INFINEUM T4294

INFINEUM T4294 is a proprietary lubricant additive produced by Infineum International for use in engine and industrial oil formulations.
INFINEUM T4294 is designed to improve deposit control and cleanliness in lubricated systems.
INFINEUM T4294 is supplied as a viscous liquid concentrate that is blended into base oils during formulation.

CAS Number: 253873-83-5

Synonyms: Molybdenum, (bis(2-ethylhexyl)carbamodithioato-kappas,kappas')(ditridecylcarbamodithioato-kappas,kappas')dioxodi-mu-thioxodi-, branched;Molybdenum, (N,N-bis(2-ethylhexyl)carbamodithioato-kappas,kappas')(N,N-ditridecylcarbamodithioato-kappas,kappas')dioxodi-mu-thioxodi-, branched;Molybdenum Diakyldithiocarbamate;Molybdenum,[N,N-bis(2-ethylhexyl)carbamodithioato-kS,kS'](N,N-ditridecylcarbamodithioato-kS,kS')dioxodi-m-thioxodi-,branched;Bis(dibutyldithiocarbamato)molybdenum

INFINEUM T4294 is a multifunctional additive package rather than a single pure compound.
INFINEUM T4294 typically contains dispersant and detergent type components based on nitrogen containing organic molecules.
These components help keep insoluble oxidation products suspended in the oil and prevent sludge formation.

In lubricant applications it is used to control piston deposits and reduce varnish formation on metal surfaces.
INFINEUM T4294 helps maintain engine cleanliness under high temperature operating conditions.
This contributes to longer oil life and improved engine efficiency.

INFINEUM T4294 also supports protection against corrosion and surface degradation.
INFINEUM T4294 forms protective films that reduce metal to metal contact and chemical attack.
This improves durability of engine parts and industrial machinery components.

INFINEUM T4294 is intended for professional industrial use in lubricant manufacturing.
It is not sold for direct consumer application or standalone use.
Proper formulation requires compatibility testing with other additive components and base oils.

From a safety perspective INFINEUM T4294 is classified as low volatility but may cause irritation on prolonged skin contact.
Direct eye contact can cause irritation and should be avoided.
Protective gloves and eye protection are recommended during handling and blending operations.

INFINEUM T4294 is formulated to be compatible with a wide range of mineral and synthetic base oils.
This allows flexible use in different lubricant grades and viscosity classes.
It supports formulation of both passenger car and heavy duty engine oils.

The additive helps improve oxidation resistance of lubricants during extended service intervals.
It slows down oil thickening caused by thermal and oxidative stress.
This helps maintain stable viscosity over long operating periods.

It also contributes to improved soot handling in diesel engine applications.
Dispersant components keep carbonaceous particles suspended in the oil phase.
This prevents filter blockage and abrasive wear on engine parts.

In industrial lubricant systems it supports cleanliness of hydraulic and circulation oils.
It reduces formation of sticky residues on valves and pumps.
This improves system reliability and reduces unplanned shutdowns.

INFINEUM T4294 is typically used in combination with antiwear antioxidants and viscosity index improvers.
Its performance depends on balanced formulation with other additive components.
Laboratory and engine testing are required to optimize treat rates.

From a handling perspective the product should be stored in sealed containers away from moisture.
Long term exposure to air may lead to slow oxidation of active components.
Storage under recommended temperature limits helps preserve additive performance.

During blending operations localized overheating should be avoided.
High temperatures may degrade dispersant and detergent molecules.
Controlled mixing conditions improve homogeneity and additive effectiveness.

INFINEUM T4294 is engineered to meet modern engine cleanliness performance requirements.
It supports compliance with international engine oil specifications and OEM standards.
This makes it suitable for use in high performance lubricant formulations.

The additive helps reduce deposit formation on turbochargers and piston rings.
Cleaner components allow better heat transfer and mechanical efficiency.
This contributes to improved fuel economy and reduced emissions.

INFINEUM T4294 also supports protection of aftertreatment systems such as diesel particulate filters.
By minimizing ash and deposit precursors it helps extend filter service life.
This is important for meeting long term emission regulations.

In blended oils the additive remains stable under shear and thermal stress.
It does not significantly contribute to viscosity loss under high shear conditions.
This helps maintain lubrication film strength in critical engine zones.

INFINEUM T4294 is designed for use at optimized treat rates determined by formulation testing.
Overdosing does not necessarily improve performance and may affect oil balance.
Precise dosing is essential for achieving target performance levels.

