How to Strip and Reapply Antifouling Bottom Paint

My bottom paint is built up and flaking — how do I strip it and put on fresh antifouling?

Flaking, built-up bottom paint almost always means years of recoating without ever stripping back to a sound base — the old layers lose adhesion and start sheeting off, taking new paint with them. The fix is to remove the failed buildup down to a stable substrate (sound old paint, barrier coat, or gelcoat), fair and prime as needed, then apply two fresh coats of a compatible antifouling. This is mostly slow, dirty prep work; the painting itself is the easy part, and getting the surface right is 90 percent of whether the new job lasts.

ℹ️ Reference only: For general reference only. This guide does not guarantee any result — every home is different. Verify against your local building codes and a licensed professional before acting, especially for electrical, gas, plumbing, structural, or roof work.

💵 DIY: roughly $150-$600 in materials for a small-to-mid boat (stripper or sanding consumables, barrier coat if needed, 1-2 gallons antifouling at $150-$350/gal, PPE, masking). Yard: $25-$50+ per linear or square foot for soda/media blasting, and a full strip-barrier-and-repaint commonly runs $1,500-$6,000+ depending on size, plus haul-out/storage. ⏱ A weekend to several days for a small/mid boat if you DIY: most of it is stripping, drying time, and recoat/cure windows. Add a few weeks to several months of dry-out if you take it to bare gelcoat with wet/blistered laminate before barrier coating. Yard turnaround is typically 1-2 weeks. ● Use caution

Safety: Bottom paint dust and chips contain biocides (copper, sometimes zinc and booster pesticides) and are toxic and a regulated hazardous waste in most areas — contain all residue, never let it reach the water, and dispose per local rules. Wear a P100/organic-vapor respirator, goggles, gloves, and skin cover; chemical strippers are caustic and the sanding dust is harmful to inhale. Most marine strippers are methylene-chloride-free (NMP or benzyl-alcohol based); if you ever use a methylene-chloride stripper, ordinary organic-vapor cartridges do NOT protect against it (it needs supplied air), so choose a MeCl-free product instead. Never use a heat gun or open flame on antifouling — heating it releases toxic fumes. Work under a blocked hull carries fall and crush hazards — make sure the boat is properly supported on stands/jackstands. Never put copper antifouling on aluminum hulls or outdrives (galvanic corrosion), and do not paint over sacrificial anodes.

Common causes

Years of recoating without ever stripping — the paint film gets too thick, internal stresses build, and the oldest layers lose adhesion and flake off in sheets (most common)
Quick check:
Incompatible paints layered together (a hard modified-epoxy over a soft ablative, or a new coat's solvents attacking the old film) (common)
Quick check:
Poor prep on a previous job — painted over wax, dirt, slime, or glossy un-sanded paint, so the layers never bonded (common)
Quick check:
Moisture migration or gelcoat blistering under the paint, or a failed barrier coat letting water lift the film (less common)
Quick check:
Antifouling applied directly over bare gelcoat with no primer/tie-coat where one was required, so adhesion was never there (less common)
Quick check:

