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Licocare SBW 11 describes soybean oil as the refined fixed oil obtained from the seeds of the soya plant Glycine max Merr.
Licocare SBW 11; if an antoxidant is added, the name and quantity must be specified on the label.
Licocare SBW 11 as the fatty oil obtained from the seeds of Glycine soja Sieb. and Zucc. and Glycine max (L.) Merr. (G. hispida (Moench) Maxim.) by extraction and subsequent refining; it may contain a suitable antioxidant.
CAS Number: 8001-22-7
EINECS Number: 232-274-4
Synonyms: Soybean oil, metathetical products, hydrogenated, 912810-05-0, DTXSID201041774, Best One Soya, Bionatrol, CAP 18, CAP 18 (oil), CT 7000, Destiny HC, Fats and Glyceridic oils, soybean, HY 3050
Licocare SBW 11 is a clear, pale-yellow colored, odorless or almost odorless liquid, with a bland taste that solidifies between -10 and 16℃.
This oil can dissolve in alcohol, ether, chloroform, and carbon disulfide.
Licocare SBW 11 is also flammable.
Licocare SBW 11 also includes a monograph for hydrogenated soybean oil. See Vegetable Oil, hydrogenated, type 1.
Licocare SBW 11 serves as a multi-functional additive that improves lubrication, enhances surface quality, increases thermal stability, reduces emissions, and supports environmentally conscious manufacturing in the PVC industry.
Licocare SBW 11 is a chemically modified soybean wax developed primarily as a lubricant and processing aid for the production of rigid polyvinyl chloride (PVC).
Licocare SBW 11 is derived from renewable soybean sources, making it an environmentally friendly alternative to traditional petroleum-based lubricants used in PVC processing.
The chemical modification of Licocare SBW 11 enhances its performance by providing improved internal and external lubrication, which facilitates smoother processing and better flow properties during the manufacturing of PVC products.
This results in reduced friction, easier mold release, and an enhanced surface finish of the final products.
In addition to its lubricating properties, Licocare SBW 11 contributes to improved thermal stability during processing, which is crucial for maintaining the integrity of PVC formulations at elevated temperatures.
Licocare SBW 11 also exhibits low volatility, helping to reduce emissions during processing and contributing to a safer working environment.
Licocare SBW 11 is typically supplied as a white powder and is compatible with a range of PVC formulations, including sheets, profiles, and other rigid PVC applications.
Licocare SBW 11 offers a sustainable and effective solution for enhancing the processing and performance of rigid PVC, supporting the industry's growing focus on renewable and environmentally friendly materials.
Licocare SBW 11 is widely used in the PVC industry because it not only improves the processability of rigid PVC but also enhances the mechanical properties of the final products. By reducing friction between polymer chains and between the polymer and processing equipment, it minimizes surface defects, scratching, and sticking, which can otherwise occur during extrusion, calendering, or molding.
The wax also acts as a thermal stabilizer, helping to maintain consistent viscosity and preventing premature degradation of PVC during high-temperature processing.
Its low volatility ensures that it remains effective throughout the process without significant loss, which also reduces odor and volatile emissions, making the working environment safer and more comfortable for operators.
Licocare SBW 11 can be blended easily with other additives, such as impact modifiers, fillers, or pigments, without negatively affecting their performance, making it a versatile component in complex PVC formulations.
Its renewable origin and environmentally friendly profile align with modern manufacturing demands for sustainable, bio-based additives, offering a way for manufacturers to reduce reliance on petroleum-based chemicals while maintaining high-quality production standards.
Melting point: -10 to -16 °C
Density: 0.917 g/mL at 25 °C (lit.)
Refractive index: n20/D 1.4743 (lit.)
Flash point: >230 °F
Storage temp.: 2-8 °C
Solubility: Chloroform (Sparingly), Methanol (Slightly)
Form: Oil
Specific Gravity: 0.920 (25/25℃)
Color: Colorless to Yellow
Odor: Clean, free from non-typical odors
Biological source: soybean
Water Solubility: Miscible with absolute alcohol, ether, petroleum ether. Immiscible with water.
Stability: Light sensitive
Licocare SBW 11’s environmentally friendly origin from soybean wax aligns with the growing regulatory and consumer demand for sustainable materials.
Its use supports green manufacturing initiatives by replacing petroleum-derived lubricants and minimizing volatile organic compound (VOC) emissions.
