Table of Contents
A belt and disc sander is a benchtop sanding machine that combines a moving belt for shaping edges with a rotating disc for squaring ends, bevels, and small parts. The best choice depends on belt size, disc diameter, motor strength, dust control, abrasive cost, and how much bench space you can spare.
For most home shops, a 4 x 36 belt with a 6 inch disc gives the best mix of control, replacement abrasive availability, and everyday woodworking use.
Quick Picks and Product Comparison
The best belt and disc sander combo is the one that matches your work size, not the biggest machine on the page. A small craft shop needs low vibration and easy storage, while a furniture repair bench benefits from a heavier base, stronger motor, and common 4 x 36 inch belts.
Product Comparison Table
This table compares common combination belt and disc sander choices by practical shop use rather than treating every model as equal.
| Model/Product | Belt Size | Disc Size | Motor Rating | Base Material | Dust Collection | Best For | Key Limitation |
|---|---|---|---|---|---|---|---|
| Smooth Shop Sander | 4 x 36 inch | 6 inch | Noted as compact shop power | Cast iron base | Standard bench collection setup | Small workshops needing steadier sanding | Less portable than lighter aluminum-base units |
| Portable Power Sander | 4 x 36 inch | 6 inch | Direct-drive motor | Aluminum base | Basic dust port setup | Portable setup and everyday wood shaping | Light base can transmit more vibration |
| Compact Sanding Combo | 4 x 36 inch | 6 inch | 4.3 amp motor | Steel base | Double dust exhaust | Users who want better dust capture | Dust ports may still need hose adapters |
| Heavy Duty Combo Sander | 4 x 36 inch | 8 inch | 3/4 HP, 5.0 amp setup | Benchtop heavy base | Standard dust collection | Larger workpieces and stronger disc sanding | Needs more bench room and larger discs |
| SKIL Bench Sander | Common combo format | Common combo format | 4.5 amp motor | Compact benchtop base | Basic dust control | General DIY sanding | Better for moderate pressure than heavy hogging |
| Woodskil Combo Sander | 4 x 36 inch | 6 inch | 4.5 amp, 3/4 HP class rating | Bench-ready base | Standard dust port | Home woodworking and repair work | Accuracy depends on table and miter gauge setup |
Small-Shop Models
A small-shop disc and belt sander should feel planted without taking over the bench. When I test compact units, the first clue is vibration: a light base gives a faint buzzing through the fingertips, while a cast iron base feels duller and steadier when the belt touches hardwood.
Choose a compact 4 x 36 / 6 inch setup if you sand drawer parts, toy pieces, picture frames, or small shelves. A true 1 x 30 machine stores easier, but it feels cramped when flattening long edges or cleaning saw marks from wider boards.
General Woodworking Models
For general woodworking, a 4 x 36 belt and 6 inch disc is the safe middle ground. It handles pine, poplar, oak, plywood edging, MDF jigs, and small furniture parts without forcing you into odd abrasive sizes.
Pair this machine with a handheld finish sander for complete workflow coverage. If you need help choosing that second tool, compare use cases in our machines for sanding guide.
Larger-Disc Models
A larger 8 inch disc gives more sanding surface, better support, and slower abrasive loading on bigger parts. The difference shows up when squaring a chair rail or beveling a wider bracket, where a 6 inch disc can feel like you’re balancing the work on a narrow patch.
The trade-off is space and consumable cost. An 8 inch PSA disc costs more than a 6 inch disc, and the bigger guard and table need extra clearance behind the machine.
Dust Control Picks
Dust control matters because sanding produces fine airborne dust that hangs in the light and coats nearby tools with a chalky film. Models with dual dust exhaust paths usually clear the belt and disc better, but hose fit often decides real suction.
Measure the port before buying adapters. A loose shop-vac hose leaks enough air to leave brown dust streaks under the disc table, while a snug reducer improves capture without needing a larger collector.
Value and Hidden Costs
The machine price is only part of total ownership. Budget for 4 x 36 belts, 6 inch or 8 inch discs, dust adapters, better miter gauges if needed, bench bolts, and abrasive storage that keeps PSA discs flat.
Less common abrasive sizes can become annoying over time. A bargain sander loses value if replacement belts ship slowly, curl at the edges, or cost more than standard 4 x 36 inch sanding belts.
