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Tribromoneopentyl Alcohol is a brominated flame retardant known for its high thermal stability and excellent flame inhibition properties.
Tribromoneopentyl Alcohol is commonly used in plastics, resins, polyurethane foams, and textiles to reduce flammability and meet fire safety standards.
Tribromoneopentyl Alcohol is valued for its low volatility, low toxicity, and strong compatibility with polymer matrices.
CAS Number: 36483-57-5
EC Number: 253-057-0
Molecular Formula: C5H9Br3O
Molecular Weight: 344.84 g/mol
Synonyms: TBPA, Tribromoneopentanol, Flame Retardant FR-513, 2,2-Bis(bromomethyl)-3-bromo-1-propanol, Tribromo Neopentyl Alcohol, TBPA Flame Retardant, Neopentyl Alcohol Tribrominated, FR-513 Flame Retardant, Brominated Alcohol FR, TBPA Additive, Tribromoneopentyl Alcohol, 2,2-Bis(bromomethyl)-3-butanol, Tribromo‑2,2,4‑trimethyl‑3‑pentanol, Tribromo neopentyl alcohol, Tribromoneopentylol, 2,2-bis(bromomethyl)-3-methyl-3-butanol, Tribromo‑2,2-dimethyl‑4-hydroxypentane, Tribromo‑neopentylol, TBNPA, Neopentyl tribromol, 3‑Hydroxy-2,2-bis(bromomethyl)-4-methylpentane, 1-hydroxy-1-(tribromoneopentyl) propane, 2,2‑bis(bromomethyl)-3‑hydroxy-3-methylbutane, Tribromo‑neopentanol, 2,2‑bis(bromomethyl)-3‑hydroxy-3‑methylpentanol, 3‑hydroxy‑2,2‑bis(bromomethyl)-4‑methylpentane‑1‑ol, Neopentyl tribromo alcohol, Tribromo‑neopentylol‑3, TBNPA‑3‑OH, Tribromo tertiary alcohol, Halogenated neopentyl alcohol, Tribromo neopentanol, Brominated neopentyl alcohol, Tribromoneopentanol, Bromoneopentyl alcohol, Neopentyl tribromo tertiary alcohol
APPLICATIONS
Tribromoneopentyl Alcohol is widely used as a reactive flame retardant in the production of rigid and flexible polyurethane foams.
Tribromoneopentyl Alcohol reacts with isocyanates in foam formulations to create flame-retardant polymer backbones.
Tribromoneopentyl Alcohol helps reduce flammability and improve thermal resistance in insulation and furniture foams.
Tribromoneopentyl Alcohol is incorporated into epoxy and unsaturated polyester resins for use in electronics and building materials.
Tribromoneopentyl Alcohol enhances fire safety in circuit boards, laminates, adhesives, and coatings.
Tribromoneopentyl Alcohol maintains structural integrity while reducing flame spread.
Tribromoneopentyl Alcohol is used in thermoplastic materials such as ABS, HIPS, and polyolefins to improve flame retardancy.
Tribromoneopentyl Alcohol is often blended with synergists such as antimony trioxide for optimal performance.
Tribromoneopentyl Alcohol does not migrate significantly from polymers, maintaining long-term flame protection.
Tribromoneopentyl Alcohol is applied in wire and cable insulation to reduce combustion risk and improve safety.
Tribromoneopentyl Alcohol resists degradation during high-temperature extrusion processes.
Tribromoneopentyl Alcohol helps meet stringent fire safety standards in construction and transportation industries.
Tribromoneopentyl Alcohol is used in coatings and adhesives to reduce surface flammability and improve resistance to ignition.
Tribromoneopentyl Alcohol is compatible with solvent-based and waterborne systems.
Tribromoneopentyl Alcohol supports applications in flooring, wall coverings, and protective coatings.
Tribromoneopentyl Alcohol is employed in textile back coatings and laminates for upholstery and drapery.
Tribromoneopentyl Alcohol imparts durable flame resistance that survives multiple washes.
Tribromoneopentyl Alcohol supports compliance with flammability regulations in home furnishings.
Tribromoneopentyl Alcohol is used in elastomers and sealants to provide enhanced fire resistance.
Tribromoneopentyl Alcohol contributes to the safe performance of rubber-based products in automotive and industrial settings.
Tribromoneopentyl Alcohol helps maintain flexibility and elasticity without compromising safety.
Tribromoneopentyl Alcohol is included in building panels and insulation boards to ensure fire retardant performance.
Tribromoneopentyl Alcohol supports low-smoke and low-toxicity applications for indoor environments.
Tribromoneopentyl Alcohol helps meet international fire testing standards such as UL 94 and DIN 4102.
