Lab Metal Filler product image
Lab Metal Filler product image
Lab Metal Filler product image
Lab Metal Filler product image

Lab Metal Filler

★★★★★4.8· thousands of reviews

Our Lab Metal Filler delivers professional-grade metal repair without the shrinkage, cracking, or dents common with traditional body fillers. This brushable aluminum-filled formula bonds chemically and mechanically to steel, aluminum, brass, and other metals, creating a surface harder than the base material itself.

Designed for automotive body work, industrial machinery repair, and marine applications, Lab Metal sets in minutes and cures fully overnight. You can sand, drill, tap, machine, and paint the cured surface just like original metal, making it the go-to solution for mechanics, fabricators, and restorers who demand strength and workability in every repair.

Get Lab Metal FillerLearn More
01
Brushable liquid formula applies smoothly without mixing or kneading
02
Bonds to steel, aluminum, brass, bronze, stainless steel, and most alloys
03
Cures harder than parent metal with compressive strength over 11,000 psi
04
Non-shrinking formula eliminates surface cracking and pinholes
At a glance

Application & performance specs

Brushable liquid formula applies smoothly withou
Bonds to steel, aluminum, brass, bronze, stainle
Cures harder than parent metal with compressive
Non-shrinking formula eliminates surface crackin
Fully sandable, drillable, tappable, and machina
Accepts primer and paint for seamless finish mat
Formula & Chemical Composition
Product details

Formula & Chemical Composition

Lab Metal Filler uses a proprietary aluminum-filled resin system that cures through solvent evaporation and chemical cross-linking. Unlike polyester body fillers that require hardener catalysts, this single-component formula applies straight from the container with a brush, spatula, or putty knife.

The high aluminum content creates a metallic matrix that bonds on both chemical and mechanical levels. As solvents evaporate, the resin forms molecular bonds with the substrate while the aluminum particles interlock to create exceptional compressive and tensile strength. This dual-action bonding eliminates the weak interface zone that causes traditional fillers to separate or crack under stress.

Surface Preparation & Application Method
Sizing & fit

Surface Preparation & Application Method

Substrate Preparation

Clean the repair area with acetone or a degreaser to remove oil, grease, old paint, and corrosion. Sand or grind the surface with 80-120 grit abrasive to create mechanical tooth for bonding. Feather paint edges at least one inch beyond the repair zone to ensure smooth blending.

Application Technique

Stir the container thoroughly before use. Apply thin coats with a brush or spreader, building layers no thicker than 1/8 inch per pass. Allow each layer to set 15-20 minutes before adding the next coat. For deep cavities or holes, reinforce with aluminum mesh embedded between layers.

Styling

Curing Time & Working Conditions

At 70°F, lab metal filler sets to touch in 10-15 minutes and reaches sandable hardness in 2-4 hours. Full structural cure develops over 24 hours as residual solvents evaporate completely. Working time is approximately 5-7 minutes after application, giving you enough window to smooth and feather edges before the formula begins to set.

Temperature significantly affects cure speed. At 60°F, expect working time to extend by 30-50%, while 90°F conditions accelerate both application time and initial set. For fastest cure in cool workshops, apply gentle heat with a heat gun set to low (120-150°F) after the filler has skinned over.

Curing Time & Working Conditions
Curing Time & Working Conditions
Curing Time & Working Conditions

