高效抗磨节能修复剂加入在发动机润滑油中,高纯度的金属纳米颗粒在发动机磨擦表面形成"微型滚动轴承",将磨擦表面"滑动"变成"滚动"磨损,降低磨擦系数,减少磨擦。
高效抗磨节能修复剂还有较好的修复功能。高纯度金属纳米 颗粒具有十分显著渗透性和粘着性,在磨擦引起的剪切、振动作用下,油中的金属纳米颗粒不断填充到磨擦表面的微坑,修复凹 凸不平的磨擦表面,在磨擦表面形成光滑的保护层,可实现发动机 "零"磨损。在发动机运转过程中,通过剪切力,高纯度金属纳米颗粒被填充在活塞环、活塞和汽缸壁表面,提高和改善了燃 烧室的机械密封,加强了压缩和动力冲程的压缩空气与燃料燃烧, 即提高了燃料经济性又改善了环境。
Lubrication mechanism
High efficient energy-saving anti-wear repair agent is added to the engine oil, high purity metal nanparticles in engine friction surface formed" miniature bearing", the friction surface" sliding " into a " rolling" wear, reduce the coefficient of friction, friction reduction.
High efficient energy-saving anti-wear repair agent has good repair function. High purity metal nanoparticles have a significant permeability and adhesion in shear, caused by friction, vibration under the action of oil, metal nanoparticles in continuously filled into the friction surface of the crater, repair of concave convex rough surface friction, the friction surface to form a smooth layer of protection, can realize" zero" engine wear. During engine operation, by shear stress, high purity metal nano particles are filled in a piston ring, piston and cylinder wall surface, enhancing and improving the fuel burning chamber of the mechanical seal, reinforces the compression and power stroke of compressed air and fuel combustion, namely to improve the fuel economy and improved the environment.