Practical Notes From Real-World Use
In regular shop use, the best machines feel calm under pressure. You hear a clean, steady hum, not a strained growl, and the workpiece slides with a dry rasp instead of grabbing or chattering against the table.
Beginners often press harder when sanding slows down. A better workaround is to change to a fresh 60 or 80 grit belt, clean resin from the abrasive, and make several light passes so the motor keeps its speed.
Compare these belt and disc sander options before matching the specs to your shop tasks.
Smooth Shop Sander
- Compact benchtop design for small workshops
- 4 x 36 inch belt handles shaping and smoothing
- 6 inch disc is great for edge work and fine tuning
- cast iron base helps reduce vibration for steadier sanding
- easy switch between belt and disc tasks
Portable Power Sander
- Direct-drive motor delivers strong, efficient sanding
- 4 x 36 inch belt and 6 inch disc cover key shop tasks
- portable aluminum base makes it easier to move and set up
- built for smoother shaping and finishing on wood
- upgraded design adds dependable everyday performance
Compact Sanding Combo
- 4.3 amp motor provides reliable sanding power
- 4 x 36 inch belt and 6 inch disc handle a range of jobs
- double dust exhaust helps keep the work area cleaner
- steel base adds stability during use
- includes two sandpapers to get started right away
Heavy Duty Combo Sander
- 3/4HP direct-drive motor delivers strong sanding action
- 4 x 36 inch belt is ideal for shaping and smoothing
- 8 inch disc gives extra surface area for larger pieces
- 5.0 amp setup suits woodworking tasks
- benchtop design keeps it within easy reach
SKIL Bench Sander
- 4.5 amp motor handles everyday sanding jobs
- combo belt and disc design adds versatile shop use
- compact benchtop footprint saves workspace
- good for shaping edges and smoothing surfaces
- simple setup makes it easy to get started
Woodskil Combo Sander
- 4.5 amp motor offers solid sanding performance
- 4 x 36 inch belt and 6 inch disc cover common tasks
- upgraded model is built for smoother everyday use
- 3/4HP power helps with shaping and finishing
- reliable choice for home woodworking projects
What a Belt and Disc Sander Does

A belt and disc sander shapes, smooths, squares, and bevels small to medium workpieces using two fixed sanding surfaces. The belt removes material along edges and curves, while the disc gives controlled contact for ends, miters, and bevels.
Belt and Disc Basics
The sanding belt runs over rollers and a backing platen, which supports flat sanding. The disc spins on a plate beside a work table, so you can guide the part with a miter gauge or hold it flat against the table.
A benchtop sander feels different from a handheld belt sander because the machine stays still and your hands move the work. That improves control on short pieces, but it also means fingers sit closer to the abrasive.
Common Shop Tasks
Use a combination sander for tasks that need shape correction before finish sanding. It won’t replace a random orbital sander for tabletops, but it speeds up edge cleanup and small-part fitting.
- Remove saw marks from short edges.
- Round corners on shelves, blocks, and templates.
- Square small board ends on the disc table.
- Clean bandsaw marks on outside curves.
- Fit plugs, wedges, shims, and repair parts.
- Deburr light metal with the right abrasive and spark control.
Wood, Plastic, and Metal
Wood is the main material for most woodworking sander combos, but plastic and light metal are possible with care. Acrylic can melt and smear if heat builds, while aluminum can load the abrasive and leave shiny packed spots.
Metal sanding needs a clean bench and separate dust plan. Sparks from steel can ignite wood dust, so don’t route metal sparks into a collector that holds sawdust.
Benchtop Combo Parts
Key parts include the motor, platen, rollers, belt tracking knob, tension lever, disc plate, guard, work table, miter gauge, dust port, and base. A weak table lock or sloppy miter gauge can limit accuracy more than motor power does.
If you’re comparing this machine with a standalone belt sander, our belt sander guide explains handheld and stationary belt tools in more detail.
Common Belt and Disc Sander Sizes
The most common belt and disc sander size for home woodworking is a 4 x 36 inch belt with a 6 inch disc. Smaller 1 x 30 / 5 inch machines suit detail work, while 4 x 36 / 8 inch models support bigger disc sanding tasks.
1 x 30 / 5 Inch
A 1 x 30 belt with a 5 inch disc works well for model making, craft parts, knife handle shaping, and light sharpening. The narrow belt reaches tight spots, but it heats small metal parts fast and removes stock slowly on hardwood edges.
