The ISO 6743 standard “Lubricants, industrial oils and related products (class L) \u2014 Classification” divides lubricant products into 18 groups, which are arranged according to the letters A to Z.<\/p>\n\n
A\uff1aTotal loss systems <\/p>\n\n
B\uff1aMould release <\/p>\n\n
C\uff1aGears <\/p>\n\n
D\uff1aCompressors (including refrigeration and vacuum pumps)<\/p>\n\n
E\uff1aInternal combustion engine<\/p>\n\n
F\uff1aSpindle bearings,bearings and associated clutches <\/p>\n\n
G\uff1aSlideways<\/p>\n\n
H\uff1aHydraulic systems <\/p>\n\n
M\uff1aMetal working <\/p>\n\n
N\uff1aElectrical insulation<\/p>\n\n
P\uff1aPneumatic tools <\/p>\n\n
Q\uff1aHeat transfer <\/p>\n\n
R\uff1aTemporary protection against corrosion <\/p>\n\n
S\uff1aApplications of particular lubricants<\/p>\n\n
T\uff1aTurbines<\/p>\n\n
U\uff1aHeart treatment<\/p>\n\n
X\uff1aApplications requiring grease<\/p>\n\n
Y\uff1aOther applications<\/p>\n\n
Z\uff1aSteam cylinders<\/p>\n\n
<\/p>\n\n
Solid lubricants<\/a>, although not historically long-established, offer good economic benefits, wide adaptability, and rapid development. They are particularly suited for extreme conditions such as high temperatures, high pressure, low speeds, high vacuum, and intense radiation. They are especially useful in situations where oiling is inconvenient or where assembly and disassembly are difficult. However, solid lubricants have drawbacks, such as higher friction coefficients and poor heat dissipation. Solid lubricants are typically categorized into inorganic and organic substances. The inorganic category includes graphite, molybdenum disulfide, oxides<\/a>, fluorides, soft metals, and others, while the organic category includes polytetrafluoroethylene (PTFE), nylon, polyethylene, and polyimide. Based on their form, solid lubricants can be classified into powders, films, and self-lubricating composite materials.<\/p>\n\n Solid powders can be used dispersed in gases, liquids, or colloids. Films can be applied through spraying, vacuum deposition<\/a>, flame spraying<\/a>, ion plating<\/a>, electrophoresis<\/a>, and sintering<\/a>, among other methods. Composite materials are produced using a variety of processes and represent an emerging class of important lubricants. Graphite, both natural and synthetic, has a hexagonal crystal layer structure. It is a black, soft material with high chemical stability, resistant to almost all organic solvents and corrosive chemicals, and it is not easily wetted by many molten metals or glass. As a result, graphite retains its properties when mixed with water, solvents, greases, rubber, resins, and some metals. Graphite has a low thermal expansion coefficient and elastic modulus, giving it resistance to thermal shock.<\/p>\n\n The operating temperature range for graphite is between -270\u00b0C and 1000\u00b0C in the atmosphere, with a melting point of 3500\u00b0C. It oxidizes at 450\u2013500\u00b0C. Additionally, graphite has good electrical conductivity and thermal conductivity. Its crystallinity, impurities, particle size, and particle shape all significantly affect its lubricating properties, as do external conditions like ambient temperature, operating temperature, speed, and load. Graphite lubricants are often used in composite materials or in combination with other solid lubricants. Pure graphite is rarely used as a lubricant on its own, though water-based and oil-based graphite lubricants do exist. <\/p>\n\n Molybdenum disulfide (MoS\u2082) has a metallic gray-black sheen and a hexagonal layered crystal structure, similar to graphite. It has a very low friction coefficient, reaching as low as 0.04, and is thermally and chemically stable. MoS\u2082 operates at temperatures between -270\u00b0C and 350\u00b0C in atmospheric conditions, with a melting point of 1250\u00b0C, and it begins to oxidize at 380\u2013450\u00b0C. It also resists corrosion from most acids. At room temperature and in humid air, MoS\u2082 undergoes slight oxidation, but this can result in a significant acid value. Generally, molybdenum disulfide is effective in heavy-load, low- to medium-speed, and high- (or low-) temperature sliding friction components. The purity of commercially available MoS\u2082 powder ranges from 98% to 99.8%. While pure MoS\u2082 powder is rarely used alone, it is often mixed with other substances. Common applications include MoS\u2082 paste lubricants and MoS\u2082-based greases.