Tribromoneopentyl Alcohol is used in the manufacture of cast resins and potting compounds for electrical components.
Tribromoneopentyl Alcohol prevents ignition and limits damage in short-circuit or overheating conditions.
Tribromoneopentyl Alcohol improves product reliability in electronics and appliances.
Tribromoneopentyl Alcohol is employed in intumescent systems to enhance char formation and delay ignition.
Tribromoneopentyl Alcohol works synergistically with phosphorus-based additives in fire-retardant coatings.
Tribromoneopentyl Alcohol extends escape time and reduces heat release in fire scenarios.
Tribromoneopentyl Alcohol is used as a reactive flame retardant in the production of rigid polyurethane foams.
Tribromoneopentyl Alcohol is incorporated into thermosetting resins to enhance flame resistance.
Tribromoneopentyl Alcohol is used in the manufacturing of polyester resins for construction applications.
Tribromoneopentyl Alcohol is employed in electronics for printed circuit board insulation.
Tribromoneopentyl Alcohol is used in adhesives and sealants requiring flame retardant properties.
Tribromoneopentyl Alcohol is applied in wire and cable coatings for fire safety.
Tribromoneopentyl Alcohol is used in the automotive sector for under-the-hood components.
Tribromoneopentyl Alcohol is included in insulation panels for residential and commercial buildings.
Tribromoneopentyl Alcohol is used in coatings for textile backings and carpets.
Tribromoneopentyl Alcohol is used in structural foam applications in public transportation.
Tribromoneopentyl Alcohol is added to synthetic rubber formulations to meet flammability standards.
Tribromoneopentyl Alcohol is used in rigid polyurethane foam for thermal insulation in refrigerators.
Tribromoneopentyl Alcohol is employed in elastomers where high fire resistance is necessary.
Tribromoneopentyl Alcohol is used in construction panels for tunnels and infrastructure.
Tribromoneopentyl Alcohol is included in encapsulation materials for sensitive electronic devices.
Tribromoneopentyl Alcohol is used in flame-retardant molded plastics.
Tribromoneopentyl Alcohol is utilized in marine equipment insulation for fire protection.
Tribromoneopentyl Alcohol is applied in the manufacture of air duct insulation.
Tribromoneopentyl Alcohol is used in conveyor belts and rollers in high-heat environments.
Tribromoneopentyl Alcohol is added to epoxy resins in aerospace applications.
Tribromoneopentyl Alcohol is used in composite panels for railway coaches.
Tribromoneopentyl Alcohol is employed in battery housings to prevent ignition risks.
Tribromoneopentyl Alcohol is used in anti-vibration foam components in vehicles.
Tribromoneopentyl Alcohol is used in electronic potting compounds for flame retardancy.
Tribromoneopentyl Alcohol is included in automotive headliners and interior panels.
Tribromoneopentyl Alcohol is applied in bus interior foam for fire safety compliance.
Tribromoneopentyl Alcohol is used in reactive flame retardant coatings for wood substrates.
Tribromoneopentyl Alcohol is used in insulation boards for HVAC systems.
Tribromoneopentyl Alcohol is used in mattresses and upholstered furniture for fire retardancy.
Tribromoneopentyl Alcohol is employed in flexible polyurethane foams in public seating.
Tribromoneopentyl Alcohol is used in packaging materials that require flame resistance.
Tribromoneopentyl Alcohol is used in laminates for industrial paneling.
Tribromoneopentyl Alcohol is used in roofing insulation materials.
Tribromoneopentyl Alcohol is incorporated into coatings for protection of steel structures.
Tribromoneopentyl Alcohol is used in railway seat foams for meeting fire retardant norms.
Tribromoneopentyl Alcohol is used in aeronautical insulation panels.
Tribromoneopentyl Alcohol is employed in wall panels in data centers for fire safety.
Tribromoneopentyl Alcohol is added to phenolic resin systems for improved flame retardancy.
Tribromoneopentyl Alcohol is used in acoustical ceiling panels.
Tribromoneopentyl Alcohol is used in sports equipment foams to minimize fire risk.
Tribromoneopentyl Alcohol is used in aircraft cargo hold liners.
Tribromoneopentyl Alcohol is added to insulation in electric vehicle battery compartments.
Tribromoneopentyl Alcohol is used in foam parts in mass transit seats.
Tribromoneopentyl Alcohol is employed in flame-retardant adhesives for laminate manufacturing.
Tribromoneopentyl Alcohol is used in portable appliance insulation parts.
Tribromoneopentyl Alcohol is used in high-density insulation for freezer trucks.
Tribromoneopentyl Alcohol is included in thermal insulation for piping in oil and gas facilities.
Tribromoneopentyl Alcohol is used in back-coating formulations for curtains and blinds.
