Nano-diamond lubricant with excellent performance

Overview of Nano Diamond Lubricants

The excellent performance of nano-diamond lubricants has been tested by authoritative departments, verified by many parties, and after a long period of testing, it can turn sliding friction into rolling friction, double the load-carrying capacity of the lubricant, and the effect is obvious. Reduce friction, anti-wear, vibration, and noise reduction.

A large number of experimental studies have shown that ultra-fine diamond particles can penetrate into the surface of the friction pair and form a very thin solid lubricating film, which can effectively prevent and delay the adhesive wear on the surface of the friction pair, greatly reduce the friction coefficient of the surface of the friction pair, and increase Increase the rate of improvement of the extreme pressure performance of the friction pair.

All kinds of friction and wear occur in all machines in motion. At present, the energy loss caused by friction and wear accounts for more than 1/3 of the total energy used. For example, the energy loss of the cylinder liner/piston ring friction pair in the engine accounts for about 45% of the total friction loss energy in the engine. Therefore, in order to improve the performance of lubricating oil, it is often necessary to add additives to reduce friction and wear in lubricating oil. In recent years, in order to overcome metal corrosion and environmental pollution caused by harmful substances such as sulfur (S), phosphorus (P), and chlorine (Cl) in traditional additives, the addition of solid lubricating materials to lubricating oils has become increasingly popular in the industry. attention. In particular, the continuous advancement and wide application of nanomaterial technology have greatly promoted the application of solid additives in lubricating oils. Therefore, nanopowders have become a new hot spot in the current research and development of lubricating oil additives. Nano-material additives have good anti-friction and anti-wear effects, and can greatly improve the bearing capacity of lubricating oil. Some nanoparticles also have a certain self-repair function on the work surface.

Nanodiamond lubricant application

The reason why nanodiamonds are used as lubricant additives is the spherical effect, and the other is the film effect.

(1) The role of ball bearings

Nano-diamond particles can roll between the friction surfaces to form a "ball effect". The pure sliding friction between the original friction pairs becomes mixed friction of sliding and rolling, thereby reducing wear.

(2) Lubricating effect of the coating film

Due to the nanometer level, elements such as C in diamond quickly penetrate into the matrix of the friction pair under the action of sliding friction, forming a continuous lubricating film on the surface, thereby improving the surface hardness and wear resistance of friction. The lubricating effect of thin film has been widely used in ultra-precision manufacturing and processing systems, and people's understanding has gradually deepened.

Nanodiamond lubricant price

The price of the best nano-diamond lubricant additive friction modifier will vary randomly with the production cost, transportation cost, international situation, and the market supply and demand of the best nano-diamond lubricant additive friction modifier. Tanki New Materials Co. Ltd aims to help all industries and chemical wholesalers find high-quality, low-cost nanomaterials and chemicals by providing a full set of customized services. If you are looking for the best oil additive lubricant additive nanodiamond friction modifier, please feel free to send an inquiry to get the latest price of nano-diamond lubricant .

Nano Diamond Lubricant Supplier

As the world's best nano-diamond oil additive lubricant additive friction modifier supplier, Tanki New Materials Co. Ltd has extensive experience in the performance, application, and cost-effective manufacturing of advanced and engineered materials. The company has successfully developed a series of powder materials (molybdenum disulfide MoS2, tungsten disulfide WS2, boron nitride BN, boron nitride), high-purity targets, functional ceramics, and structural devices, and provide OEM services.