CGW Flap Disc 39910, 1" x 1" x 1/4", Aluminum Oxide, 120 Grit, Pack of (10)
$35.15
In Stock
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$35.15
In Stock
View Product
Flap disc loading on aluminum is usually a material-transfer problem, not just a disc problem. Aluminum is soft, gummy, and prone to packing into the abrasive surface. Once the disc loads, cut rate drops, heat rises, and the disc can start to smear instead of grind.
Aluminum behaves differently from carbon steel or stainless steel. As the disc cuts, the metal can smear into the abrasive surface and build up between the flaps. That buildup reduces the exposed abrasive and turns the disc into a polishing surface instead of a cutting surface.
Common causes include:
Let the abrasive do the work. Heavy hand pressure pushes aluminum into the disc and raises heat. Use light, controlled passes.
Stay moving. Long dwell times create localized heat and encourage loading. Make multiple light passes instead of one heavy pass.
Fine grit can be useful for finishing, but on aluminum it may load faster if the surface is soft or oxidized. If the process is bogging down, evaluate whether the grit is too fine for the removal rate you need.
Oxide buildup, cutting fluids, dirt, and mixed-metal contamination can change how the disc behaves. Clean the surface before grinding when possible.
Once the flaps are packed with aluminum, the disc may continue to heat the part while removing little material. If cleaning does not restore cut, replace the disc.
For aluminum work, abrasive choice matters. The allowed product for this topic is:
CGW Flap Disc 39910 – 1" x 1" x 1/4", Aluminum Oxide, 120 Grit (Pack of 10) Enhance your precision grinding with the CGW Flap Disc 39910. Designed for durability and performance, this high-quality flap disc is ideal for small and hard-to-reach areas. Features: Size: 1" x 1" x 1/4" Grit: 120 – for fine finishing Material: Premium Aluminum Oxide Pack Quantity: 10 discs Weight: 0.04 lbs each Key Benefits: Consistent…
View at Arc Weld StoreCGW Flap Disc 39910 is an aluminum oxide flap disc in 120 grit, pack of 10. It is suited to fine finishing and small or hard-to-reach areas. Specific performance on a given aluminum application is Unknown (Verify), so confirm whether this grit and disc construction match your removal and finish requirements.
Use this kind of disc when the job calls for controlled finishing rather than aggressive stock removal. For heavier aluminum removal, you may need a different grit or a different abrasive approach. Verify the material removal requirement before selecting the disc.
Aluminum is softer and more prone to smearing into the abrasive. That buildup blocks the cutting surface.
Sometimes. Cleaning may remove some packed material, but if the disc stays loaded or the cut rate does not return, replace it.
It can be appropriate for fine finishing. For faster stock removal, it may be too fine and may load sooner. Verify against the job requirement.
Yes. Lower pressure often reduces heat and loading.
Flap disc loading happens when soft metal, coating, paint, mill scale, adhesive, or grinding debris packs between the abrasive grains. Glazing happens when the abrasive face gets hot and polished instead of continuing to cut. In both cases, the disc stops biting, starts rubbing, creates heat, smears the workpiece, and wears out early. The usual causes are too much pressure, wrong grit, wrong abrasive grain, wrong disc style, too shallow or too steep an angle, low grinder speed under load, contaminated material, or using one disc across carbon steel, stainless, and aluminum.
The fastest field check is to stop grinding and look at the flap face. If the abrasive is packed with silver, gray, gummy, or colored material, it is loading. If the flap face looks shiny, smooth, burned, or polished, it is glazing. Reduce pressure, keep the grinder moving, use a coarser grit when needed, and choose a disc matched to the metal. For weld blending basics, the WSP article PFERD POLIFAN-Curve Flap Disc 4-1/2″ x 7/8″ reinforces using light pressure and letting the abrasive cut.
| Symptom | Likely Cause | First Check |
|---|---|---|
| Disc stops cutting and skates | Glazed abrasive face | Reduce pressure and check grain type |
| Metal smears into flaps | Loading on soft material | Change to aluminum/non-ferrous-rated disc |
| Heavy heat discoloration | Too much pressure or wrong disc | Use lighter passes and cooler-cutting abrasive |
| Disc burns up quickly | Grinding like a hard wheel | Let the flap disc cut with moderate pressure |
| Finish turns uneven | Loaded areas cutting differently | Replace disc and clean material first |
| Disc loads only on painted or coated parts | Coating contamination | Strip coating before finish grinding |
Too much pressure: Heavy pressure forces heat into the flap face and workpiece. A flap disc is not a hard grinding wheel. Leaning on it can flatten the abrasive, close the grain, smear metal into the face, and glaze the cutting surface.
Wrong grit: A grit that is too fine for stock removal can polish instead of cut. If a 80 or 120 grit disc is being used to remove weld reinforcement or heavy mill scale, it may load or glaze before the job is done. Coarser grits remove material faster but require control to avoid gouging.
