strength.
Similar to ozokerite, Ceresin is mostly used in stick type products to keep them nice and solid.
Ceresine wax is used as a stiffening agent in creams and ointments, and as an emulsion stabilizer, opacity agent, viscosity control agent and thickener in pharmaceutical protective, topical and vaginal creams.
Applications of Ceresin include cosmetics, personal care, crayons, coatings, candles, industrial, pharmaceuticals, fruit and vegetable coatings, and inks.
Ceresin is also used in cosmetics and personal care products.
Ceresin is also used in drug coating applications for medicaments, for example, protective coatings, enteric-soluble coatings and sustained-release coatings.
Ceresin has been used in formulation of multivesicular emulsion topical delivery systems.
Even if you haven’t heard of the ingredient ceresin before, there’s a good chance you’ve used it.
Ceresin is an emulsifier used like a wax to help certain products, such as pomades and balms, to bind and maintain their consistencies.
Ceresin can be a suitable substitute for paraffin and beeswax, as it helps stabilize skincare products.
Ceresin also helps make products less brittle by adding strength and stability to stick cosmetics, such as lipstick.
As a thickening agent, Ceresin works to keep the liquid and oil parts of an emulsion from separating.
A mineral wax from coal or shale, or synthesized from petroleum, ceresin can be used as a replacement for beeswax and paraffin and performs similarly to both by stabilizing a product’s consistency.
Usually found in lip care (balms and lip masks), ceresin is also used in thicker, reparative skin creams and medical ointments.
Ceresin is also used in color cosmetics and haircare.
In other words, ceresin is a lot more common than you think, since it’s in everything from lipsticks to eyeliner, lip gloss, mascara, and skincare.
As Ceresin is in many personal care products, it is highly likely you have used it previously.
Ceresin is a derivative of clay and is used as a thickening agent and emulsifier in skincare products.
Ceresin is used as hardening wax for stick formulated cosmetics.
Ceresin is common in skincare and color cosmetics.
Because of its waxy texture, ceresin is mainly used to help a formula achieve a certain consistency.
Thanks to its waxy constitution, Ceresin can be used as barrier protection in skincare, creating an occlusive film to keep ingredients in the skin and lock out harmful pollutants.
Applications of Ceresin include cosmetics, personal care, crayons, coatings, candles, industrial, pharmaceuticals, fruit and vegetable coatings, and inks.
Ceresin acts as a viscosity-controlling and emulsion-stabilizing agent in cosmetics and personal care products.
As a wax, Ceresin aids in the hardening of lipid (oil)-based products like balm or pomade.
Additionally, Ceresin lessens brittleness and gives various stick cosmetics, like lipstick, strength and stability.
Because of its high melting point and stability, Ceresin frequently serves as a Beeswax substitute.
Ceresin is primarily used in personal care products like lipstick, lip/eyeliner, lip gloss, eye shadow, facial moisturizer, mascara, and anti-ageing serum.
Ceresin can be used at a concentration of up to 48% in eyeshadow.
Ceresin is primarily used to keep stick-type products nice and solid.
Ceresin is an emulsifier that aids in the emulsion of some products, like balms and pomades.
Ceresin is used as a stiffening agent in cosmetics.
Ceresin (Melting 63C) is used as a thickener in creams, lotions. Butter, lip balm, etc.
Ceresin is used for creams, lotions or other products that need to increase the viscosity (thickening)
Ceresin is important with the context of the formulation.
Ceresin is usually used as a substitute for beeswax and paraffin in protective creams.
Ceresin improves suspension properties, viscosity, and stability of skin care preparation.
Due to the long chain and saturated hydrocarbon structure, Ceresin does not carry any charge on structure, that makes it suitable as antistatic.
Also, Ceresin forms a water repellant layer over the hair shaft, which conditions hair and makes hair look bouncy and shining.
Ceresin is used in a wide variety of formulations including body care, skin care, hair care, makeup related as well as sun protection products.
