It’s an essential part of your bike, but chances are you haven’t thought much about your seatpost.
Once you’ve bought your bike and set the correct saddle height, it’s just there.
But the seatpost plays an important role beyond saddle height. It’s a key component in defining your bike fit and can have a hand in improving the comfort and control of your machine.
As with most bike components, there are a huge number of different seatpost designs and other complexities to consider, including its diameter, length, material and more, if you’re looking to upgrade your bike.
Luckily, we’re here to help, so let’s dive in.
- What is a seatpost?
- Seatpost materials
- Seatpost clamps
- Seatpost diameters
- Seatpost length
- Seatpost head
- Seatpost setback
- Non-round seatposts
- Suspension seatposts
- Dropper seatposts
- What about seatmasts?
What is a seatpost?
Your seatpost does the seemingly simple job of connecting your saddle to your bike’s frame. It also provides a lot of adjustability, enabling you to set your saddle height, its forward and aft positioning, and its angle.
A seatpost is made up of a shaft, which is hollow and, for a standard seatpost, has a round cross-section, though the latest road bikes often have non-round posts.
At its top is a head, which attaches to the saddle to hold it in place.
At the bottom, the shaft inserts into the top of the bike’s seat tube and is held in place by a seatpost clamp.
Seatpost materials – aluminium vs carbon fibre
Seatposts are typically made of either aluminium or carbon fibre, although you can also find titanium seatposts.
Aluminium seatposts are usually cheaper, although they’re heavier, while carbon fibre seatposts are a more expensive but lighter option.
Carbon seatposts are usually found on more expensive road and gravel bikes. Lower-priced models will usually have an alloy seatpost.
On road bikes, seatpost compliance and vibration absorption are factors in improving the comfort of your bike. In general, a carbon seatpost will be more compliant than an alloy post.
That’s important on gravel bikes, too, but here you’ll also be aided by plumper tyres than a road bike.
In contrast, aluminium seatposts are standard on most mountain bikes, because the exposed seatpost length is usually greater and there’s more stress on the post. Weight is less of a concern, too, and you’ll have big mountain bike tyres and suspension to keep things comfortable.
However, most mountain bikes in the mid-range and above now come with a dropper post, which enables you to drop the saddle out of the way on technical terrain.
Titanium seatposts often compete with carbon when it comes to weight, and are comparable in price to a premium carbon post.
A titanium post is most likely to be fitted to a titanium bike, although even there carbon seatposts dominate.
Seatpost clamps – how a seatpost is held in place
The traditional seatpost clamp (sometimes referred to as a seatpost collar) is a metal ring around the top end of the bike’s seat tube that tightens using an Allen bolt to hold the seatpost in place.
While most mountain, gravel and hybrid bikes have a round seatpost clamp, many of the latest road bikes often have variants on this, using a hidden seatpost clamp design.
This is often accompanied by claims of improved aerodynamics – in conjunction with an aero-profiled seatpost – and, in some cases, improved comfort, because more of the seatpost is exposed above the clamp and able to flex.
The disadvantage of a hidden seatpost clamp is it can be more likely to allow the seatpost to slip down in the frame. Often, the clamp design is quite fragile and you can apply a limited amount of torque to it.
On that note, pay attention to the recommended torque setting – this should be printed on or near the seatpost clamp – and, as with all of the key bolts on your bike, use a torque wrench.
If you have a carbon fibre seatpost, you can use carbon paste to help increase grip against the inside wall of the seat tube, which should help remedy this.
It’s a good idea to grease an alloy seatpost in an alloy frame to make sure it doesn’t seize in place (if that has happened, read our guide to unseizing stuck bike parts).
Finally, some bikes may have a quick-release seatpost clamp, offering tool-free adjustment. This may be useful for shared or hire bikes, but it does mean a thief can relieve you of your seatpost and saddle in a flash.
Seatpost diameters – 27.2mm vs 30.9mm vs 31.6mm vs 34.9mm
Round seatposts come in several different diameters, to fit in different-sized seat tubes. If you’re changing your seatpost, make sure the post you’re replacing it with is the correct diameter.
27.2mm, 30.9mm and 31.6mm are the most common seatpost diameters, with 34.9mm also emerging as a popular size for mountain bikes.
The most common size on modern road bikes and gravel bikes is 27.2mm. These posts can be found on some MTBs too, although the size is confined mainly to a limited number of cross-country mountain bikes.
A narrower post will typically be lighter and can offer improved comfort, because it’s able to flex more easily than a stiffer, oversized post.
A 30.9mm seatpost is often found on mountain bikes, but not on road bikes.
A wider-diameter seatpost offers, in theory, improved durability over an equivalent seatpost in a narrower diameter.
Mountain bikes typically have a lower standover height than road bikes, leaving more of the post exposed, so a wider post is preferred to improve strength.
An older standard popular on road bikes, 31.6mm seatposts have mostly been superseded by 27.2mm-diameter posts. They’re still found on some road bikes and many mountain bikes though.
The longer seatpost length of mountain bikes means rigidity and robustness are important, whereas with the shorter seatposts on road bikes, compliance and ride comfort are greater priorities.
This has emerged as a popular seatpost diameter for modern mountain bikes.
The wider diameter is often preferred for dropper posts. There’s more space internally for moving parts to be made bigger and more robust, plus there’s the stiffness that comes with the wider tubes to prevent binding.
Seatpost diameter and frame compatibility
If you want to fit a thinner seatpost to your bike, you can buy shims that fit between the frame tubing and the seatpost. You can’t fit a wider seatpost than that your bike is designed for.
