Drawer Slides

You’ve definitely used a drawer slide before - at least two of them are mounted to almost any drawer that you’ve opened. Teams use these drawer slides for linear motion, often stacking them using 3D printed spacers to achieve plenty of extension.

These slides are available from a number of different vendors, and come in many varieties, so choosing the right slide can seem overwhelming. Steel drawer slides are common, but can be hard to mount, as they aren’t made to be stacked. Aluminum drawer slides, such as the MiSUMI slides or Long Robotics slides are generally the best option for teams.

Igus is a brand known and trusted by robotics teams and manufacturers, but their parts are certainly not cheap, and can reach into the $100+ range.

If linear slide kits aren’t for you, we recommend the Long Robotics or MiSUMI slides for newer teams. MiSUMI slides interface better with REV products, while Long Robotics slides work well with extrusion based building systems or those that have 8mm pitch holes (such as goBILDA), are cheaper, and are of comparable quality.


Drawer slides should be mounted oriented vertically, like in an actual drawer. They can be mounted horizontally, but this is not recommended as they will sag much more.

Listed below are the recommended drawer slides.

Steel-rolled cabinet drawer slides

Available from your local hardware store, steel slides aren’t a bad option for FTC teams, as they are heavy-duty enough for most use cases. However, these kinds of slides are much heavier than other aluminum slide options. Furthermore, these slides are not designed to have bearings or a second slide attached to them, because they only contain mounting for a standard drawer. Thus, these slides require drilling holes in order to mount the necessary parts for linear extension.


  • Commonplace at any hardware store

  • Not very expensive


  • Heavier than other slide options (steel as opposed to aluminum)

  • Sliding is usually good but not great

  • Hard to adapt to building systems

  • 3D printed spacers may be required

MiSUMI Telescopic Slide Rails

The MiSUMI slide rails are preferred by many top-tier teams because they are sturdy, very reliable, and ridiculously smooth due to the ball bearing system. MiSUMI slides are able to withstand a significant amount of load with little flex.

They are also low-profile, and have a M3 mounting pattern, meaning they are easy to attach to REV components. However, MiSUMI slides have a slightly higher price point, and it is often difficult to attach one slide to the next. An easy solution is to attach the end of one slide piece to REV extrusion, and do the same with the next slide. Then attach the REV pulley bearing on the top of the extrusion piece for the string to run through.

To save space, some teams have 3D printed an insert that goes between each slide instead of using the 15mm extrusion piece. In order to attach the slides to anything, teams will need to purchase countersunk M3 screws from McMaster-Carr. For attaching to REV extrusion, buy 6mm M3 screws with the M3 nut (not locknut) to insert inside the extrusion. As a tip, try to protect chips or sawdust from falling into the slides, as the sliding will have a noticeable difference.

MiSUMI sells two different types of slides: SAR2 and SAR3. The SAR2 is a two-piece slide, while the the SAR3 is a three-stage slide (has intermediate slider to increase the extension of the slide). Teams have used both successfully, and there isn’t neither option is clearly superior.

Teams using SAR3 slides will generally need to buy low profile M3 jam nuts from McMaster-Carr to connect the slides together. These nuts fit inside the slides with a tiny bit of clearance when tightened.

A 3 stage lift using SAR2 slides and a 2 stage lift using SAR3 slides

Left: cross section of a 3 stage lift using 3D printed inserts (blue) and SAR2 slides; right: cross section of a 2 stage lift using a 3D printed insert and SAR3 slides. The left approach is also used for Long Robotics slides (discussed below).

Rail length Options:

  • 200 mm, part number SAR220 (SAR2) or SAR320 (SAR3)

  • 300 mm, part number SAR230 (SAR2) or SAR330 (SAR3)

  • 400 mm, part number SAR240 (SAR2) or SAR340 (SAR3)


  • Best slide smoothness due to ball bearings

  • Very little slide flex, robust build quality

  • Can handle relatively heavy load use cases (within reason)

  • Compatible with REV 15mm extrusion system


  • Not cheap

  • Tricky to adapt if not using REV

  • 3D printed spacers may be required

  • Steel ball bearings wear into the aluminum rails over time, introducing play

Long Robotics Slides

The Long Robotics slides are also used by top-tier teams because they are sturdy, reliable, and almost as smooth as MiSUMI slides due to the ball bearing system.

They are low profile, and utilize M4 mounting bolts. They even can mount directly to goBILDA channel. They are very comparable to the SAR2 series of MiSUMI slides, and are significantly cheaper.

The manufacturer website has CAD files for 3D printed inserts that go between the slides, which V-bearings are mounted to. V-bearings are available from Long Robotics. To attach slides, one will need to purchase countersunk M4 screws, which are also available from Long Robotics.

These are available in both a 300 mm rail length option and 400 mm rail length option.


  • Very good slide smoothness due to ball bearings

  • Can handle relatively heavy load (within reason)

  • Compatible with goBILDA channel

  • Cheaper than MiSUMI slides for comparable performance


  • 3D Printed spacers are almost required; while other solutions exist, 3D Printed spacers are the simplest and lowest-risk

  • Can be difficult to mount to kit systems which aren’t extrusion based or don’t have holes spaced at 8 mm apart

  • Steel ball bearings wear into the aluminum rails over time, introducing play

Igus Slides

Igus slides used to be a popular option among top teams for linear extension back in the earlier days of FTC. However, with the arrival of MiSUMI slides, they have decreased in popularity due to their tendency to bind. However, if your team is looking for a high-load or special use case, by all means explore this option.

7236's Rover Ruckus robot with its slides extended

7236 Recharged Green, Rover Ruckus, Misumi SAR3

6929's Rover Ruckus robot with its slides extended

6929 Data Force, Rover Ruckus, Misumi SAR3

5143's Skystone robot with its lift fully extended

5143 Xcentrics, Skystone, Misumi SAR2