AGNIQUE GLP 45
AGNIQUE GLP 45 helps reduce poor surface contact by allowing the spray solution to attach and spread more smoothly on treated crops.
AGNIQUE GLP 45 supports better formulation balance by keeping different liquid components more compatible within the system.
AGNIQUE GLP 45 is useful when an agrochemical product needs improved wetting performance without making the formulation too harsh or unstable.
CAS Number: 147170-44-3
Synonyms: Cocoamidopropyl betaine, Cocamidopropyl betaine, CAPB, Fatty acid amide betaine, Amidopropyl betaine, Coco betaine derivative, Betaine-based surfactant, Amphoteric surfactant, Zwitterionic surfactant, Agrochemical wetting agent, Crop protection surfactant, Formulation aid, Wetting and spreading agent, Mild surfactant, Liquid amphoteric surfactant
AGNIQUE GLP 45 is a fatty acid amid derivate based on betaine with a clear, yellowish liquid appearance.
AGNIQUE GLP 45 can be used as emulsifier in bitumeneous applications both for anionic and cationic bitumen products.
AGNIQUE GLP 45 is a betaine-based fatty acid amide derivative used as a surfactant and formulation aid in agrochemical systems.
AGNIQUE GLP 45 is supplied as a clear yellowish liquid with approximately 45% active concentration.
AGNIQUE GLP 45 is mainly used to support wetting, emulsification, dispersion, and compatibility in crop protection formulations.
AGNIQUE GLP 45's amphoteric surfactant character makes it useful in systems that need mild but effective surface activity, foam control balance, and stable formulation performance.
AGNIQUE GLP 45 as a fatty acid amide derivative based on betaine with liquid physical form and about 45% concentration.
Uses of AGNIQUE GLP 45:
AGNIQUE GLP 45 is used in agrochemical formulations as an amphoteric surfactant and formulation aid.
AGNIQUE GLP 45 helps improve wetting, spreading, emulsification, and compatibility between different formulation components.
AGNIQUE GLP 45 is suitable for pesticide, herbicide, fungicide, and insecticide formulations where stable dispersion and uniform active ingredient distribution are needed.
AGNIQUE GLP 45 is also useful in spray adjuvant systems that require mild but effective surface activity and consistent application performance.
AGNIQUE GLP 45 exhibits good wetting, foaming, and detergency properties, making them effective in cleaning and personal care products.
AGNIQUE GLP 45 is also stable across a wide pH range and compatible with various other surfactants.
AGNIQUE GLP 45 is used to enhance the formation of foams in detergents.
AGNIQUE GLP 45 is also used in the personal care industry because they are biodegradable and safe for sensitive skin.
Oilfield Chemicals:
In the oil and gas industry, AGNIQUE GLP 45 is used in drilling and completion fluids as emulsifiers and foaming agents.
AGNIQUE GLP 45 is a sustainable and eco-friendly class of surfactants widely used in personal care products, household cleaning, agriculture, and industrial applications.
Personal Care Products use:
AGNIQUE GLP 45 is commonly found in personal care items like shampoos, body washes, and facial cleansers.
AGNIQUE GLP 45 provide gentle and effective cleansing while being less likely to cause skin irritation or allergies.
Household Cleaning Products use:
AGNIQUE GLP 45 is key ingredients in eco-friendly household cleaning products such as dishwashing detergents, all-purpose cleaners, and laundry detergents.
AGNIQUE GLP 45 offers excellent degreasing and dirt-removing capabilities.
Additional Characteristics of AGNIQUE GLP 45:
Derived from renewable resources (sugar + fatty alcohol)
Readily biodegradable
Low toxicity and eco-friendly profile
Excellent compatibility with other surfactants
Good dermatological mildness (compared to anionics)
Benefits of AGNIQUE GLP 45:
The utility of AGNIQUE GLP 45 can be attributed to several key advantages:
Biodegradability:
AGNIQUE GLP is derived from renewable resources and are readily biodegradable, reducing their environmental impact.
Low Toxicity:
AGNIQUE GLP 45 is known for their low toxicity and minimal risk to human health, making them suitable for use in personal care products.
Effectiveness:
AGNIQUE GLP 45 offers effective cleaning and foaming properties, comparable to traditional surfactants, without the associated environmental concerns.
Versatility:
AGNIQUE GLP 45 is compatible with a wide range of other ingredients and can be used in various formulations.
Physical and Chemical Properties of AGNIQUE GLP 45:
AGNIQUE GLP 45 is a water-soluble, nonionic surfactant solution based on alkyl polyglucoside chemistry, typically appearing as a yellowish liquid with moderate to high viscosity.
AGNIQUE GLP 45 exhibits excellent solubility in water due to the presence of multiple hydroxyl groups within its glucose-derived structure, which provide strong hydrophilicity.
Chemically, AGNIQUE GLP 45 consists of fatty alkyl chains linked to glucose units via glycosidic bonds, resulting in a structure that combines hydrophobic and hydrophilic characteristics.
AGNIQUE GLP 45 is stable under alkaline and neutral conditions but may undergo hydrolysis in strongly acidic environments.