Pick this size only if space or detail work drives the choice. For cabinet parts, furniture repairs, and repeat edge sanding, the narrow belt starts to feel limiting within the first project.
4 x 36 / 6 Inch
A 4 x 36 belt with a 6 inch disc is the standard home-shop format. Belts and PSA discs are easy to find, the footprint stays manageable, and motors around 4.3 to 4.5 amps handle everyday shaping when you use light pressure.
This size fits most DIY woodworking, small furniture parts, shop jigs, and repair work. It’s also the easiest size to keep stocked with mixed grits.
4 x 36 / 8 Inch
A 4 x 36 belt with an 8 inch disc gives the same common belt format with a larger disc table experience. The wider disc face helps square bigger parts and gives the abrasive more time before it loads up.
Choose this setup if you use the disc often. The larger disc costs more to replace, but the extra support reduces tipping and makes bevel sanding feel calmer.
Size Decision Table
| Size | Best User | Best Tasks | Pros | Cons | Abrasive Availability |
|---|---|---|---|---|---|
| 1 x 30 belt / 5 inch disc | Hobbyist, crafter, small bench user | Detail sanding, light shaping, small parts | Compact and easy to store | Limited support and lower stock removal | Good, but less universal than 4 x 36 |
| 4 x 36 belt / 6 inch disc | DIY woodworker and home shop owner | Edges, saw marks, corners, small miters | Balanced size and low consumable hassle | Disc can feel small on wider pieces | Excellent for belts and PSA discs |
| 4 x 36 belt / 8 inch disc | Frequent woodworker | Larger bevels, squaring, stronger disc work | More support and longer disc life | Bigger footprint and higher disc cost | Belts easy; discs cost more |
How to Choose the Right Sander
Choose a belt and disc sander by matching motor power, abrasive size, table quality, dust port fit, and base weight to your real tasks. Specs matter most when they solve a problem you actually face, such as bogging in hardwood or vibration on a light bench.
Motor Power
Common benchtop models use about 4.3 to 5.0 amps, with some higher-capacity units advertised around 3/4 HP. More power helps with hardwood, end grain, coarse grits, and wider contact patches.
Don’t compare amps and horsepower as perfect equals across brands. Drive design, belt tension, abrasive condition, and your hand pressure can make two similar ratings feel very different.
Belt Speed and RPM
Many benchtop combo sanders run in the rough range of 1,500–2,000 FPM belt speed, while discs often spin around 1,700–3,600 RPM. Faster speeds remove stock quickly, but heat builds fast on cherry, maple, acrylic, and metal edges.
Use manufacturer specs for exact comparisons. A slower machine with a fresh coarse belt can outperform a faster machine using a glazed, resin-packed abrasive.
Table and Miter Gauge
A tilting work table and miter gauge decide how accurately the disc side sands ends and bevels. Many tables tilt to 45 degrees, but the printed angle scale is usually a rough guide.
Check for table flex, lock strength, and miter gauge play. A loose gauge can turn a square end into a tiny wedge that only shows up during glue-up.
Belt Tracking Controls
The belt tracking knob keeps the sanding belt centered on the rollers. Good tracking feels predictable: a small knob turn moves the belt slowly instead of snapping it toward the edge.
A drifting belt wears its edges, rubs guards, and can climb off the roller. Always adjust tracking with small changes and let the belt settle before touching the knob again.
Dust Collection Ports
A dust collection port only works well when the hose fits tightly and the hood captures dust near the abrasive. Dual ports can help, but small elbows clog quickly when sanding MDF or resinous pine.
Plan for adapters before buying. If your shop vac hose hangs loose, suction drops and fine powder collects under the belt housing.
Base Weight
A cast iron base usually reduces bench vibration better than aluminum. Steel bases sit in the middle, while aluminum bases win when you need to lift the machine onto a shelf after use.
For permanent setups, bolt the sander down. For portable setups, place it on a rubber mat or clamp it to a heavy board so the machine doesn’t creep across the bench.
Abrasive Availability
Common abrasive sizes save time and money. 4 x 36 belts and 6 inch PSA discs are easy to stock in 60, 80, 120, and 220 grit.
Odd sizes can trap you into small packs or limited grits. Before buying the machine, search for the exact belt length, belt width, disc diameter, and adhesive type.
