Ater Based Nanolubricant News Today : Breaking News, Live Updates & Top Stories | Vimarsana

Stay updated with breaking news from Ater based nanolubricant. Get real-time updates on events, politics, business, and more. Visit us for reliable news and exclusive interviews.

Top News In Ater Based Nanolubricant Today - Breaking & Trending Today

"An Experimental Investigation on the Lubrication Performance of Water-" by Jiang Xue, Linan Ma et al.

In this work, an experimental investigation on the lubrication performance of water-based nanolubricant with TiO2 as nanoadditives was performed. The nanolubricants show excellent dispersibility and stability within 5 days after preparation. Additionally, the results show that the concentration of TiO2 nanoparticles significantly affects the lubrication performance of the prepared nanolubricant during microrolling. The excessive nanoparticles lead to agglomeration at the contact area, while the limited nanoparticles can hardly work during rolling processes. Instead, for a nanolubricant with 3.0 wt% of TiO2 nanoparticles, the nanolubricant is able to feed abundant nanoparticles continuously to the rubbing zone with little agglomeration, improving the surface quality of copper foils during microrolling. ....

Lubrication Mechanism , Physicochemical Properties , Surface Roughness , Ater Based Nanolubricant ,

"The influence of water-based nanolubrication on mill load and friction" by Hui Wu, Dongbin Wei et al.

Using pure water in comparison to water-based lubricant containing 4% TiO2 nanoparticles (NPs), the hot rolling tests of 304 stainless steel were carried out at a rolling temperature of 1050 °C under varying rolling reductions and speeds. The effects of lubrication on rolling force, torque, power and contact friction were systematically investigated. The coefficient of friction (COF) during steady-state hot steel rolling was inversely calculated using a developed flow stress model. The COF models including the effects of rolling reduction and speed were proposed via multiple linear regression. The results indicated that the use of the nanolubricant enabled a reduction of rolling force up to 6.1% and decreases in rolling torque and power up to 21.6%, compared to that of water condition. The results obtained from the linear regression agreed well with those from the inverse calculation, suggesting the developed COF models had high accuracy. The lubrication mechanisms were derived from a ....

Coefficient Of Friction , Lot Rolling , Stainless Steel , Ater Based Nanolubricant ,

"A comprehensive review of water-based nanolubricants" by Afshana Morshed, Hui Wu et al.

Applying nanomaterials and nanotechnology in lubrication has become increasingly popular and important to further reduce the friction and wear in engineering applications. To achieve green manufacturing and its sustainable development, water-based nanolubricants are emerging as promising alternatives to the traditional oil-containing lubricants that inevitably pose environmental issues when burnt and discharged. This review presents an overview of recent advances in water-based nanolubricants, starting from the preparation of the lubricants using different types of nanoadditives, followed by the techniques to evaluate and enhance their dispersion stability, and the commonly used tribo-testing methods. The lubrication mechanisms and models are discussed with special attention given to the roles of the nanoadditives. Finally, the applications of water-based nanolubricants in metal rolling are summarised, and the outlook for future research directions is proposed. ....

Dispersion Stability , Metal Forming , Ater Based Nanolubricant ,