AGNIQUE GLP 45 shows high resistance to water hardness and electrolytes, maintaining performance in challenging formulation conditions.
AGNIQUE GLP 45's high foaming capacity and ability to reduce surface tension make it particularly effective as a wetting and cleaning agent.
Manufacturing of AGNIQUE GLP 45:
AGNIQUE GLP 45 is generally manufactured as a fatty acid amide betaine derivative through a two-step surfactant production route.
First, fatty acids or fatty acid methyl esters are reacted with an amine such as dimethylaminopropylamine to form a fatty amidoamine intermediate.
Then, this intermediate is converted into a betaine-type amphoteric surfactant by reaction with a carboxymethylating agent such as sodium chloroacetate.
The final product is adjusted in water to obtain an approximately 45% active, clear yellowish liquid surfactant suitable for agrochemical formulation use.
AGNIQUE GLP 45 as a fatty acid amide derivative based on betaine, while general betaine surfactant manufacturing commonly follows amidation followed by betainization/quaternization.
Stability and Reactivity of AGNIQUE GLP 45:
Chemical stability:
AGNIQUE GLP 45 is stable under recommended storage and handling conditions.
Reactivity:
No hazardous reactions are expected under normal use conditions.
Possibility of hazardous reactions:
Dangerous reactions are not expected when handled properly.
Conditions to avoid:
Excessive heat, open flames, sparks, direct sunlight, freezing conditions, and overheated storage areas should be avoided.
Incompatible materials:
Strong oxidizing agents, strong acids, strong bases, and reactive chemicals should be avoided.
Hazardous decomposition products:
Thermal decomposition or combustion may produce carbon oxides, nitrogen oxides, and irritating fumes.
Handling and Storage of AGNIQUE GLP 45:
Handling:
AGNIQUE GLP 45 should be handled according to good industrial hygiene and safety practices.
Safe handling:
Avoid contact with skin, eyes, and clothing.
Hygiene measures:
Wash hands thoroughly after handling.
Storage:
Store in tightly closed containers in a dry, cool, and well-ventilated area.
Storage conditions:
Keep away from heat, direct sunlight, frost, and incompatible materials.
Container requirements:
Keep containers sealed when not in use to prevent contamination and evaporation.
Processing note:
Mix gently before use if cloudiness or separation occurs during storage.
First Aid Measures of AGNIQUE GLP 45:
General advice:
Remove contaminated clothing and seek medical attention if symptoms occur.
Inhalation:
Move the affected person to fresh air and keep them comfortable.
Skin contact:
Wash skin thoroughly with soap and water.
Eye contact:
Rinse carefully with water for several minutes.
Ingestion:
Rinse mouth with water and seek medical advice if discomfort continues.
Medical advice:
Treat symptomatically.
Firefighting Measures of AGNIQUE GLP 45:
Suitable extinguishing media:
Use water spray, foam, dry chemical powder, or carbon dioxide.
Unsuitable extinguishing media:
Avoid using a strong direct water jet if AGNIQUE GLP 45 may spread the material.
Specific fire hazards:
Fire may produce carbon oxides, nitrogen oxides, and irritating decomposition products.
Protective equipment for firefighters:
Wear self-contained breathing apparatus and full protective clothing.
Further information:
Cool exposed containers with water spray if AGNIQUE GLP 45 can be done safely.
Accidental Release Measures of AGNIQUE GLP 45:
Personal precautions:
Avoid contact with skin, eyes, and clothing.
Protective equipment:
Use suitable gloves, protective clothing, and eye protection.
Environmental precautions:
Prevent release into drains, soil, surface water, or groundwater.
Containment method:
Stop the leak if AGNIQUE GLP 45 can be done safely.
Cleaning method:
Absorb with inert material such as sand, earth, or universal binder.
Disposal:
Collect in suitable labeled containers for proper disposal.
Exposure Controls / Personal Protection of AGNIQUE GLP 45:
Engineering controls:
Use adequate workplace ventilation.
Eye protection:
Wear safety glasses or chemical goggles.
Hand protection:
Wear chemical-resistant protective gloves.
Skin protection:
Wear suitable protective clothing.
Respiratory protection:
Use respiratory protection if ventilation is insufficient or mist/aerosol exposure may occur.
General hygiene measures:
Do not eat, drink, or smoke while handling the product.
Personal hygiene:
Wash hands and exposed skin after use.
Identifiers of AGNIQUE GLP 45:
Product number: 30553021
Chemical family: Fatty acid amide derivative based on betaine
CAS number: 147170-44-3
Product Number (PRD): 30553021
Chemical/Common Name: -
Product Number: 511850
Unit of Measure: -
Properties of AGNIQUE GLP 45:
Chemical type: Fatty acid amide betaine derivative
Physical form: Liquid
Appearance: Clear yellowish liquid
Active content: Approximately 45%
Viscosity at 23 °C: Approximately 53 mPa·s
Density at 20 °C: Approximately 1.07 kg/L
Water solubility: Soluble
Static surface tension: Approximately 33.5 mN/m
Dynamic surface tension at 0.1 s: Approximately 56.1 mN/m
CMC: Approximately 0.018 g/L