Consumable Costs
Consumables include belts, discs, adapters, cleaning sticks, filters, and sometimes replacement miter gauges. Coarse grits wear faster because they do harder work, while fine grits clog faster on paint, resin, and soft plastics.
Buy mixed abrasive packs at first, then restock the grits you use most. In many shops, 80 and 120 grit disappear first because they handle everyday edge cleanup.
Belt vs Disc: When to Use Each
Use the belt for shaping, edge smoothing, and faster stock removal; use the disc for squaring, bevels, and small controlled contact. The belt gives longer support, while the disc gives a fixed table reference.
Belt for Shaping
The belt side removes material fast because the abrasive runs across a longer surface. Use the platen area for flat edges and the roller area only when shaping curves that need a rounded contact point.
Keep the work moving. If you hold walnut or cherry still for two seconds too long, you’ll smell a sharp toasted-wood odor and see a brown burn stripe.
Belt for Long Edges
Long edges belong on the sanding belt because the belt supports more of the workpiece. Use light pressure and let the abrasive cut instead of forcing the board down.
A beginner mistake is tipping the board at the start or end of the stroke. To prevent rounded ends, start with the work fully supported, then move evenly across the platen.
Disc for Squaring
The disc side is best for squaring short ends because the work table gives a flat reference. Use a verified square instead of trusting the angle scale printed on the table bracket.
Place the work on the downward-moving side of the disc. That side pushes the part into the table, which reduces lifting and surprise kickback.
Disc for Bevels
For bevels, tilt the disc table and verify the angle with a bevel gauge or digital angle gauge. The miter gauge helps repeat the angle, but it won’t fix a table that isn’t locked firmly.
Make light passes on bevels. Heavy pressure flexes small parts, heats the abrasive, and can round the crisp edge you meant to preserve.
Mistakes to Avoid
- Pressing hard enough to slow the motor.
- Sanding on the upward-moving side of the disc.
- Using fine grit for heavy stock removal.
- Leaving the workpiece still until it burns.
- Trusting a loose miter gauge for square ends.
- Sanding tiny pieces without a safe holder or push block.
The professional workaround is simple: use fresh abrasive, light pressure, and a stable reference surface. Most accuracy problems start with dull grit or a table that shifted after setup.
Grits and Replacement Abrasives

Choose sanding grits by how much material you need to remove, not by habit. 40–60 grit shapes fast, 80–120 grit smooths everyday edges, and 150–220 grit prepares many wood parts for finish sanding.
Grit Selection Table
| Grit | Material Removal | Best Use | Risk | Example Material |
|---|---|---|---|---|
| 40 grit | Very aggressive | Rough shaping and heavy saw marks | Deep scratches and fast edge rounding | Construction lumber, rough hardwood blanks |
| 60 grit | Aggressive | Fast edge cleanup | Burning if pressure is high | Pine, oak, plywood edges |
| 80 grit | Medium | General sanding | Can still leave visible scratches | Poplar, maple, MDF jigs |
| 120 grit | Moderate | Intermediate smoothing | Clogs on resin and paint | Hardwood parts, repaired furniture |
| 150–220 grit | Light | Pre-finish sanding | Heat buildup on edges | Cabinet parts, small trim |
| 320+ grit | Fine | Polishing and specialty materials | Slow cutting and glazing | Plastic, resin, non-ferrous metal |
Aluminum Oxide
Aluminum oxide is the standard abrasive for wood belts and discs. It balances cost, cut speed, and availability, which makes it the first choice for most woodworking on a combination belt and disc sander.
Use it for pine, poplar, oak, plywood, MDF, and general edge shaping. Replace it when it feels slick, leaves burn marks, or needs extra pressure to cut.
Zirconia and Ceramic
Zirconia alumina and ceramic abrasives last longer under harder use, especially on metal and aggressive stock removal. They cost more, but they resist dulling better than basic aluminum oxide.
Use zirconia for light deburring and ceramic for heavier metal sanding tasks. Keep them separate from wood-only abrasives so metal grit and wood resin don’t contaminate each other.
Silicon Carbide
Silicon carbide works well on plastics, resin, non-ferrous metals, and fine finishing jobs. It cuts sharply, but it can wear faster on rough wood compared with aluminum oxide.
Use light pressure on acrylic and plastic. If the edge starts to smell hot or turn gummy, pause and let the material cool before continuing.
PSA vs Hook-and-Loop
PSA sanding discs use pressure-sensitive adhesive and stick directly to the disc plate. They run flat when installed on a clean surface, but old adhesive can leave bumps that cause vibration.
