EP Additive as an additive to industrial oil. Improves the running-in lubrication of new and overhauled machines. Levelling off the surfaces leads to reduced wear and thermal loading of the lubricant. This allows extended lubrication intervals.
EP Additive as an additive to industrial oil. Improves the running-in lubrication of new and overhauled machines. Levelling off the surfaces leads to reduced wear and thermal loading of the lubricant. This allows extended lubrication intervals.
Additive based on MoS2 and Mox. As an additive to industrial oil. Reduces friction, temperature and wear. Smoothes the surface. Produces emergency running properties. No settling. Passes the usual filter, does not react to magnet filters. In addition to gears, motors and machine oils.
Additive based on MoS2 and Mox. As an additive to industrial oil. Reduces friction, temperature and wear. Smoothes the surface. Produces emergency running properties. No settling. Passes the usual filter, does not react to magnet filters. In addition to gears, motors and machine oils.
Additive based on MoS2 and Mox. As an additive to industrial oil. Reduces friction, temperature and wear. Smoothes the surface. Produces emergency running properties. No settling. Passes the usual filter, does not react to magnet filters. In addition to gears, motors and machine oils.
Additive based on MoS2 and Mox. As an additive to industrial oil. Reduces friction, temperature and wear. Smoothes the surface. Produces emergency running properties. No settling. Passes the usual filter, does not react to magnet filters. In addition to gears, motors and machine oils.
Lubrication of machine components to +450°C, if oil and grease cannot be used. Residue-free evaporation of base oil over +200°C. Dry lubrication from +200°C to +450°C. Lubrication in steelworks, foundries, mills, ceramics industry.
Lubrication of machine components to +450°C, if oil and grease cannot be used. Residue-free evaporation of base oil over +200°C. Dry lubrication from +200°C to +450°C. Lubrication in steelworks, foundries, mills, ceramics industry.
Lubrication of machine components to +450°C, if oil and grease cannot be used. Residue-free evaporation of base oil over +200°C. Dry lubrication from +200°C to +450°C. Lubrication in steelworks, foundries, mills, ceramics industry.
Synthetic oil for machine components, at high temperatures and humidity. Emergency lubrication when the operating temperature of the oil is exceeded or in case of insufficient lubrication. Excellent wear protection through MoS2, also under extreme loading.
Synthetic oil for machine components, at high temperatures and humidity. Emergency lubrication when the operating temperature of the oil is exceeded or in case of insufficient lubrication. Excellent wear protection through MoS2, also under extreme loading.
Synthetic oil for machine components, at high temperatures and humidity. Emergency lubrication when the operating temperature of the oil is exceeded or in case of insufficient lubrication. Excellent wear protection through MoS2, also under extreme loading.
Synthetic high-temperature oil. Good wear protection due to EP additives. Excellent oxidation protection, therefore resistant to ageing. Low tendency to drip at high temperatures. Minimum evaporation losses. Residue-free evaporation. Good water and steam resistance.
Synthetic high-temperature oil. Good wear protection due to EP additives. Excellent oxidation protection, therefore resistant to ageing. Low tendency to drip at high temperatures. Minimum evaporation losses. Residue-free evaporation. Good water and steam resistance.
Synthetic high-temperature oil. Good wear protection due to EP additives. Excellent oxidation protection, therefore resistant to ageing. Low tendency to drip at high temperatures. Minimum evaporation losses. Residue-free evaporation. Good water and steam resistance.
Synthetic high-temperature oil. Good wear protection due to EP additives. Excellent oxidation protection, therefore resistant to ageing. Low tendency to drip at high temperatures. Minimum evaporation losses. Residue-free evaporation. Good water and steam resistance.
Synthetic high-temperature oil. Good wear protection due to EP additives. Excellent oxidation protection, therefore resistant to ageing. Low tendency to drip at high temperatures. Minimum evaporation losses. Residue-free evaporation. Good cleaning effect.
Synthetic high-temperature oil. Good wear protection due to EP additives. Excellent oxidation protection, therefore resistant to ageing. Low tendency to drip at high temperatures. Minimum evaporation losses. Residue-free evaporation. Good cleaning effect.
Synthetic high-temperature oil. Good wear protection due to EP additives. Excellent oxidation protection, therefore resistant to ageing. Low tendency to drip at high temperatures. Minimum evaporation losses. Residue-free evaporation. Good cleaning effect.
Synthetic high-temperature oil. Good wear protection due to EP additives. Excellent oxidation protection, therefore resistant to ageing. Low tendency to drip at high temperatures. Minimum evaporation losses. Residue-free evaporation. Good cleaning effect.