mobility

industry
fuel and lubricant additives designed to keep you moving forward; Aurorium is your partner for innovative solutions that drive sustainability by improving performance, increasing efficiency, and extending engine life
fuels

Innovative high-quality fuel additives extend the life of engines by helping to maintain fuel quality and protecting key mechanical components while offering our customers advantages over the baseline technologies. Our solutions keep you moving forward with lubricity improvers, corrosion inhibitors, and multifunctional additives.

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lubricants

In transportation, lubricants are used to help reduce the friction between moving parts. The utility of any base lubricant can be enhanced with lubricant additives. Functionalities that an additive can improve include friction modification to reduce the wear of automotive parts and prolong the life of engines, corrosion inhibition to protect the internal surface of the engine or transmission, and dispersion used to minimize sludge formation and neutralize acidic components.

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structural parts

The structural parts market encompasses the production, distribution, and sale of essential components that form the primary structure of transportation vehicles across various sectors, including automotive, aerospace, marine, and rail. These parts are fundamental to the vehicle's overall integrity, performance, and safety.

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increase efficiency and reduce friction
mobility lubricity improvers for fuels

Lubricity improvers are used in fuel to avoid excessive wear on fuel pumps and injectors. The use of lubricity improvers is increasing, driven by highly refined fuels to improve fuel efficiency and reduce friction. Tighter design tolerances drive the need for the prevention of deposits and optimization of ignition timing, maximizing the fuel efficiency of the modern computer-controlled engine. Texalene™ 74 Series offers organic, ashless chemistry that helps extend maintenance intervals and engine life which reduces the environmental impact of servicing combustion engines.

lubricity improvers for fuels
application highlights
mobility bio-based intermediates

increase sustainable content in your lubricant

Bio-based lubricant intermediates allow formulators to use a sustainable backbone to create high-performance viscosity modifiers that are derived from the castor bean. Accentuating the naturally occurring properties of castor oil derivatives, Texalene viscosity modifiers for oils strike a balance between high affinity for the surface under shear and performance stability over a range of temperatures and conditions. Texalene viscosity modifiers for greases act as thickeners in lithium-based formulations.

castor oil and beans
drive more miles between charges in electric vehicles
mobility acid scavenger for lithium-ion batteries

The use of lithium-ion batteries is increasing in electric vehicles (EVs) as the world looks for environmentally friendly transportation options. In EVs this rechargeable power source replaces all petro-chemical based fuels. Lithium-ion batteries use strong acids such as hydrofluoric acid inside the battery. There is a need for scavenging this acid to prevent electrode damage and improve capacity retention. Reillex™ Resins help neutralize the effect of excess acid and prolong battery life.

acid scavenger for lithium ion batteries
ashless ingredients, protecting engine life
mobility corrosion inhibitors for lubricants

Corrosion inhibitors help to decrease maintenance costs and lengthen the life of the equipment. In closed-loop automotive systems, like engines, gearboxes, and transmissions, corrosion inhibitor technology protects against moisture intrusion. When using Texalene™ Corrosion Inhibitors, water molecules and other corrosive species in the lubricant are displaced from metal surfaces in favor of our film-forming compounds.

corrosion inhibitors for lubricants
intermediate for diesel catalyst
mobility emission controls for diesel fuels

Diesel exhaust systems rely on catalysts to help reduce Nitrogen Oxide (NOx) emissions from the engine by converting these compounds into Nitrogen and Oxygen before they can contribute to harmful air pollution, such as smog and acid rain. 3,5-Lutidine finds use in the manufacturing process for the diesel catalyst as a structure-directing agent; helping give shape to the intricate lattice support to which the precious metal catalyst adheres.

emission controls for diesel fuels