Our main products include: engineering equipment oils, industrial lubricants, greases, cleaners, ship oils, metalworking oils/liquids, a full range of rust preventatives, and customized oils for special customer needs. As a manufacturer offering OEM services, we aim to operate with multi-channel sales nationwide; with the goal of becoming the nation's most influential lubricant manufacturing base.

Jiangxi Bagu Lubrication Technology Co., Ltd. has established partnerships with over 50 strategic clients, including Beijing Auto Group, Wugang Group, Dongbei Group, Hanjiang Group, Jiangte Group, Pinggang, Fangda Special Steel, Jiugang, and more. The company now serves over 500 OEM clients.

Quality Assurance: Every lubricant product from our company has undergone rigorous product inspections and been evaluated by a third-party, nationally-recognized, authoritative laboratory. All technical and physical-chemical indicators of our lubricant products have been fully verified.

The company is set to take off with a high-profile launch, driven by forward-thinking market insights. We are committed to joining forces with all our partners in the lubricant industry, building a culturally rich and influential platform, and creating a beautiful home for Bagu. Let's move forward together, co-creating a brilliant future!

Safety precautions must be taken when using lubricants. Caution should be exercised to avoid skin contact and inhalation of its vapors or mist. The manufacturer advises the following safety measures for use.

Wipe off any petroleum products that splash onto your body as soon as possible.

Minimize contact with petroleum products. If necessary, use gloves or other appropriate tools to protect your body.

Immediate clean-up of all spilled oil products is required; do not let them into the drainage channels.

Remove contaminated clothing immediately and wash thoroughly before wearing.

Avoid using gasoline, kerosene (coal oil), turpentine, or similar solvents as lubricants on the skin. Use a waterless hand sanitizer or mild soap with warm water for hand washing, followed by drying with a clean towel.

In case of skin injury, apply treatment immediately.

Do not inhale oil mist droplets and solvent gases. Appropriate protective equipment (e.g., safety goggles) should be worn if necessary.

Maintain a clean work environment and ensure good air circulation.

Hydraulic Oil Issues and Solutions in Industrial Lubricant Use

What are the causes of hydraulic oil particle contamination? What are its hazards? What are the prevention methods?

The reasons for Powder 1 contamination are twofold: one is due to external introduction, and the other is generated during the working process. The first involves the introduction of atmospheric dust through the oil tank's breathing hole, and the second is caused by metal particles resulting from the wear of moving parts.

2 Sludge and sediments caused by chemical changes of hydraulic oil mixed during transportation and storage 3 Existence of hydraulic system components

Clogged Filter Elements: 2 Hazards Caused by 3 Incompatibilities - A Adhesion. Servo Valve: B Increased Wear on Pumps and Moving Parts; C Accelerated Aging of Oil; D Clogging the Suction Filter, Leading to Pump Cavitation. 3 Prevention Methods: A Ensure the Oil Tank is Sealed and Dustproof, or Install Breathing Holes with Air Filters; B Prevent Dust and Water During the Storage and Transportation of Waste Oil; C Equip the System with a Filtration Device to Remove Pollutants Promptly, Preferably with Indicator Filters, and Install Magnetic Traps at the Bottom of the Oil Tank; D Install and Regularly Inspect, Clean the Coarse Filter at the Pump Inlet; E Add Protective Covers to the Cylinder and Rod Sealing Areas, or Use Air Blowing to Prevent Dust.

But there is a significant difference in types. Can two mineral hydraulic oils with the same viscosity be used interchangeably in high-pressure systems requiring anti-wear hydraulic oil? No. Although they have the same viscosity, L-HH or L-HL oils cannot be substituted otherwise it may lead to premature failure of the equipment's oil pump and operational malfunctions. Similarly, L-HV and L-HS oils required for hydraulic systems in cold regions cannot be replaced with oils of the same viscosity grade, L-HM, as this may cause difficulties in cold starts and other issues.

Gear Oil Issues and Solutions

What are the main forms of gear failure? The main forms of gear failure include tooth breakage, wear, pitting, and bonding.

What are the factors causing industrial gear oil to degrade over storage? Internal reasons include the limited stability of the base oil. With the passage of time, the oil degrades, and various additives added to improve the overall performance of the oil gradually wear out and degrade. Generally, this degradation is slow, often requiring 2 years or more.

Mechanical impurities and sludge. ②Viscosity changes - Oil containing viscosity index improvers, what is the phenomenon of industrial gear oil deterioration? ①Appearance changes - Color deepens and becomes cloudy. Emulsification occurs with noticeable abrasive particles. Viscosity decreases due to mechanical shearing, while oxidation and emulsified sludge cause viscosity to rise. ③Acid value changes - In oils with high acid value additives, an initial drop in acid value indicates the consumption of additives, while an increase in acid value later on is a result of oxidation producing acidic substances. ④Moisture increase - Anti-emulsification performance worsens, and the hydrolysis of extreme pressure agents affects lubrication, potentially leading to pitting and adhesion on the gear surfaces. ⑤Increased benzene hexane (petroleum ether) insolubles - This is a result of oxidation products and metal shavings, dust, etc., during temporary use of the oil at high temperatures.

Solution for Turbine Oil Usage Issues

L_TSA turbine oil and L-TCD turbine oil must not be mixed. 2. Why measure the demulsifying performance of turbine units? The demulsifying index is a crucial indicator for steam turbine lubricating oil. It measures the time for oil-water separation under specified conditions. Can different types of turbine oil be mixed? Different types of turbine oil cannot be mixed. During the operation of steam or hydraulic turbines, abnormal system conditions may lead to the entry of water or steam, causing the oil to emulsify. To resist the demulsifying effect of water on oil, turbine oil must possess a certain demulsifying ability to ensure long-term use in the equipment. A shorter demulsifying time indicates that the emulsion can quickly break down and separate oil from water; conversely, the opposite is true. Therefore, the shorter the demulsifying time of the oil, the better.

Section 4: Compressor Oil Issues and Solutions

If the cause is oil, is there a relationship between the lubricating oil's flash point and the reason for explosion? Besides mechanical factors, compressor explosions are often due to severe carbon buildup in the oil, which blocks the compressor exhaust port, resulting in a sharp increase in internal pressure. Studies indicate that the flash point of the lubricating oil is not related to the cause of explosion, as it requires the temperature to reach 2-3 times the flash point to ignite the oil mist and vapor.

For oil-lubricated compressors, the following points should be noted: 1. Select the appropriate lubricant; 2. Regularly clean the exhaust system; 3. Pay attention to operating procedures; 4. Maintain and care for the compressor strictly; 5. Implement an appropriate oil mist separation method; 6. Use a high-performance aftercooler for air cooling, which is a simple and effective fire and explosion prevention method. How to prevent fire and explosion in compressors? Prevent the compressor from catching fire and exploding. Regular maintenance; 5. Employ suitable oil mist separation techniques; 6. Utilize an excellent aftercooler for air cooling, a straightforward and effective fire and explosion prevention method.