By J. R. Watson
Wet sanding with waterproof sandpaper is often the best approach to sanding cured epoxy. Wet sanding removes amine blush while you sand, reduces clogging of the sandpaper, and reduces dust and exposure to partially cured epoxy. It lets your sandpaper go farther and provides a visual clue that everything is properly sanded. However, if you have bare wood or wood that cannot get wet, you will need to dry
Cured epoxy is difficult to sand because of its hardness. In fact, cured epoxy is just softer than plastic laminate such as Formica™ At 70°F, West System® epoxy cures to 90% of maximum physical properties within 24 hours. Epoxy cuts easiest after 24 hours of cure, but before 48 hours or more: it has cured enough to be cut, but has not reached full mechanical properties. Epoxy's hardness dulls sandpaper fast. In addition, cured epoxy can quickly fill sandpaper, rendering it ineffective after several swipes. That's because the very outer layer of epoxy can form an amine blush, the result of a reaction with moisture in the air as it cures.
Advantages of wet sanding
- Wet sanding removes amine blush
All room temperature cure amine-base hardening epoxies are susceptible to amine blush to some degree. This amine blush is soft and can be a little greasy or gooey; it doesn't cut, but clogs or balls up so you can go through a lot of paper with little progress. (Balling of epoxy is also symptomatic of inadequately cured epoxy.) Amine blush has to be removed, as it can cause a number of problems: adhesion quality of subsequent epoxy applications, interference with paint or varnish drying, paint "bleed-through" and, of course, difficulty sanding.
Washing with water is effective for blush removal, but wet sanding is far more efficient for large areas. Solvents such as acetone and lacquer thinner won't touch it, and are hazardous. I've used cabinet scrapers with good success, but find wet sanding with water is the best approach.
- Wet sanding improves performance
Water improves cutting performance by flushing cut material from the surface that can come between the abrasive surface and the substrate. In addition, water keeps the abrasive surface clear of debris so it doesn't 'clog'.
- Wet sanding reduces dust
Because cut particles are wet when sanded, wet sanding virtually eliminates airborne dust. This reduces exposure to partially cured epoxy dust and thus is safer from a health and safety standpoint.
Waterproof sandpaper is usually a closed coat, silicon carbide. It's available from most automotive paint and supply stores. Grits from 60 to 1000 are available, although you should only need 60 to 80 grit for initial abrasion, and 180 to 220 grit or maybe 320 for final sanding prior to priming or varnish. If your cured epoxy has runs and irregularities, I suggest starting with 60 or 80 grit sandpaper. Work your way up until you get the degree of finish you're after.
Wet sanding is normally done by hand. Never use an electric powered sander when wet sanding or you could get electrocuted. We have used air-powered dual action (DA) machines for wet sanding (which is messy), but we usually sand by hand.
I use a hard rubber sanding block like the one in the photo to hold the paper when smoothing and abrading most surfaces. A curved or soft pad may be necessary on curved surfaces, but you can wet sand without a block or pad by simply folding the cloth to fit your hand and dipping the paper in water. On heavily irregular or textured surfaces such as a sculpture, the waterproof paper won't contour enough, so use an abrasive pad like 3M Scotch Brite™ with water.
I usually put water in a bucket. If the shop is cool, I'll put hot water in a cooler (it holds heat as well as cold) to help keep it warm. I dip the rubber sanding block with sandpaper attached into the water when more water is needed. Another approach is to fill a squirt bottle and spray the substrate as you're sanding.
Use a rubber-bladed window washer squeegee to scrape excess water and cut material from the substrate so you can visually inspect the surface better. When wet, the surface is shiny, but when squeegeed, it appears dull and highlights surface texture. When wet sanding, especially with aggressive grits, you have to keep an eye on your progress. Rinse and squeegee away water between changes in grit to avoid contaminating the finer grit with the previous coarser grit. Be sure to remove any remaining debris right after wet sanding because it's hard to remove after it dries. Rinse water should sheet evenly, without beading or fisheyeing. If rinse water beads up, wet sand again until the beading is eliminated.
To prepare the surface for subsequent epoxy coats or painting, wipe the dry surface with a paper towel to loosen any remaining debris and then sweep it with a bench brush. Don't use rags-they may contaminate the surface. Follow with an electrostatic dust cloth, such as a Pledge Grab-it™. We use a tack cloth prior to painting, but not for subsequent epoxy coats because the tack cloth is resinous saturated cheesecloth which can contaminate the substrate and interfere with epoxy adhesion.
Constant immersion in water softens your skin and makes hands more susceptible to cuts and abrasions. Wet dry cycles can also result in chapped skin. Use a dry skin cream such as Pond's™ to combat this problem. If you wet sand with the paper in direct contact with your skin, it's possible to abrade your skin away. I've been without fingerprints for a few days as a result. The upshot is, your hands will be cleaner than they've been in years, possibly with fingers a safecracker would envy.
Wet sanding can make a mess. All the cut debris in solution with water ends up on the floor. This is difficult to sweep up when dry. But the advantage, as mentioned before, is that wet sanding produces no dust.
Much of the quality of a final finish is in surface preparation. Wet sanding has much to be said for easing the task without sacrificing quality.
Epoxyworks 17 / Spring 2001
Copyright © 2002, Gougeon Brothers, Inc. All rights reserved.
Last Modified on 10/28/02.
Reproduction in any form, in whole or in part, is expressly forbidden without the consent of the publisher. EPOXYWORKS, Gougeon Brothers, WEST SYSTEM, Episize, Scarffer and Microlight as used throughout this publication, are trademarks of Gougeon Brothers, Inc., Bay City, Michigan, USA.