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Radia 7513 esters are chemical compounds formed by the reaction of fatty acids with alcohols.
Radia 7513 are fatty acid esters formed by the reaction of fatty acids with methanol.
Radia 7513s are long-chain carboxylic acids commonly found in fats and oils.
CAS Number: 95912-88-2
EINECS Number: 306-084-8
In raw materal form, Radia 7513 described as a clear oly liqud that may have a lght-yellow hue.
Radia 7513 has been deemed safe by the Cosmetc Ingredent Revew Expert Panel.
Radia 7513 contans tridecyl alcohol (1-trdecanol) as alcoholc component.
Stearates are salts or esters of stearic acid (octadecanoc acid).
Radia 7513 the ester obtaned from the reacton of trdecyl alcohol combned wth stearic acid.
They are esters, which are compounds derived from the reaction between carboxylic acids (in this case, fatty acids) and alcohols.
Radia 7513 esters are used as emulsifiers, stabilizers, and flavoring agents in the food industry.
They help improve the texture of food products and can enhance the solubility of certain substances.
Radia 7513 esters are commonly used in the formulation of cosmetics and personal care products such as lotions, creams, and makeup.
They contribute to the texture, stability, and skin-feel of these products.
Radia 7513 may be used in pharmaceutical formulations for various purposes, including as excipients or carriers for drug delivery.
Radia 7513s can be used in industrial processes, such as in the production of biodiesel, where triglycerides (fats and oils) are transesterified with alcohol to produce fatty acid esters (biodiesel) and glycerol.
Certain Radia 7513 serve as surfactants in detergents and cleaning products, helping to emulsify and disperse oils and greases.
Radia 7513 can be used as plasticizers in the production of plastics and polymers, where they enhance flexibility and durability.
Radia 7513s formed by the reaction of fatty acids with glycerol.
Radia 7513, the main constituents of natural fats and oils, are a common type of glyceride.
They are often associated with biodiesel production, where triglycerides are transesterified to produce fatty acid methyl esters (FAME).
Radia 7513 is used in certain applications, including some pharmaceutical formulations.
They find applications in various industries, including cosmetics and personal care products.
They are used as emulsifiers in the food and cosmetic industries.
Radia 7513s are used as emollients in cosmetic and personal care products, providing a smooth and soft texture to creams, lotions, and other formulations.
Radia 7513s, such as mono- and diglycerides, are used as emulsifiers in food products to enhance texture and stability.
Radia 7513s can be employed in the textile industry as softening agents and finishing agents for fabrics.
Radia 7513s are utilized as lubricants and base materials for greases due to their lubricating properties.
Radia 7513 contribute to the flavor and fragrance profiles of certain foods and perfumes.
Radia 7513s are used in pharmaceuticals as coating agents for tablets, helping to control drug release.
Radia 7513 esters are used in the formulation of adhesives and sealants, providing binding and adhesive properties.
Radia 7513s are employed in metalworking fluids to provide lubrication and cooling properties during machining processes.
Radia 7513s can be used as plasticizers in the processing of polymers, improving flexibility and moldability.
Radia 7513s serve as anti-foaming agents in various industrial processes, helping to control foam formation.
Radia 7513 are used as release agents in the manufacturing of rubber and plastics, preventing sticking to molds.
Radia 7513 formed by the reaction of fatty acids with long-chain alcohols.
They are found in natural waxes and are used in cosmetics and skincare products for their emollient properties.
Radia 7513 of fatty acids with sorbitan, a sugar alcohol.
This is commonly used as emulsifiers in the food and cosmetic industries.
Radia 7513 is formed by the esterification of fatty acids with polyglycerol.
This is used as emulsifiers and stabilizers in food products.
Radia 7513s are fatty acid esters formed with propylene glycol.
Radia 7513s can be found in inks and coatings, contributing to their viscosity and adhesion properties.
Radia 7513s, particularly biodiesel derived from transesterification, are used as renewable fuel additives.
Radia 7513s are used in the formulation of agricultural products, including pesticides and herbicides.