The product is typically supplied in bulk containers for industrial customers.
It is transported under controlled conditions to prevent contamination.
Quality control procedures ensure batch to batch consistency.

Spills should be absorbed with inert materials and disposed of according to regulations.
The product should not be released into drains or natural waterways.
Environmental protection measures must be followed during handling and disposal.

In case of accidental skin exposure the area should be washed with soap and water.
Contaminated clothing should be removed and cleaned before reuse.
Medical advice should be sought if irritation persists.

Uses Of INFINEUM T4294:
INFINEUM T4294 is used as a detergent dispersant additive in engine oil formulations.
INFINEUM T4294 helps keep oxidation products and soot particles suspended in the oil.
This prevents sludge formation and deposit buildup inside engines.

INFINEUM T4294 is applied in passenger car motor oils to improve piston cleanliness.
Cleaner pistons allow better sealing and more efficient combustion.
This supports long term engine performance and durability.

In heavy duty diesel engine oils it is used to control soot related thickening.
It disperses carbon particles formed during incomplete combustion.
This reduces abrasive wear on engine components.

INFINEUM T4294 is also used in lubricants for turbocharged engines to reduce high temperature deposits.
It helps protect turbocharger bearings and hot metal surfaces.
This improves reliability under severe operating conditions.

In industrial lubricants it is used to maintain cleanliness in hydraulic and circulation systems.
It reduces formation of varnish and sticky residues on valves and pumps.
This supports smooth operation and reduced maintenance needs.

INFINEUM T4294 is used in blended additive packages for multi grade oils.
It works together with antioxidants antiwear agents and viscosity modifiers.
This enables formulation of oils that meet modern performance specifications.

It is applied in extended drain interval oils to maintain oil quality over long service periods.
It slows down degradation caused by heat and contaminants.
This helps reduce oil change frequency and operating costs.

INFINEUM T4294 is used in low ash engine oil formulations designed for modern emission systems.
It helps reduce formation of ash related deposits that can block exhaust aftertreatment devices.
This supports longer service life of catalytic converters and particulate filters.

INFINEUM T4294 is applied in synthetic and semi synthetic lubricant blends.
It maintains dispersancy performance even in highly refined base oils.
This allows formulators to achieve cleanliness targets with low additive treat rates.

In marine engine oils it is used to control deposit formation under continuous high load operation.
It helps maintain piston and liner cleanliness in large diesel engines.
This reduces maintenance frequency and operational downtime.

It is used in gas engine lubricants to control oxidation and nitration byproducts.
These byproducts can rapidly degrade oil quality at high operating temperatures.
The additive helps maintain stable lubrication under continuous combustion exposure.

In fleet service lubricants it supports consistent performance across different engine types.
It allows use of unified oil grades in mixed vehicle fleets.
This simplifies inventory management and maintenance procedures.

It is also applied in specialty industrial oils where cleanliness is critical.
Examples include compressor oils and circulating oils in closed systems.
This helps prevent sticking of valves and loss of heat transfer efficiency.

INFINEUM T4294 supports formulation of oils intended for long drain intervals in commercial vehicles.
It helps maintain dispersancy as contaminant levels increase over time.
This enables extended service schedules without compromising engine protection.

Safety Profile Of INFINEUM T4294:
INFINEUM T4294 is generally considered to have low acute toxicity under normal handling conditions.
It is not expected to cause serious health effects from short term exposure.
However prolonged or repeated contact should be avoided.

Skin contact may cause mild irritation in sensitive individuals.
Prolonged exposure can lead to dryness or dermatitis.
Protective gloves are recommended during handling and blending operations.

Eye contact may cause temporary irritation redness or discomfort.
Rinsing immediately with plenty of clean water is advised if contact occurs.
Medical attention should be sought if irritation persists.

Inhalation of vapors or mist may irritate the respiratory tract.
This risk is higher during heating spraying or high speed blending processes.
Adequate ventilation and respiratory protection should be used in industrial settings.

INFINEUM T4294 ingestion is not expected to be highly toxic but may cause gastrointestinal discomfort.
Accidental swallowing should not be induced to vomit unless advised by medical personnel.
Medical evaluation is recommended if large quantities are ingested.

INFINEUM T4294 may be harmful to aquatic organisms if released into the environment.
It should not be discharged into drains surface water or soil.
Spills must be contained and collected using inert absorbent materials.

At high temperatures thermal decomposition may occur.
Decomposition products may include irritating organic fumes.
Avoid overheating beyond recommended processing temperatures.