Hook-and-loop discs change faster, yet many bench disc sanders are built for PSA discs. Confirm the machine style before buying bulk abrasive packs.
Replacement Belt Packs
Replacement packs with mixed grits help you learn what your projects consume most. Store belts flat or hanging, and keep PSA discs sealed so dust doesn’t weaken the adhesive.
If you need broader grit selection guidance across tools, our sanding machine guide connects grit choice with machine type.
These replacement abrasive packs fit many 4 x 36 belt and 6 inch disc combo sanders.
All-in-One Sanding Set
- Includes belts and PSA discs for a ready-to-use supply
- multiple grits help with coarse sanding through fine finishing
- 4 x 36 inch belts suit many bench sanders
- 6 inch self-adhesive discs make swaps quick
- great for wood shaping, metal work, and polishing
Sanding Belt Variety Pack
- 22-piece set gives you useful sanding replacements
- 4 x 36 inch belts cover shaping and smoothing tasks
- 6 inch self-adhesive discs are quick to install
- multiple grits support rough sanding to finer finishing
- handy for bench combination sanders and woodworking projects
Safety, Setup, and Maintenance
A belt and disc sander is safer when the work is supported, the abrasive is tracked, dust is collected, and your hands stay clear of pinch points. Fine sanding dust can spread fast, and OSHA lists wood dust as a combustible and respiratory hazard in its wood dust guidance.
Eye and Dust Protection
Wear safety glasses or a face shield, hearing protection, and a dust mask or respirator suited to the dust you create. Sanding dust feels soft on the bench, but it can irritate your throat quickly when it floats in a warm shop.
Connect a shop vacuum or dust collector before long sanding sessions. Empty filters often, since fine dust can choke suction before the bin looks full.
Safe Disc Direction
Use the downward-moving side of the disc. This pushes the workpiece into the table, while the upward-moving side can lift the part and throw it from your hands.
The video below shows why table support and disc direction matter during real sanding setup.
Metal Spark Risk
Metal sanding can create hot sparks. Clean wood dust from the table, guards, and bench before sanding steel, and don’t send sparks into a dust collector that contains sawdust.
Use zirconia or ceramic abrasives for metal rather than a wood-worn belt. A dull wood belt heats metal quickly and can blue thin edges.
Small Workpieces
Small parts are risky because they place fingers close to the moving abrasive. Use a holder, clamp, miter gauge, or scrap backer when the part is too short to control safely.
A common mistake is sanding a tiny plug by hand on the disc. Stick the plug to a longer strip of double-sided tape or hold it in a small hand screw clamp instead.
Initial Setup
- Place the machine on a flat bench.
- Bolt or clamp the base if it vibrates.
- Install the correct belt and disc grit.
- Center the belt before sanding.
- Square the table to the disc or belt.
- Connect dust collection and check hose fit.
- Run the machine briefly and listen for rubbing.
Do this setup before real work. A loose belt or tilted table can ruin parts before you notice the problem.
Belt Tracking
Belt tracking keeps the belt centered on the rollers. Adjust the tracking knob in small movements, then wait for the belt to settle before touching it again.
If the belt rubs a guard, stop and reset it. Don’t sand while the belt edge frays, because the torn edge can catch and fail early.
Disc Replacement
For PSA disc replacement, remove the old disc, clean adhesive residue, and wipe the plate before applying the new abrasive. Any lump under the disc creates a rhythmic thump you can feel through the table.
Peel half the backing first, align the disc, press from the center outward, then remove the rest. This prevents trapped bubbles near the rim.
Table Calibration
Use a reliable square to set the table at 90 degrees. Treat the tilt scale as a starting point, not a final reference.
For repeat bevels, use a digital angle gauge or bevel gauge. Tighten the table lock, sand a test scrap, then measure the result before touching finished parts.
Troubleshooting and Tool Alternatives
Most belt and disc sander problems come from dull abrasives, poor belt tracking, too much pressure, weak dust flow, or a table that moved after setup. Fix the basic setup before blaming the motor.
Belt Drifts
A drifting belt usually points to tracking or tension. Reinstall the belt, check for debris on the rollers, and adjust the tracking knob slowly while the machine runs according to the manual.
If one belt tracks poorly and another tracks fine, the first belt may be stretched or poorly joined. Mark bad belts and discard them before they damage the machine.