Radia 7513s can be employed in metal coatings and as corrosion inhibitors to protect metal surfaces.
Radia 7513 serve as release agents in the production of concrete products, preventing adhesion to molds.
Radia 7513 esters find applications in the paper and pulp industry, contributing to the sizing and coating of paper.
Radia 7513s are used as flotation agents in mining processes to separate minerals from ores.
Radia 7513s are utilized in electronics manufacturing, particularly in the production of circuit boards and components.
Radia 7513s are used in the production of candles, contributing to their structure and burn characteristics.
In biomedical research, specific Radia 7513rs may be explored for drug delivery systems and biomaterials.
Radia 7513 is used as food additives to improve the texture of various products, including baked goods and confectionery.
Radia 7513 may find applications in the automotive industry, including lubricants and additives.
Radia 7513 is used in the formulation of personal lubricants.
Appearance : light yellow oily liquid
acid value : max 1 mg KOH/g
other : iodine value: max 1 gI2/100 g
viscosity at 40 °C: 14-18 mm²/s
Moisture : max 0,1%
Density : 0,855
Transesterification is a common method for producing fatty acid esters, especially in the context of biodiesel production.
Radia 7513 involves the reaction of triglycerides (fats and oils) with an alcohol, such as methanol or ethanol, to produce fatty acid esters (biodiesel) and glycerol.
Esterification is a general process used to produce esters, including fatty acid esters.
Radia 7513 involves the reaction between a carboxylic acid (fatty acid) and an alcohol in the presence of a catalyst.
Enzymatic methods, using lipases or other enzymes, can be employed for the synthesis of fatty acid esters.
These methods are often more specific and environmentally friendly.
Radia 7513 is biodegradable, making them environmentally friendly and suitable for certain applications, such as in bio-based and green products.
The viscosity and melting point of Radia 7513 can vary widely based on the specific fatty acids and alcohols involved.
These properties influence their applications, such as in lubricants or as plasticizers.
Radia 7513 is generally soluble in organic solvents and oils.
The solubility properties contribute to their effectiveness in various formulations.
Radia 7513 is an example of a fatty acid methyl ester.
Radia 7513 is derived from oleic acid, which is a monounsaturated fatty acid found in olive oil and other sources.
Radia 7513 is used in biodiesel production.
Radia 7513 of cetyl alcohol and palmitic acid.
Radia 7513 is commonly used in cosmetics and skincare products for its emollient properties.
Radia 7513 is a sorbitan ester formed by the reaction of sorbitan with stearic acid.
Radia 7513 is used as an emulsifier in food products and cosmetics.
Radia 7513 is a glyceride ester formed by the reaction of stearic acid with glycerol.
Radia 7513 is used as an emulsifier and stabilizer in food products and pharmaceuticals.
Radia 7513 derived from oleic acid.
Radia 7513 has applications in various industries, including as a solvent and as a raw material in the synthesis of other chemicals.
Radia 7513, including palmitate and palmitoleate esters.
Radia 7513 is used in cosmetics, candles, and other products.
Radia 7513, particularly those derived from renewable resources such as plant oils, are gaining attention as sustainable alternatives in various industries.
Radia 7513 is explored in the development of nanoemulsions for drug delivery systems, offering improved solubility and bioavailability.
Radia 7513 is investigated for their potential use in biopolymer composites, contributing to the development of sustainable materials.
Radia 7513 can be derived from renewable feedstocks such as vegetable oils, contributing to the development of sustainable and environmentally friendly products.
Radia 7513 is a key attribute, making them environmentally benign compared to some synthetic alternatives.
This property is advantageous in applications where biodegradability is a priority.
Radia 7513, especially those derived from natural sources, often exhibit low toxicity, making them suitable for various applications where safety and minimal environmental impact are essential.
Radia 7513 may exhibit limited oxidative stability, which can impact their shelf life.
Antioxidants or proper storage conditions may be required in certain applications.
The properties of fatty acid esters can be influenced by processing conditions during their production.
