Gradation of Aggregates in Washing Processes
The gradation (particle size distribution) of aggregates plays a crucial role in washing processes, as it affects the efficiency of removing fines, dust, clay, or other contaminants. Here’s how gradation influences washing and best practices:
1. Importance of Gradation in Washing
– Fine Aggregates (Sand):
– Require thorough washing to remove silt and clay particles.
– Poor gradation (excessive fines) can clog systems or increase water demand.
– Coarse Aggregates (Gravel/Crushed Stone):
– Need less intensive washing but must remove loose coatings.
– Well-graded materials allow better water flow during washing.
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2. Washing Techniques Based on Gradation
– Screening & Scrubbing:
– Coarse aggregates are pre-screened to separate sizes before washing.
– Rotary scrubbers remove loosely bound contaminants.
– Log Washers & Attrition Cells:
– Effective for poorly graded or sticky materials with high clay content.
– Aggressive agitation helps break down clumps.
– Sand Screws & Hydrocyclones:
– Used for fine aggregates to separate silt/clay from sand fractions.
3. Challenges with Poor Gradation
– Excessive Fines: Increases water consumption and sludge disposal issues.
– Gap-Graded Aggregates: May lead to inefficient washing due to uneven water flow.
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4. Best Practices
– Perform a sieve analysis (ASTM C136) to determine gradation before washing.
– Adjust water pressure and retention time based on particle size distribution.
– Use dewatering screens or settling ponds for fine recovery and water recycling.
Would you like guidance on specific equipment selection based on aggregate gradation?