How to fix it

Haul and block the boat, then assess. Scrape a test patch with a putty knife: if paint peels off in sheets down to gelcoat or barrier coat, you have an adhesion/buildup failure and full (or near-full) removal is the right call. If only isolated patches lift, you can spot-strip those areas and feather the edges instead of doing the whole hull.
Choose a removal method. Three real options: (1) Chemical stripper made for marine antifouling (e.g. Interlux Interstrip, Peel Away Marine) — brush on, let it lift the paint, scrape off; safest for gelcoat and lowest dust. (2) Media blasting (soda or crushed-glass) — fast on big or badly built-up hulls, but only by a yard experienced with thin fiberglass laminate so it does not chew the gelcoat. (3) Sanding/grinding with a vacuum-shrouded sander and 40-80 grit — workable for small boats and spot jobs but the dustiest. Do not use a heat gun or open flame on antifouling — heating biocidal paint releases toxic fumes.
Contain and protect for the whole job. Bottom paint dust and chips contain biocides (copper, sometimes zinc/booster pesticides) and are a regulated waste in most states. Tarp the ground, collect all residue, and dispose of it as hazardous waste per your yard and local rules — do not let it wash into the water. Wear a P100/organic-vapor respirator, goggles, gloves, and a Tyvek suit; chemical stripper and sanding dust are both serious exposures.
Strip down to a sound, stable surface. You are aiming for solid old paint that will not lift, an intact epoxy barrier coat, or clean gelcoat — not necessarily bare glass everywhere. Once you hit a layer that is firmly bonded across the hull and passes a scrape test, you can stop there and recoat over it (after sanding) if it is compatible with your new paint.
If you go to bare gelcoat, inspect for moisture and blisters. Let the hull dry out — for light moisture a few weeks of dry weather may do, but a saturated or blistered laminate often needs several months to dry to a paintable moisture level (a moisture meter helps confirm; never barrier-coat over trapped water). Grind out and fill any blisters with epoxy filler, fair smooth, then apply an epoxy barrier coat system (e.g. Interlux InterProtect 2000E, Pettit Protect) — multiple coats to the maker's wet-film thickness. The barrier coat is what keeps water out of the laminate; do not skip it on bare glass.
Solvent-wipe, then sand for adhesion. Wipe with the paint maker's recommended dewaxer/solvent wash FIRST (to remove mold-release wax and contaminants), then sand — doing it in that order so you do not grind wax into the surface. Scuff sand sound old paint or the barrier coat with 80-120 grit so the new antifouling has tooth. Wipe again and let flash off.
Pick a compatible antifouling and confirm it suits your use. Ablative/self-polishing (e.g. Pettit Hydrocoat, Interlux Micron) is forgiving, does not build up as fast, and is good for most owners. Hard modified-epoxy (e.g. Pettit Trinidad) suits boats that get scrubbed or run fast. Match the paint to your water (fresh vs. salt, fouling pressure) and to what is underneath — check the maker's compatibility chart; a tie-coat is sometimes needed between dissimilar paints. Copper-based paints must never contact an aluminum hull or aluminum outdrive/saildrive — the copper drives rapid galvanic corrosion of the aluminum, so use a copper-free formula there.
Apply two coats per the data sheet, watching temperature and recoat windows. Most antifoulings want roughly 50-85F and a specific min/max recoat time. Roll on thin, even coats with a solvent-resistant roller; apply a second contrasting-color 'signal coat' as a wear indicator. Put an extra coat at the waterline, leading edges, and rudder/keel where fouling and wear are worst.
Handle the props, shafts, and running gear separately. Copper antifouling adheres poorly to smooth bronze/stainless running gear and is the wrong product there — on bronze it is actually galvanically compatible (bronze is mostly copper), so the issue is adhesion, not corrosion; on an aluminum outdrive or saildrive copper is genuinely dangerous and will accelerate galvanic corrosion. Use a dedicated running-gear system instead — a foul-release coating (Propspeed-type) or an outdrive/drive-specific primer-and-antifouling system (e.g. Pettit Zinc Coat barrier for drives).
Re-mask and reinstall sacrificial anodes, and check bonding. Make sure zinc/aluminum/magnesium anodes (matched to your water — zinc or aluminum for salt/brackish, magnesium for fresh) are clean bare metal and not painted over; painted anodes cannot protect the hull. Confirm the bonding system and any thru-hull/shaft connections are intact before splash.
Mind the antifouling launch window. Most paints want to be splashed within a stated time after the final coat (often a few days to a couple weeks) and some ablatives need the boat wet within a maximum window to activate properly. Read the can and plan the launch accordingly; let the final coat cure to the recommended dry-to-launch time first.

DIY or call a pro?

Solidly DIY for a competent owner on a trailerable or mid-size boat — the work is labor and patience, not specialized skill. The case for a yard: a big hull, heavy buildup that calls for media blasting, suspected wet laminate/blistering needing a full barrier-coat job, or local rules that make hazardous-dust containment and disposal a headache. Many owners split it: pay a yard to blast or strip, then prime and paint themselves.

Tools & parts

Marine antifouling stripper (e.g. Interlux Interstrip, Peel Away Marine) or vacuum-shrouded random-orbit sander
40-80 grit (stripping) and 80-120 grit (scuff) sandpaper / discs
Carbide paint scrapers and stiff putty knives
P100 / organic-vapor respirator, sealed goggles, chemical gloves, Tyvek suit
Ground tarps and waste containers for hazardous-waste collection
Dewaxer / solvent wash specified by the paint maker
Epoxy barrier coat system if going to bare gelcoat (e.g. Interlux InterProtect 2000E, Pettit Protect)
Epoxy fairing filler for blisters/gouges
Compatible antifouling, 1-2 gallons (ablative or hard, in two contrasting colors for a signal coat)
Solvent-resistant rollers, trays, foam brushes, fine-line masking tape
Dedicated prop/running-gear coating system (foul-release or drive-specific primer + antifouling)
New sacrificial anodes (zinc/aluminum/magnesium matched to your water)
Moisture meter (optional, for confirming dry-out)

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Based on: BoatUS / BoatUS Foundation; American Boat & Yacht Council (ABYC); Interlux (AkzoNobel) antifouling technical guides; Pettit Marine Paint application data sheets; U.S. Environmental Protection Agency (EPA) guidance on antifouling-paint waste; U.S. Coast Guard / USCG Auxiliary boating-safety guidance

General marine-maintenance guidance, not a substitute for a qualified marine technician or surveyor. Boats and conditions vary; for fuel, electrical, fire, or structural issues — or anything safety-critical — consult a professional. Always follow your engine and equipment manuals.