Optimizing these conditions is crucial for achieving desired product characteristics.
Compliance with regulatory standards and requirements is essential, especially in applications involving food, pharmaceuticals, and cosmetics.
Ensuring that fatty acid esters meet established safety and quality standards is paramount.
Radia 7513 is explored in the development of nanostructured lipid carriers (NLCs) for drug delivery.
These carriers offer improved drug solubility, stability, and controlled release.
Radia 7513 to tailor their properties for specific applications, such as controlled-release systems, encapsulation, and targeted delivery.
Radia 7513 is being incorporated into polymer blends and composites to enhance the mechanical properties and sustainability of these materials.
Radia 7513 is made to optimize production processes for fatty acid esters, aiming for cost-effectiveness, efficiency, and sustainability, particularly in large-scale industrial settings.
The integration of fatty acid ester production with biodiesel production processes is explored to maximize the utilization of feedstocks and reduce waste.
Radia 7513 gaining attention in the cosmeceutical industry, where they are explored for their potential benefits in skincare formulations with therapeutic properties.
Radia 7513 derived from natural sources are being investigated for incorporation into functional food products, capitalizing on their health-promoting properties.
Radia 7513 is being explored in the development of smart materials and sensors, leveraging their unique properties for applications in various technological fields.
Uses Of Radia 7513:
Radia 7513 or 11-methyldodecyl octadecanoate or Octadecanoc acd s sotrdecyl ester.
Radia 7513 used Skin care products, Raw materal for spn fnshes and olng agent for textle, Rubber processng agent, Plastc lubrcant, Pant & Ink addtve.
Radia 7513 ester used as a processng addtve n polymers.
Radia 7513 used raw materal for spn fnshes and olng agent for textle, Rubber processng agent, Plastc lubrcant, Pant & Ink addtve.
Radia 7513’s used n cosmetcs as a texture-enhancer/thckenng agent and emollent and may be anmal-derved or synthetc (Paula’s Choce uses the latter).
Radia 7513 is used for decades as high performance polymer additives for polyolefins, polyesters, rubbers and other polymer systems.
Radia 7513, such as cetyl palmitate and glyceryl stearate, are used in cosmetics and personal care products as emollients, thickeners, and stabilizers.
They contribute to the texture, spreadability, and stability of creams, lotions, and makeup.
Radia 7513s, including mono- and diglycerides, are used as emulsifiers and stabilizers in food products.
They improve the texture, shelf life, and mouthfeel of items like baked goods, margarine, and ice cream.
Radia 7513 is used as excipients and carriers for drug delivery systems.
They may be incorporated into formulations to enhance solubility and improve bioavailability.
Radia 7513, derived from transesterification of triglycerides with methanol, are a major component of biodiesel.
Biodiesel is used as an alternative, renewable fuel source.
Radia 7513s serve as lubricants and base materials for industrial lubricants and greases due to their lubricating properties.
They find applications in machinery and equipment.
Radia 7513, such as glyceryl monostearate, are used as plasticizers in the production of plastics and polymers.
They improve flexibility and moldability.
Radia 7513 may be used in the textile industry as softening agents and finishing agents for fabrics, contributing to their feel and texture.
Radia 7513s are used as surfactants in detergents and cleaning products, aiding in the emulsification and removal of oils and greases.
Radia 7513 is utilized in the production of candles, contributing to the structure and burn characteristics of the wax.
Radia 7513 can be used in metalworking fluids to provide lubrication and cooling properties during machining processes.
Certain types of Radia 7513 is used in the formulation of adhesives and sealants, providing binding and adhesive properties.
Radia 7513 is used in the formulation of agricultural products, including pesticides and herbicides.
Radia 7513 serve as release agents in the production of concrete products, preventing adhesion to molds.
Radia 7513 is utilized in the paper and pulp industry, contributing to the sizing and coating of paper.
Radia 7513 is used as flotation agents in mining processes to separate minerals from ores.
Radia 7513 derived from renewable resources, such as plant oils, are utilized in the development of sustainable and bio-based products.