A shim should work fine with a standard seatpost clamp that attaches around the outside of the bike’s seat tube, but it might not work properly to hold your seatpost in place without it slipping if you’ve got a more complex clamp design.
Seatpost length ranges anywhere from around 75mm to more than 400mm, though most posts come in lengths between 300mm and 400mm.
Road and gravel bikes tend to have a longer seat tube than mountain bikes, so usually requirer a shorter post of around 300 to 350mm. Mountain bikes typically leave more of the seatpost exposed above the frame, so require a longer post.
Ultimately, the amount of seatpost exposed will be determined by the geometry and size of your bike, combined with your ideal saddle height.
Minimum seatpost insertion
Remove the seatpost from your bike and it’ll likely have a ‘minimum insertion’ line printed on it. As you might expect, this represents the minimum amount of the seatpost that must be inserted in the frame to maintain the post’s structural integrity.
If you cut your seatpost to reduce its length, this needs to be accounted for in regard to its minimum insertion.
The business end of the seatpost is its head, which has a clamp mechanism to attach it to the saddle rails.
It’s usually made of metal, even in a seatpost with a carbon shaft, although some carbon seatposts are one-piece and include a carbon head.
Every brand seems to have its own take on the saddle clamp design, which usually includes a bolt at the front of the head and another at the rear, although some have just one bolt.
Most saddles have round rails, whereas some have oval rails. You may need a seatpost with a clamp design that’s deeper to accommodate oval rails.
There are varying degrees of complexity in getting the clamp set up and adjusted properly, from slightly awkward to downright infuriating.
It’s the head and clamps that determine the saddle angle and enable you to slide the saddle back and forth to change its position on the bike. Getting this right can have a significant impact on the fit of your bike.
The head on mountain bike seatposts is usually in line with the shaft. In contrast, road bike seatpost heads are often displaced slightly behind the line of the shaft. This is called ‘setback’.
Setback can be anything from zero (an ‘in line’ seatpost) to 25mm, resulting in the saddle being positioned a little further behind an imaginary vertical line drawn from the centre of the bottom bracket.
In recent years, the usual extent of setback has been decreasing, as performance-minded road riders adopt a more time-trial like ride position that places them more over the bottom bracket, so you’ll often see zero-setback seatposts as an option.
However, UCI rules state that in sanctioned races the nose of the saddle must be set back by at least 5cm from the bottom bracket. That in turn has led to a proliferation of short-nosed saddles on road bikes, which, once again, enable riders to adopt a more aggressive position.
Some brands include a flippable head in their seatposts, enabling you to choose between two different levels of setback.
Road bikes are increasingly fitted with non-round seatposts. In fact, we’d go as far as saying it’s rare for the latest road bikes to have a round post.
Round shapes are aerodynamically inefficient, so aero bikes in particular typically have a non-round seatpost.
The first crop of aero bikes had seatposts and seat tubes with a full airfoil tail.
This tended to make them stiff, uncomfortable and often heavy, so modern aero bikes usually have a truncated Kammtail section to their seatposts, because this can improve comfort and reduce weight, while still having good aero properties.
Even road bikes that don’t major on aerodynamics often have non-round posts with a D-shaped cross-section. This is claimed to increase compliance and saddle comfort.
Another trend is to have quite large cut-outs in the rear of the seatpost to add extra compliance. The Merida Reacto, for example, has an elastomer section below the saddle that incorporates a rear light.
The bad news is that each seatpost design and its shape are proprietary to the brand, so you can’t fit any seatpost except the one designed for the bike. Needless to say, this pretty much rules out any aftermarket upgrade options.
If you’re really not satisfied with the comfort of your bike, a suspension seatpost may help.
There’s a range of different designs, which all add some extra movement at the saddle, with varying levels of mechanical complexity.
Often, a suspension seatpost will include features such as elastomers or springs, which can make it quite heavy.
The Canyon/Ergon VCLS seatpost, however, isn’t a lot heavier than a standard post, and uses a split-shaft design to offer suspension like a leaf spring.
A dropper seatpost enables you to lower your saddle to get it out of the way when descending, ensuring you can move your weight back more easily on steep, technical terrain.
A telescopic section of the seatpost can be moved up and down, and locked in position.
Most dropper posts enable you to lower your saddle by between 125mm and 170mm, while outliers start at 100mm and go as high as 210mm.
For a dropper post to work, there needs to be sufficient space in the frame’s seat tube. This is particularly an issue with smaller frame sizes, which often have shorter-travel dropper posts as a result.
Most dropper seatposts are operated using a lever on the handlebars, with a cable running to the post’s mechanism. The RockShox Reverb AXS, however, is operated wirelessly, with a battery on the seatpost to communicate with the shifter.
Almost all higher-spec mountain bikes now come with a dropper seatpost and they’re trickling down to budget mountain bikes as well, increasing the capability of more affordable machines.
Some gravel bikes now come specced with a gravel dropper post too, and even more have a spare port in the frame’s down tube to enable internal routing of a dropper cable. The UCI also allows the use of dropper posts in road races.
There’s a lot more on droppers in our buyer’s guide to the best dropper posts.
Another option you’ll find on some high-spec road bikes is a seatmast instead of a seatpost.
The seat tube of a frame designed for a seatmast protrudes a significant distance above the bike’s top tube, with the stubby seatmast clamped in place on this.
There are advantages in lower weight and potentially better aerodynamics with a seatmast. The disadvantages are that there may not be as much compliance as with a seatpost and that the seat tube needs to be cut to fit the rider.
There’s some adjustability built into the seatmast, but a lot less than with a conventional seatpost, limiting the options to pass on the bike to another rider. You can’t make a mistake when cutting down the seat tube either.