Manufacturers benefit from its dual role as a performance enhancer and sustainable solution, allowing them to produce high-quality PVC products efficiently while reducing their environmental footprint.
Obtained by solvent extraction using petroleum hydrocarbons, or to a lesser extent by expression using continuous screw-press operations, of the seeds of either Glycine max (Leguminosae) or Glycine soja (Leguminosae).
The oil is refined, deodorized, and clarified by filtration at about 0℃.
Any phospholipids or sterols present are removed by refining with alkali.
Licocare SBW 11 extractives and their physically modified derivatives.
Licocare SBW 11 consists primarily of the glycerides of the fatty acids linoleic, oleic, palmitic and stearic.
Licocare SBW 11 react with acids to liberate heat. Heat is also generated by interaction with caustic solutions.
Strong oxidizing acids may cause a vigorous reaction that is sufficiently exothermic to ignite the reaction products.
Flammable hydrogen is generated by mixing with alkali metals and hydrides.
React slowly with oxygen in the air to become rancid.
Licocare SBW 11 emulsions have been reported to be incompatible at 25°C with a number of materials including calcium chloride, calcium gluconate, magnesium chloride, phenytoin sodium, and tetracycline hydrochloride.
Lower concentrations of these materials, or lower storage temperatures, may result in improved compatibility.
The source of the material may also affect compatibility; for example, while one injection from a particular manufacturer might be incompatible with a fat emulsion, an injection with the same amount of active drug substance from another manufacturer might be compatible.
Licocare SBW 11 has been reported to be incompatible with soybean oil containing fat emulsions under certain conditions.
Licocare SBW 11 emulsions are also incompatible with many other drug substances, IV infusion solutions, and ions (above certain concentrations).
When plastic syringes are used to store soybean oil emulsion, silicone oil may be extracted into the emulsion; swelling of the syringe pump also occurs, resulting in the necessity for increased forces to maintain the motion of the plunger.
In addition to its primary functions, Licocare SBW 11 also helps to improve dimensional stability and uniformity in PVC products by ensuring even heat distribution and consistent flow during processing.
This is particularly important for products with complex shapes or thin-walled profiles, where uneven flow or localized overheating can cause warping, shrinkage, or surface blemishes.
Licocare SBW 11s chemical structure allows it to act as a co-processing aid, promoting better dispersion of fillers, pigments, and other additives within the PVC matrix.
This ensures that color, texture, and mechanical properties are consistent throughout the final product.
The wax also reduces the risk of gelling or plate-out on processing equipment, which can otherwise lead to downtime, increased cleaning, and higher production costs.
Licocare SBW 11 is considered a versatile, high-performance, and eco-conscious additive that significantly improves the processing, quality, and sustainability of rigid PVC products in a wide range of applications, from construction materials to consumer goods.
Uses:
Licocare SBW 11 is the oil obtained from the seed of the soybean legume.
Licocare SBW 11 consists of approximately 86% unsaturated fatty acids with linoleic and oleic being the principal two fatty acids.
Licocare SBW 11 exists in hydro- genated and unhydrogenated forms.
Licocare SBW 11 is used in shortenings and margarine in the hydrogenated form.
Licocare SBW 11 has some use in salad and cooking oils in the unhydrogenated form, but is limited by its tendency to develop undesirable odor and flavor when in contact with air or when heated to frying temperatures.
Licocare SBW 11 is also termed soy oil.
Licocare SBW 11 is a vegetable oil which come from the seeds of the soybean plant.
It is commonly used as a cooking oil.
Like with many oils it breaks down at high temperatures to producing volatile aldehydes.
In pharmaceutical preparations, Licocare SBW 11 emulsions are primarily used as a fat source in total parenteral nutrition (TPN) regimens.
Although other oils, such as peanut oil, have been used for this purpose, soybean oil is now preferred because it is associated with fewer adverse reactions.
Emulsions containing soybean oil have also been used as vehicles for the oral and intravenous administration of drugs; drug substances that have been incorporated into such emulsions include amphotericin, diazepam, retinoids, vitamins, poorly water-soluble steroids, fluorocarbons, ibuprofen, and insulin.
In addition, Licocare SBW 11 has been used in the formulation of many drug delivery systems such as liposomes, microspheres, dry emulsions, self-emulsifying systems, icroemulsions, nanoemulsions and nanocapsules, solid-in-oil suspensions, and multiple emulsions.