Radia 7513 from natural sources are explored for incorporation into functional food products, leveraging their potential health-promoting properties.
Radia 7513 are being investigated in the development of smart materials and sensors, showcasing their versatility in various technological applications.
Radia 7513 is employed in the formulation of inks and coatings for their ability to modify viscosity and enhance adhesion.
Radia 7513, particularly those derived from biodiesel production, may serve as renewable fuel additives to improve combustion characteristics and reduce emissions.
Radia 7513 is used in metal coatings and as corrosion inhibitors to protect metal surfaces from degradation.
Radia 7513 is being explored for their incorporation into biopolymer composites, contributing to the development of sustainable and eco-friendly materials.
Radia 7513 may find applications in the automotive industry, including lubricants, additives, and potentially in the formulation of bio-based plastics.
Radia 7513 is used in the formulation of personal lubricants, providing lubrication for various applications.
Radia 7513 contribute to the flavor and fragrance profiles of certain products, including food items, perfumes, and cosmetics.
Radia 7513 is exploring the functionalization of fatty acid esters to tailor their properties for specific applications, such as controlled-release systems and encapsulation.
Radia 7513 derived from renewable feedstocks are investigated for their potential use as sustainable alternatives in polymer production.
Radia 7513 is being incorporated into nanostructured lipid carriers (NLCs) for drug delivery systems, improving drug solubility and delivery efficiency.
Ongoing research explores the use of Radia 7513 in the development of smart materials and sensors for various technological applications.
Radia 7513 is gaining attention in the cosmeceutical industry for their potential therapeutic benefits in skincare formulations.
Radia 7513 derived from natural sources are being investigated for their incorporation into functional food products, capitalizing on their potential health-promoting properties.
Radia 7513 explored in the development of lubricants and additives for automotive applications, aiming for improved performance and sustainability.
Radia 7513 contribute to green chemistry practices by offering sustainable alternatives in various industrial processes.
Radia 7513 may find applications in electronics manufacturing, particularly in the production of circuit boards and components.
Radia 7513 utilized in the production of candles, contributing to the structure and burn characteristics of the wax.
Safet Profile Of Radia 7513:
Concentrated or pure Radia 7513 can cause skin irritation, especially for individuals with sensitive skin.
Direct contact may lead to redness, itching, or dermatitis.
Radia 7513's advisable to use appropriate personal protective equipment (PPE), such as gloves, when handling concentrated esters.
Contact with Radia 7513 can cause eye irritation.
In case of accidental contact, it's important to flush the eyes with plenty of water and seek medical attention if irritation persists.
Inhalation of vapors or aerosols of certain Radia 7513 may cause respiratory irritation.
Adequate ventilation and, if necessary, respiratory protection should be used in areas where exposure is likely.
Ingesting large amounts of certain Radia 7513 may lead to gastrointestinal irritation.
While many esters are considered safe for consumption in small quantities (as in food additives), ingestion of concentrated forms should be avoided.
Some individuals may develop skin sensitization or allergies to specific fatty acid esters.
Radia 7513's important to be aware of individual sensitivities and take appropriate precautions.
Synonyms Of Radia 7513:
Fatty acids,
C16-18,
isotridecyl esters
95912-88-2
DTXSID601018329
Fettsuren, C16-18-, Isotrdecylester
Fatty acds, C16-18, sotrdecyl esters
Fatty acds, C16-18, sotrdecyl esters
Isotrdecyl stearate
31565-37-4
11-methyldodecyl octadecanoate
Octadecanoc acd, sotrdecyl ester
Octadecanoc acd,sotrdecyl ester
J8793TKA30
Stearc acd, sotrdecyl ester
EINECS 250-703-3
UNII-J8793TKA30
EXCEPARL TD-S
SCHEMBL2699239
ISOTRIDECYL STEARATE [INCI]
W-110802
Q27281337
Isotrdecylstearat
sotrdecyl stearate
11-methyldodecyl octadecanoate
Stearc acd, sotrdecyl ester
Octadecanoc acd, sotrdecyl ester
