Pump bearings and seals are not resistant to wear and high temperatures

Core Tips: (1) Problems: Axis deviation causes high vibration, shortens the life of the mechanical seal, and generates noise. Solution: Use the impeller ring of polyimide carbon fiber composite material to match
(1) Problems occur: the shaft deviation causes high vibration, shortens the life of the mechanical seal, and generates noise.

    Solution: Use the impeller mouth ring of polyimide carbon fiber composite material to fit the stainless steel pump casing ring; replace the original graphite bushing with the throat bushing of our material.

    The result: reduced vibration amplitude, which extends seal life and bearing life and enhances pump free operation. Many pumps use packing as a filler in their use. The main function of the packing is to prevent leakage, but it also acts as a bearing to stabilize the shaft. At present, many pumps have changed the packing to a mechanical seal. With the change of the mechanical seal, the bearing influence is gone, and the shaft deviation (high vibration and related influence) becomes a problem.

    The use of polyimide carbon fiber composite material to improve the pump successfully solved the customer's problems, mainly in the following two points:

    1) Polyimide carbon fiber composite is a metal-free, non-biting material. This allows the running clearance to be reduced (only half of the gap between the metal gaps specified by the API), the bushing with smaller clearances can stabilize the shaft, and the smaller gap ring can further limit leakage and leakage speed.

    2) Polyimide carbon fiber composite is a high strength, high performance thermoplastic material. It is easy to injection and absorbs vibrations and shocks, while the metal being replaced can cause vibration and shaft wear.

Parts: with removable sealing bushings and Teflon bearings

    (2) There is a problem: the support bearing is severely worn. The factory tried a lot of different materials such as carbon, graphite, and filled Teflon materials, trying to find a suitable solution to the problem of wear and shaft deviation. All materials were scrapped in two to three months. Among them, the product of polytetrafluoroethylene causes wear of the shaft, causing great leakage, resulting in failure of the mechanical seal.

    Solution: Replace the previously used filled PTFE bearing with a polyimide carbon fiber composite.

    RESULTS: After the polyimide carbon fiber composite support bearing was installed, it has been successfully operated for more than 13 months. At the 8th month after use, the center part of the agitator was removed and temporarily used for other equipment. At that time, the staff tested it. The agitator bearing found that the leakage per inch per inch was less than 0.005, and the average failure interval increased by 300% to 400%.

    (3) Problems: This pump is made of stainless steel and stainless steel with a hard outer casing as a ring and bushing. In general, the dry running of the pump is caused by a decrease in the amount of suction during operation, and the main dry running conditions often lead to premature pump damage and metal parts are also greatly damaged. The average time between failures of these pumps is only six months.

    Solution: Replace the stainless steel impeller ring and bushing with a polyimide carbon fiber composite material, reducing the operating clearance by approximately 50%.

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The difference between vibrating bearings and ordinary bearings

Core Tips: 1 Appearance characteristics Vibration special bearings: A. The diameter of the rolling element is increased, and the length of the rolling element is increased. B. The cage guides the rollers from the outer ring ribs to reduce the force on the rollers. C. Use inner ring block
1 appearance characteristics

    Special bearings for vibration:

    A. The diameter of the rolling element is increased, and the length of the rolling element is increased.
    B. The cage guides the rollers from the outer ring ribs to reduce the force on the rollers.
    C. Use the inner ring rib to guide the roller to improve the roller operation.
    D. The cylindrical roller bearing cage adopts a monolithic structure and the strength is greatly improved.
    E. The outer diameter of the self-aligning bearing is designed with oil groove and oil hole, and the lubrication effect is good.

    Ordinary bearing:

    A. The roller body diameter and the rolling element length are both small.
    B. The cage has a roller or inner ring guide.
    C. Cylindrical roller bearing cage adopts rivet structure, which is easy to loosen and cover.
    D. The outer diameter of the self-aligning bearing has no oil groove oil hole, and the lubrication effect is poor.

    2. Selection of materials

    Special bearings for vibration:

    A. The inner and outer rings and rolling elements are vacuum degassed bearing steel, which has good fatigue resistance.
    B. The cage is made of aluminum-iron-manganese bronze material with high strength, good elasticity and better wear resistance.

    Ordinary bearing:

    A. The inner and outer rings and the rolling elements are made of ordinary bearing steel.
    B. The cage is made of zinc brass with low strength and poor elasticity.

    3. Heat treatment method

    Special bearings for vibration:

    A. The inner and outer rings are made of shell-mamming quenching or martensitic quenching + high temperature tempering, with uniform hardness and small internal stress; good toughness, impact resistance and vibration.
    B. When working within 150C temperature, the stability is good.

    Ordinary bearing:

    The inner and outer rings adopt ordinary quenching method, which has poor toughness, poor impact resistance and vibration performance, and poor thermal stability.

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