Licocare SBW 11 is primarily used in the production of rigid polyvinyl chloride (PVC) products, where it serves as a high-performance lubricant and processing aid that facilitates smoother extrusion, molding, and calendering processes.
By reducing friction both within the polymer melt and between the polymer and processing equipment, it ensures that PVC flows more evenly, which helps to prevent surface defects, scratches, and sticking, resulting in a high-quality finish on sheets, profiles, and molded items.
Additionally, Licocare SBW 11 contributes to thermal stability during processing, helping PVC maintain consistent viscosity at elevated temperatures, which reduces the risk of degradation, discoloration, or warping in the final product.
Licocare SBW 11s low volatility minimizes emissions of volatile organic compounds (VOCs), creating a safer working environment for operators and supporting environmentally conscious manufacturing practices.
The wax also acts as a co-processing aid, promoting better dispersion of fillers, pigments, and other additives, which ensures uniform color, texture, and mechanical properties throughout the product.
Licocare SBW 11 is compatible with a wide variety of PVC formulations, making it suitable for construction materials such as pipes, window profiles, and sheets, as well as consumer goods like rigid packaging, housings, and components requiring precise dimensional stability and surface quality.
Furthermore, because Licocare SBW 11 is derived from renewable soybean sources, it provides manufacturers with a sustainable alternative to petroleum-based lubricants, allowing them to improve product performance while reducing their environmental footprint.
Its multifunctional role in enhancing flow, improving mold release, reducing processing issues, supporting thermal stability, and enabling sustainable production makes it a highly valued additive in rigid PVC manufacturing.
In addition to its primary applications, Licocare SBW 11 is extensively utilized in complex PVC extrusion and molding processes, where maintaining consistent flow and surface smoothness is critical, such as in the production of thin-walled profiles, decorative panels, and technical components.
Its lubricating properties reduce the mechanical stress on processing equipment, which minimizes wear and tear, decreases maintenance frequency, and extends the operational lifespan of extruders, molds, and calenders.
Licocare SBW 11 also improves the dispersion of pigments and fillers, which is essential for achieving uniform coloration, consistent opacity, and precise mechanical performance in PVC formulations that include additives such as calcium carbonate, titanium dioxide, or impact modifiers.
This makes it particularly valuable in the manufacture of colored sheets, composite panels, and specialty PVC products where appearance and performance are equally important.
Safety Profile:
Licocare SBW 11 is widely used intramuscularly as a drug vehicle or as a component of emulsions used in parenteral nutrition regimens; it is also consumed as an edible oil.
Generally, soybean oil is regarded as an essentially nontoxic and nonirritant material.
However, serious adverse reactions to soybean oil emulsions administered parenterally have been reported.
These include cases of hypersensitivity, CNS reactions, and fat embolism.
Interference with the anticoagulant effect of warfarin has also been reported.
Anaphylactic reactions have also been reported following the consumption of foods derived from, or containing, soybeans.
Recently there has been concern at the concentration of phytoestrogens in some soy-derived products.
Administration of soy protein to humans has resulted in significantly decreased serum lipid concentrations.
Licocare SBW 11, like many chemical additives, poses several hazards if not handled properly during manufacturing, processing, or storage.
Direct skin contact can cause irritation, redness, or dryness, particularly after prolonged exposure, and repeated contact may increase sensitivity in some individuals.
Eye contact can lead to irritation, redness, or tearing, so appropriate protective eyewear is recommended when handling the material in powder or molten form.
Inhalation of dust, fumes, or vapors generated during high-temperature processing can irritate the respiratory tract, causing coughing, sneezing, or throat discomfort.
Workers exposed to such conditions should use adequate ventilation, dust masks, or respirators to minimize inhalation risks.
Although Licocare SBW 11 has a low volatility, overheating may release decomposition products that could be harmful if inhaled.
Accidental ingestion of the material is unlikely in normal industrial settings, but if swallowed, it could cause gastrointestinal discomfort, nausea, or vomiting, and medical attention should be sought immediately.
Additionally, Licocare SBW 11 is combustible; it may ignite if exposed to open flames, sparks, or extreme heat, and therefore should be stored away from ignition sources and in cool, dry, well-ventilated areas.