Substitute for beeswax; for making candles, wax figures; for waxed paper and cloth; in polishes, electrical insulators; waterproofing fabrics; for bottles for hydrofluoric acid; in dentistry for impression and inlay waxes and modeling compounds.
Ceresin regulates the viscosity, suspension properties, and overall stability of a skin care preparation.
Ceresin is used in protective creams as a beeswax and paraffin substitute.
This white-to-yellow waxy mixture of hydrocarbons is obtained by the purification of ozokerite.
Ceresin may cause allergic reactions.
Ceresin is used as a stiffening agent in creams and ointments, and as an emulsion stabilizer, opacifier, viscosity control agent, and thickener in pharmaceutical protective, topical, and vaginal creams.
Ceresin is also used in cosmetics and personal care products.
Ceresin is often used as a substitute for ozokerite wax due to its similar properties, and also as a substitute for beeswax and paraffin wax.
Ceresin acts as a rheological modifier at low concentrations (2–3%) and has the ability to create very small crystallites, which crosslink and establish a network structure that does not allow flow in practical conditions.
Ceresin produces stable mixtures with oils and prevents bleeding or sweating of oil, and it produces a lighter cream that is less greasy.
Ceresin is also used for pharmaceutical coating applications of medicaments, for example, protective coatings, enteric coatings, and sustained-release coatings.
Ceresin has been used in the formulation of multivesicular emulsion topical delivery systems.
Pharmaceutical Applications:
Ceresin is used as a stiffening agent in creams and ointments, and as an emulsion stabilizer, opacifier, viscosity control agent, and thickener in pharmaceutical protective, topical, and vaginal creams.
Ceresin is also used in cosmetics and personal care products.
Ceresin is often used as a substitute for ozokerite wax due to its similar properties, and also as a substitute for beeswax and paraffin wax.
Ceresin acts as a rheological modifier at low concentrations (2–3%) and has the ability to create very small crystallites, which crosslink and establish a network structure that does not allow flow in practical conditions.
Ceresin produces stable mixtures with oils and prevents bleeding or sweating of oil, and it produces a lighter cream that is less greasy.
Ceresin is also used for pharmaceutical coating applications of medicaments, for example, protective coatings, enteric coatings, and sustained-release coatings.
Ceresin has been used in the formulation of multivesicular emulsion topical delivery systems.
Skin care:
With the formulation's context, Ceresin is significant.
In protective creams, Ceresin is typically used as a beeswax and paraffin replacement.
Ceresin enhances the stability, viscosity, and suspension qualities of skin care preparations
Hair care:
Ceresin is suitable as an antistatic because of its long chain and saturated hydrocarbon structure, which prevent it from carrying any charge on the structure.
Additionally, Ceresin creates a layer that repels water on top of the hair shaft, conditioning hair and giving it a bouncy, shiny appearance
Features of Ceresin:
Ceresin which functions as a stiffening agent while providing a high degree of thixotropy, and suspension of the effect pigments.
Ceresin which provides lubricity and enhances shine.
Benefits of Ceresin:
Ceresin is used to improve products, as it is viscosity-controlling and emulsion-stabilizing.
Ceresin's main purpose is as a thickening agent that keeps the oil and liquid parts of an emulsion from separating.
As a wax, Ceresin helps harden lipid (oil)-based solutions like pomades or balms.
Ceresin works well with oil-based creams, haircare, or balms and allows oil and liquid ingredients to emulsify without separation.
Ceresin wax is compatible with a wide variety of solvents, oils, fats, resins, petrolatum, and other waxes.
Ceresin is used as a thickening ingredient that keeps together the liquid and oil parts of an emulsion and prevents them from separating.
Since ceresin is an emollient, products lacking this ingredient could cause skin irritation.
Being a wax, Ceresin helps harden oil-based compounds like pomades or balms.
Ceresin has conditioning and moisturizing properties for the skin and acts as a moisture barrier, thus sealing water and active ingredients close to the skin.
Ceresin’s best for dry, rough and cracked skin that requires moisturizing.
Ceresin is also low allergenic, non-irritating and non-comedogenic.