Wrong abrasive grain: Aluminum oxide is a general-purpose, cost-effective abrasive. Zirconia alumina is self-sharpening and better for aggressive steel grinding. Ceramic alumina is commonly used where cooler cutting, sustained cut rate, and hard-to-grind metals matter. WSP’s alumina oxide vs ceramic flap disc guide is a useful comparison when the disc is glazing before the job is complete.
Wrong material match: Aluminum, brass, copper, and other non-ferrous materials smear more easily than carbon steel. Stainless can heat-discolor and work-harden if the disc rubs. A disc that works on mild steel may load quickly on aluminum or overheat stainless.
Wrong angle or style: Type 27 flat discs are usually better for broad surface blending. Type 29 conical discs are more aggressive and better for stock removal or edge work. Angled or curved flap discs help in fillets and weld toes. Using the wrong shape can concentrate heat and pressure in one narrow band.
If the disc loads within seconds on aluminum or other soft alloys, the issue is usually material mismatch, too fine of a grit, or a disc without a loading-resistant top coat. If it glazes on carbon steel, the operator is usually applying too much pressure, holding one spot too long, using too fine a grit, or running a worn disc past its effective cutting life. If stainless is discoloring, the disc is rubbing hotter than it is cutting. Weiler’s catalogue notes ceramic/top-coated flap disc options for cooler grinding and loading prevention on softer alloys, while Saber Tooth ceramic flap discs are listed for stainless, aluminum, Inconel, titanium, and other hard-to-grind metals.
Also separate surface-cleaning jobs from metal-shaping jobs. A wire cup brush is better when the main goal is fast rust, paint, or scale removal. A flap disc is better when the job needs controlled weld-toe blending, smoother finish before paint, or predictable metal removal on edges and corners. WSP’s wire cup brush guide makes that distinction clearly.
Use a clean scrap piece of the same material. Mark a short test area and run one pass with light pressure, one pass with moderate pressure, and one pass with the suspected production pressure. Compare spark pattern, sound, heat, metal removal, and the flap face after each pass. A good flap disc should cut with a steady sound and consistent scratch pattern. A loaded disc will smear and drag. A glazed disc will skate and heat the part with little material removal.
If the disc cuts cleanly on carbon steel scrap but loads on the job part, the part likely has soft metal, paint, coating, adhesive, oil, or oxide contamination. If every test coupon causes glazing, the grit, grain, pressure, grinder speed, or disc construction is wrong for the job.
Verify grinder spindle, arbor/thread, guard clearance, disc diameter, maximum RPM, disc style, grit, abrasive grain, backing type, and material rating before ordering. A 5/8-11 nut mount and a 7/8 arbor disc are not the same. A 4-1/2 in disc and 7 in disc do not share the same RPM limit. A stainless job should use stainless-dedicated, contaminant-controlled abrasives where required.
Weiler’s flap disc selection guide separates applications by flat grinding, light pressure/blending, weld grinding, heavy stock removal, edge grinding, fillet grinding, irregular surfaces, carbon steel, stainless, aluminum/non-ferrous, and exotic metals. It also identifies backing styles, grit ranges, Type 27 flat, Type 29 conical, high-density, and angled styles. Use those fitment variables before treating loading as an operator-only problem.
| Problem | Field Fix | Proper Fix |
|---|---|---|
| Disc loaded with aluminum | Stop and switch discs | Use non-ferrous/aluminum-rated abrasive with loading resistance |
| Disc glazed on steel | Reduce pressure and try coarser grit | Match grit, grain, and disc style to removal rate |
| Heat discoloring stainless | Use lighter passes and fresh disc | Use cooler-cutting ceramic/top-coated stainless-rated disc |
| Paint packing into flaps | Strip paint first with brush or stripping tool | Clean material before flap-disc blending |
| Disc skates on weld bead | Change angle and pressure | Use more aggressive grain or correct Type 29/edge disc |
Flap disc loading and glazing can lead to excess heat input, blue stainless, smeared aluminum, poor paint adhesion, inconsistent scratch pattern, slow weld blending, undercut at weld toes, gouging from over-correction, premature disc failure, grinder kickback, and contaminated weld prep. If the disc is being used before welding, clean the surface afterward so grinding dust and scale particles do not end up in the weld joint. WSP’s mill scale removal guide covers the prep side of that failure path.
Always inspect flap discs before use. Do not use damaged, cracked, delaminated, oil-contaminated, or expired discs. Match the disc maximum RPM to the grinder. Use the proper guard, eye protection, face shield, hearing protection, gloves, sleeves, and respiratory protection when grinding dust or coatings are present. Clamp the work. Keep the grinder moving. Do not grind unknown coatings, plated metals, or contaminated surfaces without identifying the hazard.