Complete the look

Complete Your Metal Repair Kit


Customer reviews

Rated 4.8 by verified buyers

4.8
★★★★★
Based on verified reviews
Read on Amazon →
Customer photo
Customer photo
Rebuilt my motorcycle engine case perfectly
I used Lab Metal to fill a crack in my vintage bike’s aluminum engine case. After 24 hours, I drilled and tapped it for a new mounting bolt. The repair has held up through two years of hard riding with zero issues. Stronger than I expected.
M
Marcus T.
Verified buyer
★★★★★
Best solution for marine aluminum repairs
We’ve been using this on our charter boat’s aluminum hull for three seasons. It holds up to saltwater corrosion better than any epoxy we’ve tried. Sands smooth and takes bottom paint without any bleed-through or staining.
J
Jennifer K.
Verified buyer
★★★★★
No shrinkage or cracking on body panel repairs
I restore classic cars professionally, and Lab Metal has become my go-to for metal prep. It fills pits and surface rust without shrinking back or developing pinholes. The brushable consistency gets into tight spots that paste fillers can’t reach.
R
Ron M.
Verified buyer
★★★★★
Fixed a stripped thread in my lathe bed
I filled a stripped mounting hole in my lathe’s cast iron bed and tapped new threads after it cured. The bolt torques down solid with no movement. I was skeptical a filler could handle that kind of clamping force, but it’s been rock solid for six months.
D
David P.
Verified buyer
★★★★★
Works great if you’re patient with thin coats
The key is building up thin layers. I tried rushing it with a thick coat and got some surface imperfections. Once I followed the instructions and used multiple thin passes, the results were excellent. Cures harder than the steel I was repairing.
A
Angela R.
Verified buyer
★★★★☆
Saved me from welding replacement panels
I repaired rusted-through rocker panels on my truck without welding. Built up the holes with mesh and multiple coats, then shaped and painted. Two years later, the repair is still solid with zero rust comeback. This stuff is no joke.
C
Chris H.
Verified buyer
★★★★★

Good to know

Questions About Lab Metal Filler

Yes, Lab Metal bonds to cast iron, steel, stainless steel, aluminum, brass, bronze, and most metal alloys. Clean the surface with acetone and roughen with 80-120 grit abrasive before application. The formula creates both chemical and mechanical bonds that cure harder than the parent metal.

For best results on cast iron engine blocks or machinery housings, warm the substrate to 90-100°F before applying. This improves flow and accelerates the initial set.

Apply layers no thicker than 1/8 inch per coat. Thicker applications trap solvents that slow curing and can create soft spots or surface imperfections. For deep holes or cavities, build up multiple thin coats with 15-20 minutes between layers.

If you need to fill a gap deeper than 1/2 inch, embed aluminum mesh or perforated metal between layers to provide structural reinforcement and prevent sagging during cure.

Lab Metal is a single-component brushable liquid that cures through solvent evaporation, while traditional body filler is a two-part paste that requires catalyst mixing. Lab Metal cures harder than polyester fillers, doesn’t shrink, and bonds directly to bare metal without a risk of separation.

Polyester body fillers work faster for large surface areas but require more sanding and often develop pinholes. Lab Metal takes longer to cure but creates a denser, more durable repair with superior chemical and moisture resistance.

Yes, once fully cured (24 hours minimum), Lab Metal accepts all automotive primers and paints. For best adhesion and corrosion protection, apply a two-part epoxy primer before topcoating. The non-porous cured surface prevents solvent absorption and eliminates the bleed-through common with polyester fillers.

Sand the cured filler with 220-grit paper before priming to ensure proper mechanical tooth. Wipe with a tack cloth to remove sanding dust, then apply primer within 24 hours for optimal bonding.

Lab Metal cures with compressive strength over 11,000 psi, making it suitable for many structural applications including suspension mounting points, engine block repairs, and machinery housings. You can drill and tap the cured material for threaded fasteners that hold torque loads comparable to the parent metal.

For critical structural components subject to high tensile or impact loads, consult engineering specifications. While Lab Metal provides excellent strength for most repairs, welded reinforcement may be required for safety-critical applications.

Seal the container tightly immediately after use to prevent solvent evaporation and skinning. Store in a cool, dry location away from heat sources and direct sunlight. Properly sealed containers maintain workability for 12-18 months after opening.

If a skin forms on the surface, remove it completely before use. Stir the remaining material thoroughly to redistribute settled aluminum particles. Do not thin with solvents, as this reduces bonding strength and extends cure time.

Fully cured Lab Metal resists continuous temperatures up to 350°F, making it suitable for engine components, exhaust manifold repairs, and other moderately heated applications. For components exposed to higher temperatures or direct flame, consider high-temperature epoxy putties formulated for extreme heat.

Allow a full 48-hour cure before exposing repairs to elevated temperatures. Premature heating can drive off solvents too quickly and create internal stress cracks that compromise strength.

The collection
Explore Our Complete Repair Solutions
From body fillers to specialty adhesives, find the right product for every project