Functions of Ceresin In Cosmetic Products:
Antistatic:
Ceresin reduces electrostatic charges (eg of the hair)
Binding:
Ceresin ensures the cohesion of powdered products
Emulsion Stabilising:
Ceresin supports emulsion formation and improves product stability
Hair Conditioning:
Ceresin leaves the hair easy to comb, supple, soft and shiny and / or imparts volume
Opacifying:
Ceresin reduces transparency and translucency by clouding the product
Viscosity Controlling:
Ceresin increases or decreases the viscosity of cosmetic products
Prdoduction Method of Ceresin:
Ceresin is prepared by extraction and purification of the native mineral fossil wax ozokerite, which is derived from coal and shale.
Ceresin is mined from deposits in various localities around the world.
Ceresin is found as irregular mineral veins or as a black mass in clay strata.
Mined ozokerite is heated to melt Ceresin, and any earth or rock is removed.
Ceresin is heated to 115–1208℃ to remove any moisture and then treated with sulfuric acid or fuming sulfuric acid.
Ceresin is decolorized using activated charcoal or silica gel, and filtered.
Ceresin decolorizing is not sufficient, Ceresin is repeatedly treated with sulfuric acid and subjected to adsorption filtration to produce more refined ceresin.
Another method of producing ceresin involves dissolving ozokerite in ligroin, treating Ceresin with activated clay, and then removing the high-boiling-point fraction.
Ceresin is a complex combination of hydrocarbons produced by the purification of ozocerite with sulfuric acid and filtration through bone black to form waxy cakes.
Handling and Storage of Ceresin:
Handling:
Avoid Inhalation:
Minimize dust generation and avoid breathing in any fumes or vapors.
Use Proper Equipment:
Handle with appropriate protective gear, including gloves and safety glasses.
Avoid Contamination:
Prevent contamination with other substances during handling.
Storage:
Conditions:
Store in a cool, dry place away from direct sunlight and heat sources.
Containers:
Keep in tightly closed containers to prevent contamination and moisture absorption.
Ventilation:
Ensure adequate ventilation in storage areas to prevent accumulation of fumes if any.
Stability and Reactivity of Ceresin:
Stability:
Stable:
Ceresin is generally stable under normal conditions of use and storage.
Conditions to Avoid:
Avoid exposure to strong acids or bases, and extreme temperatures.
Reactivity:
Reacts with strong acids or bases.
Can release hydrocarbons and other degradation products upon decomposition at high temperatures.
First Aid Measures of Ceresin:
Inhalation:
Move the person to an area with fresh air immediately.
Seek medical attention if symptoms persist or if the person has difficulty breathing.
Skin Contact:
Wash the affected area with soap and water.
Seek medical attention if irritation or symptoms develop.
Eye Contact:
Rinse eyes with water for at least 15 minutes while holding the eyelids open.
Seek medical attention if irritation persists.
Ingestion:
Rinse mouth with water and do not induce vomiting unless directed by a medical professional.
Medical Attention:
Seek medical attention immediately.
Fire Fighting Measures of Ceresin:
Suitable Extinguishing Media:
Water:
Use water spray to cool containers and extinguish fire.
Foam:
Use foam or dry chemical extinguishers suitable for hydrocarbons.
CO₂:
Carbon dioxide extinguishers can also be used.
Special Fire Fighting Procedures:
Protective Gear:
Wear self-contained breathing apparatus (SCBA) and protective clothing.
Hazards:
Be aware of potential smoke and fumes that may be hazardous.
Unusual Fire and Explosion Hazards:
Decomposition Products:
Hazardous fumes may be released when burning or decomposing.
Accidental Release Measures of Ceresin:
Personal Precautions:
Protective Equipment:
Wear appropriate protective gear, including gloves, goggles, and a mask if necessary.
Ventilation:
Ensure adequate ventilation in the affected area.
Spill Containment and Cleanup:
Contain Spill:
Use absorbent materials to contain and collect the spilled material.
Dispose Properly:
Dispose of waste material in accordance with local regulations and guidelines.