<\/p>\n\n Plastics like polytetrafluoroethylene (PTFE)<\/a> exhibit excellent lubricating properties, shock absorption, impact resistance, corrosion resistance, and insulation. PTFE’s usable temperature range is between -270\u00b0C and 260\u00b0C. <\/p>\n\n Soft metals such as gold, silver, zinc, lead, and tin are also used as solid lubricants. They can be applied in two ways: one as thin films, particularly with low-melting-point metals like lead, zinc, and tin; and the other includes metals like copper and bronze, which, although not low-melting-point, are occasionally used in similar applications. <\/p>\n\n Liquid lubricants is the most widely used and diverse category of lubricants, including mineral oils, synthetic oils, animal and vegetable oils, and water-based liquids. Due to the wide range of viscosities available, liquid lubricants offer broad selection options for moving parts under various load, speed, and temperature conditions. Fluid lubricants provide low and stable friction coefficients, low compressibility, and can effectively carry away heat from friction surfaces, ensuring dimensional stability and precision of moving parts. Additionally, most of these products are inexpensive, leading to widespread use, with mineral oil currently being the most widely used liquid lubricant. Gas Lubricants Gas lubrication can be used at much higher or lower temperatures than oil and grease, lubricating sliding bearings in the range of -200\u2103 to +2000\u2103. Its friction coefficient can be so low that it is difficult to measure, and bearing stability is very high. It provides high stiffness in high-speed precision bearings (such as medical dental drills, precision grinding machine spindles, and inertial navigation gyroscopes), without issues of sealing or contamination. However, the downside is that gas lubrication has a very low load-carrying capacity, and the design and manufacturing of bearings are extremely challenging. Bearings are also prone to surface damage during startup and shutdown. Common gas lubricants include air, helium, nitrogen, and hydrogen. These gases must be highly purified and carefully refined before use. Semi-solid lubricants are lubricants that are in a semi-fluid state under normal temperature and pressure, with a colloidal structure, known as greases. Greases are generally categorized into soap-based, hydrocarbon-based, inorganic, and organic greases. In addition to their anti-friction and wear-reducing properties, they also serve sealing and shock-absorbing functions, simplifying lubrication systems and reducing maintenance and operating costs. As a result, greases are widely used. However, their downsides include low fluidity, poor heat dissipation, and a tendency to undergo phase change or decomposition at high temperatures. Although grease production accounts for only about 2% of the total lubricant production, greases play a significant role in lubrication. Statistics show that about 90% of rolling bearings are lubricated with grease, and approximately 43% of rolling bearing failures are due to improper lubrication. Therefore, attention must be paid to grease quality and product composition. Comparison of four types of lubricants <\/p>\n\n 1. Fluid Dynamic Lubrication Performance 2. Boundary Lubrication Performance 3. Cooling Performance 4. Low Friction 5. Ease of Application to Bearings 6. Retention in Bearings 7. Sealing Capability 8. Atmospheric Corrosion Resistance 9. Temperature Range 10. Volatility 11. Flammability 12. Compatibility 13. Lubricant Price 14. Bearing Design Complexity 15. Life Determinant Possible Solutions When Pure Mineral Oil Does Not Meet Bearing Requirements:<\/p>\n\n 1\u3001Excessive Load: Use higher viscosity oil, extreme pressure oil, grease, or solid lubricant.<\/p>\n\n 2\u3001High Speed (potentially causing high temperatures): Increase oil volume or circulation, use lower viscosity oil, or gas lubrication.<\/p>\n\n 3\u3001High Temperature: Use additives or synthetic oil, higher viscosity oil, increase oil volume or circulation, or use solid lubricant.<\/p>\n\n 4\u3001Low Temperature: Use lower viscosity oil, synthetic oil, solid lubricant, or gas lubrication.<\/p>\n\n 5\u3001Too Many Wear Particles: Increase oil volume or circulation.<\/p>\n\n 6\u3001Contamination: Use an oil circulation system, grease, or solid lubricant.<\/p>\n\n 7\u3001Longer Lifespan Requirement: Use higher viscosity oil, additives, or synthetic oil, with more oil or circulation lubrication. <\/p>\n\n The two main factors affecting the choice of lubricant type are speed and load.<\/p>\n","protected":false},"excerpt":{"rendered":" The ISO 6743 standard “Lubricants, industrial oils and related products (class L) \u2014 Classification” divides lubricant products into 18 groups, 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