Motor Bogs
A bogging motor often means too much pressure, grit that’s too fine, or a loaded abrasive. Switch to 40, 60, or 80 grit for stock removal and let the belt cut at full speed.
Take multiple passes instead of forcing one heavy pass. The sound should stay steady; a low growl means you’re asking too much from the motor.
Wood Burns
Wood burns when heat outruns cutting action. Common causes include dull grit, fine abrasive, high pressure, resin buildup, and holding the part still.
Use a coarser fresh belt, keep the piece moving, and clean resin from the abrasive. On cherry and maple, use especially light pressure because they show burn marks fast.
Dust Collection Fails
Weak dust collection usually comes from a port mismatch, clogged hose, packed filter, or dust hood that misses the sanding stream. Check suction at the port before blaming the vacuum.
A small cyclone separator helps keep fine dust out of the shop-vac filter. Clean the port after sanding MDF, since its powder packs into elbows like flour.
Table Not Square
A table that won’t stay square may have a loose lock, dirty pivot, inaccurate scale, or flexible bracket. Set it with a square, tighten hardware, and test on scrap.
If the bracket flexes under hand pressure, reduce pressure and support the work closer to the disc. Accuracy improves when you let the abrasive cut lightly.
Versus Orbital Sander
A belt and disc sander is better for edges and shaping; a random orbital sander is better for broad surface finishing. Use the combo machine before finish sanding, then use the orbital sander to remove scratch patterns on flat faces.
For handheld finishing choices, see our drum sander article and compare how each tool handles surface work.
Versus Spindle Sander
A spindle sander is better for inside curves and concave shapes. A belt and disc sander is better for flat edges, square ends, and bevels.
If your projects include curved chair parts, toy openings, or template interiors, compare options in our spindle sander guide.
Versus Bench Grinder
A bench grinder removes metal with grinding wheels, while a belt and disc sander uses coated abrasives. The sander can deburr light metal, but it shouldn’t replace a grinder for heavy metal removal.
Use the right tool for heat control. A light combo sander can overheat small metal parts quickly, especially with fine grit and heavy pressure.
| Problem | Likely Cause | Fix | Prevention |
|---|---|---|---|
| Belt drifts | Poor tracking, low tension, debris on rollers | Reset belt and adjust tracking slowly | Check tracking before each session |
| Motor bogs | Too much pressure or dull abrasive | Use lighter passes and coarser grit | Replace loaded belts early |
| Wood burns | Heat buildup and fine grit | Keep work moving and use fresh abrasive | Clean resin from belts and discs |
| Dust port clogs | MDF dust, resin, hose restriction | Clear port and clean filter | Use proper adapters and empty vac often |
| Table won’t stay square | Loose lock or flexing bracket | Reset with a square and tighten hardware | Verify before precision sanding |
| Disc adhesive fails | Dirty plate or old PSA | Clean plate and install fresh disc | Store PSA discs flat and sealed |
FAQs
What Is A Belt And Disc Sander Used For?
A belt and disc sander is used to shape, smooth, and refine wood, metal, and other materials. The belt works well for fast material removal, while the disc is better for edge sanding and fine adjustments. It is a handy tool for squaring corners, flattening surfaces, and cleaning up rough cuts.
Is A Belt And Disc Sander Worth It For Woodworking?
Yes, a belt and disc sander is worth it for many woodworking projects. It saves time on shaping and smoothing compared with hand sanding, especially for small shops and hobbyists. If you often make furniture parts, trim pieces, or sand lots of edges, it can be a very useful tool.
Can A Belt And Disc Sander Be Used On Metal?
Yes, a belt and disc sander can be used on metal if the machine and abrasive are rated for it. Use the proper belt or disc designed for metal and work slowly to avoid overheating the material. Always check the manufacturer’s instructions before sanding metal.
What Grit Should I Use On A Belt And Disc Sander?
Start with a coarse grit like 60 or 80 for fast material removal, then move to 120 or higher for smoother finishing. The best grit depends on the job and the material you are sanding. For most woodworking tasks, a small range of grits gives you the most control.
What Size Belt And Disc Sander Should I Buy?
The right size depends on the projects you plan to do and the space you have available. A 4×36 belt and 6-inch disc sander is a popular choice for home workshops because it is versatile and compact. If you work on larger pieces often, a bigger model may be a better fit.