Environmental Precautions:
Prevent Spread:
Prevent the material from entering waterways or drains.
Exposure Controls/Personal Protective Equipment of Ceresin:
Occupational Exposure Limits:
No specific limits:
As Ceresin is not typically classified as hazardous, no specific exposure limits are generally set.
However, standard industrial hygiene practices should be followed.
Engineering Controls:
Ventilation:
Use adequate ventilation in areas where Ceresin is handled or processed.
Personal Protective Equipment (PPE):
Gloves:
Wear gloves to prevent skin contact.
Eye Protection:
Use safety glasses or goggles to protect eyes from splashes or dust.
Respiratory Protection:
Use a mask or respirator if dust or fumes are generated.
Protective Clothing:
Wear suitable protective clothing to minimize skin exposure.
Identifiers of Ceresin:
CAS Number: 8001-75-0
EC Number: 232-290-1
MDL Number: MFCD00146361
Molecular Formula: C30H50O2
Chemical Abstracts Service (CAS) Number: 8001-75-0
European Chemical Agency (ECHA) EC Number: 232-315-6
PubChem CID: 152414
Beilstein Reference: 107706
ChemSpider ID: 135181
IUPAC Name: Not applicable (common name used)
UN Number: Not typically assigned, as Ceresin is not considered a hazardous material under normal conditions
RTECS Number: Not available
HS Code (Harmonized System): 2712.10 (for paraffin waxes and similar products)
EINECS Number: 232-315-6
SMILES Notation: Not typically used for waxes
InChI Key: Not typically used for waxes
CAS NUMBER: 8001-75-0
EC NUMBER: 232-290-1
MOLECULAR FORMULA: C30H50O2
MOLECULAR WEIGHT: 442.73
Properties of Ceresin:
Appearance: White to yellowish waxy solid
Odor: Odorless or faint characteristic odor
Melting Point: 80-90°C (176-194°F)
Density: ~0.9-1.0 g/cm³
Solubility: Insoluble in water; soluble in organic solvents such as chloroform, benzene, and toluene
Color: White to light yellow
Flash Point: Typically > 200°C (392°F)
Melting Point: 53-79°C
Solubility: Insoluble in water
Soluble in benzene, chloroform, naphtha
Melting point: 61-78°
Density 0.91-0.92
Flash point: 113 °C
solubility: Soluble in benzene, chloroform, naphtha, hot oils, petroleum ether,
30 parts absolute ethanol, turpentine, carbon disulfide, and most organic solvents.
Insoluble in water.
form: Solid
color: White waxy
Odor: Odorless
Water Solubility: Insoluble in water
CAS DataBase Reference 8001-75-0
Indirect Additives used in Food Contact Substances: CERESIN WAX (OZOCERITE)
EWG's Food Scores: 1
FDA UNII: Q1LS2UJO3A
EPA Substance Registry System: Ceresin (8001-75-0)
Molecular Formula: C30H50O2
Boiling Point: 343°C
Melting Point: 61-78°C
Flash Point: 215.876°C
Density: 0.91-0.92 g/cm3
Solubility: Soluble in Benzene, Chloroform,
Naphtha, Hot Oils, Petroleum Ether,
30 Parts Absolute Ethanol, Turpentine,
Carbon Disulfide, and Most Organic Solvents; Insoluble in Water
Appearance: White to Yellow Waxy Cakes or Pastilles
Storage: Store at RT
Assay: 99.9%min
Refractive Index: 1.514
Specifications of Ceresin:
Appearance: White to yellowish, waxy solid
Odor: Odorless or faintly characteristic
Melting Point: 80-90°C (176-194°F)
Density: ~0.9-1.0 g/cm³
Solubility: Insoluble in water; soluble in organic solvents such as chloroform, benzene, and toluene
Acid Value: Typically low, often ≤ 0.5 mg KOH/g
Saponification Value: Low, often ≤ 1 mg KOH/g
Flash Point: Typically > 200°C (392°F)
Color: White to light yellow