High-density inert alumina balls are a type of ceramic balls made from alumina as the main raw material and produced through high-temperature (above 1600℃) sintering. They are characterized by high density and low porosity, and are inert fillers.

Technical Data

Core features

Pure material: The content of alumina is usually ≥ 99%, with extremely low impurity content.

High density: (≥ 3.6g/cm³), dense structure, with almost no open pores.

Excellent mechanical properties: High compressive strength, good wear resistance, and not prone to cracking and generating dust.

Main applications:

1. Supporting, covering or isolating catalysts within industrial reactors.
2. As fillers in high-pressure, high-flow rate, and highly abrasive conditions (such as in hydrogenation cracking reactors and large-scale catalytic units).
3. Preventing catalyst loss and equipment blockage while not participating in chemical reactions.

The differences between high-density inert alumina balls and ordinary inert alumina balls

The differences between high-density inert alumina balls and ordinary inert alumina balls

Density and porosity are different: The density of the high-density type is usually ≥ 3.6g/cm³, with a higher sintering temperature (above 1600℃), and the internal structure is dense with no obvious pores; the density of the ordinary type is mostly in the range of 3.2-3.4g/cm³, with a higher porosity.

Mechanical performance differences: The high-density balls have stronger compressive strength (≥ 120MPa), better wear resistance, and are less likely to crack and produce dust; the ordinary balls have lower compressive strength (≥ 80MPa), and are prone to wear over time.

Application focus: The high-density balls are suitable for high-pressure, high-flow rate, and strong erosion conditions (such as hydrogenation reactors, large-scale catalytic devices); the ordinary balls are used in normal pressure, low-flow rate, and conventional support scenarios (such as ordinary distillation towers, adsorption towers).

Factors affecting service life

Working condition intensity: High pressure, high flow rate, and strong medium erosion scenarios (such as hydrogenation reactors) will accelerate wear and shorten the service life; normal pressure, low flow rate conditions (such as ordinary distillation towers) have a longer service life.

Medium characteristics: Strong corrosive contact, media containing solid particles will increase wear and erosion, shortening the service life; neutral, clean media have a longer service life.

Product quality: High-density inert alumina balls have a longer service life than ordinary models due to their high density and good wear resistance, by 2-3 years; inferior products may crack due to insufficient strength within a short period.

Operation and maintenance: Frequent start-stop and sudden temperature changes will cause thermal shock, which is likely to cause the balls to crack and shorten the service life. — Would you like me to help you prepare a **reference table for the service life of inert alumina balls under different working conditions**, so that you can quickly estimate based on your own scenario?