Tribromoneopentyl Alcohol is used in packaging foams for hazardous material transport.
Tribromoneopentyl Alcohol is applied in fire-resistant partition boards in commercial interiors.
DESCRIPTION
Tribromoneopentyl Alcohol is a white to off-white crystalline solid or powder with a faint characteristic odor.
Tribromoneopentyl Alcohol is a reactive brominated alcohol used primarily as a flame-retardant building block.
Tribromoneopentyl Alcohol is thermally stable and has low volatility, making it suitable for high-temperature applications.
Tribromoneopentyl Alcohol is synthesized through the bromination of neopentyl glycol derivatives.
Tribromoneopentyl Alcohol features three bromine atoms, contributing to its flame-inhibiting effectiveness.
Tribromoneopentyl Alcohol reacts with resins and polyols through its hydroxyl group to become part of the polymer structure.
Tribromoneopentyl Alcohol has low water solubility but is soluble in many organic solvents.
Tribromoneopentyl Alcohol resists migration and volatilization in finished products.
Tribromoneopentyl Alcohol is non-corrosive and compatible with most polymer processing techniques.
Tribromoneopentyl Alcohol is considered safer and less toxic than older flame retardants such as PBB and PBDE.
Tribromoneopentyl Alcohol complies with many regional fire safety standards without compromising product quality.
Tribromoneopentyl Alcohol is a preferred additive for applications requiring durable, halogenated flame protection.
Tribromoneopentyl Alcohol is not classified as a carcinogen or mutagen under most regulatory frameworks.
Tribromoneopentyl Alcohol may cause mild skin or eye irritation upon direct contact.
Tribromoneopentyl Alcohol should be handled with appropriate safety measures to avoid dust inhalation and contact.
Tribromoneopentyl Alcohol is a brominated flame retardant with reactive hydroxyl functionality.
Tribromoneopentyl Alcohol is used primarily in polyurethane and polyester resin systems.
Tribromoneopentyl Alcohol imparts flame retardancy by releasing bromine atoms during combustion.
Tribromoneopentyl Alcohol is a white to off-white crystalline solid that is stable at room temperature.
Tribromoneopentyl Alcohol chemically bonds with polymers, reducing migration and improving permanence.
Tribromoneopentyl Alcohol has low volatility, making it suitable for high-temperature applications.
Tribromoneopentyl Alcohol is compatible with many thermoset resin systems and foam formulations.
Tribromoneopentyl Alcohol contributes to reduced smoke generation during fire events.
Tribromoneopentyl Alcohol meets global flammability standards in various industrial sectors.
Tribromoneopentyl Alcohol is considered effective at low concentrations, optimizing cost-performance balance.
PROPERTIES
Chemical Name: 3-Bromo-2,2-bis(bromomethyl)-1-propanol
Molecular Formula: C5H9Br3O
Molecular Weight: 344.84 g/mol
Appearance: White to off-white crystalline solid
Odor: Faint, characteristic
Melting Point: 64–68°C
Boiling Point: Decomposes before boiling
Density: ~2.17 g/cm³
Solubility: Low in water; soluble in organic solvents
Flash Point: >200°C (closed cup)
Stability: Stable under recommended storage conditions
Storage: Keep in tightly closed containers in a dry, cool, well-ventilated place
Shelf Life: 2 years if stored properly
Regulatory Status: Not classified as hazardous under GHS; compliant with major fire safety standards
FIRST AID
Inhalation:
Move to fresh air.
Seek medical attention if coughing or breathing difficulty occurs.
Avoid breathing dust.
Skin Contact:
Wash skin with soap and water.
Seek medical advice if irritation develops.
Remove contaminated clothing.
Eye Contact:
Flush eyes with water for at least 15 minutes.
Remove contact lenses if present.
Seek immediate medical attention if irritation persists.
Ingestion:
Rinse mouth with water.
Do not induce vomiting.
Seek medical help immediately and provide material information.
Note to Physicians:
Provide symptomatic and supportive care.
No specific antidote known.
HANDLING AND STORAGE
Handling:
Avoid dust formation and inhalation.
Use appropriate PPE including gloves and eye protection.
Handle in a well-ventilated area.
Ventilation:
Use local exhaust ventilation if dust levels are high.
Maintain exposure below occupational limits.
Storage:
Store in original containers, tightly closed.
Keep away from strong oxidizing agents and moisture.
Store in a cool, dry, and well-ventilated area.
Spill Procedures:
Sweep or vacuum spilled material.
Avoid dust dispersion.
Dispose of waste in accordance with local environmental regulations.
Disposal:
Dispose of in accordance with applicable regulations for chemical waste.
Do not release into environment without treatment.
