Attachment spec sheets list hydraulic cylinder specifications that determine whether an attachment will work with your machine — or won't. Bore, stroke, operating pressure, flow requirements: these numbers matter and they're not hard to understand once you know what you're looking at. This guide decodes each spec and explains what to check for attachment selection.
Every hydraulic attachment — a tilt bucket, a grapple, a breaker, a tiller, an auger drive — contains one or more hydraulic cylinders. Those cylinders are powered by your skid steer's hydraulic system. The cylinder and the machine have to be compatible in two critical ways: the cylinder must be able to handle the system pressure the machine produces, and the machine must supply the flow rate (GPM) the attachment needs to work properly.
Get these wrong and you're not just looking at poor performance. An attachment running on insufficient flow works slowly and generates excess heat. An attachment exposed to pressure beyond its rating is a failure point and a safety risk. Neither is acceptable.
Bore is the inside diameter of the cylinder barrel — the hole the piston travels through. It's measured in inches or millimetres. Bore diameter directly determines how much force the cylinder can generate at a given pressure.
Bigger bore = more force at the same pressure. A 3-inch bore cylinder at 3,000 PSI generates substantially more force than a 2-inch bore cylinder at the same pressure. This is why heavy-duty attachments — large grapples, demolition tools, high-capacity tilts — use larger bore cylinders.
You don't usually need to calculate this yourself — it's mainly useful for understanding why larger bore cylinders appear on higher-force applications. What matters practically is that you confirm the cylinder is rated for your system's operating pressure.
Stroke is how far the cylinder extends — the distance the piston rod travels from fully retracted to fully extended. Measured in inches. Stroke determines the attachment's range of motion, not its force capacity.
A tilt bucket with a 6-inch stroke tilts further than one with a 4-inch stroke. A dozer blade with a 10-inch stroke raises higher above grade than one with a 7-inch stroke. Whether a given stroke is adequate depends entirely on the application — but a short stroke in an application that needs a large range of motion means you'll be fighting the attachment's geometry constantly.
This is probably the most important spec to match between attachment and machine. Operating pressure is the hydraulic system pressure the cylinder is designed to work at, specified in PSI (or sometimes bar — 1 bar = 14.5 PSI).
Most modern skid steers operate at auxiliary hydraulic pressures between 2,800 and 3,600 PSI. The attachment's rated operating pressure must be at or above your machine's system pressure. Running a 2,500 PSI-rated cylinder on a 3,200 PSI machine will eventually damage or burst the cylinder.
Check your machine's specs, not just the attachment's. Your machine operator manual lists the auxiliary hydraulic system pressure. Confirm it. Don't assume. Different skid steer models from the same manufacturer often have different aux hydraulic pressures.
The piston rod is the steel shaft that extends from the cylinder. Rod diameter matters for buckling resistance under side load and compression, and for the retract-side force calculation (which is lower than extend-side force because the rod occupies some of the bore area).
For attachment selection, you mainly care about rod diameter if you're evaluating two cylinders for a custom or replacement application. On a standard attachment purchase, just confirm the overall cylinder is rated for your system.
Flow rate — measured in gallons per minute (GPM) — is how much hydraulic fluid your machine pumps to the attachment. This is separate from pressure. Flow determines how fast the attachment moves and cycles, and how quickly it can deliver power to a motor (in rotary attachments like augers, tillers, and mulchers).
Skid steers have two classes of auxiliary hydraulic output:
Running a high-flow attachment on a standard-flow machine doesn't just slow it down — the attachment may not develop enough power to work properly at all, and the system will overheat trying to make up the deficit. Our standard vs high-flow guide covers this in full detail.
Attachment spec sheets typically list either:
Match your machine's output to the attachment's requirement. If your machine's standard flow tops out at 22 GPM and the attachment requires 35 GPM minimum, you need either a high-flow machine or a different attachment.
Many attachments include an internal relief valve — a pressure safety valve set below the system maximum. This protects the attachment's cylinders from pressure spikes (momentary overpressure events that happen during impact loads, end-of-stroke impacts, or when an attachment hits an obstruction).
On spec sheets, look for "relief valve setting" or "max operating pressure." If this number is below your machine's system pressure, the relief valve will activate frequently during use — which is not necessarily a problem (it's there to protect the system) but does mean the attachment may not achieve its rated force at your machine's pressure level.
| What to Check | Where to Find It | What to Compare Against |
|---|---|---|
| Cylinder operating pressure rating | Attachment spec sheet | Your machine's aux hydraulic pressure |
| Flow requirement (GPM) | Attachment spec sheet | Your machine's aux flow output (std or high-flow) |
| Quick-attach plate type | Attachment spec sheet or photos | Your machine's coupler type (universal SSQA, Bob-Tach, etc.) |
| Hydraulic connector style | Attachment hose end spec | Your machine's aux port fitting style |
| Attachment weight | Spec sheet | Your machine's rated operating capacity |
Some cheaper attachments — particularly imports or private resales — don't include full specification sheets. This is a red flag. "Fits all standard machines" is not a specification. Before buying any hydraulic attachment without complete specs, ask the seller to provide cylinder manufacturer markings (often stamped on the barrel) and the system pressure rating. If they can't, walk away or buy with the expectation that you may need to replace cylinders.
For used attachments, check our used attachment inspection guide — hydraulic cylinder inspection points are covered there in detail.