Bicycle suspension - AbsoluteAstronomy.com

A bicycle suspension is the system or systems used to suspend the rider and all or part of the bicycle in order to protect them from the roughness of the terrain over which they travel. Bicycle suspensions are used primarily on mountain bike

Mountain bike

A mountain bike or mountain bicycle is a bicycle created for off-road cycling. This activity includes traversing of rocks and washouts, and steep declines,...

s, but are also common on hybrid bicycle

Hybrid bicycle

A hybrid bicycle is a bicycle designed for general-purpose utility and commuting on a wide variety of surfaces, including paved and unpaved roads, paths and trails...

s, and can even be found on some road bicycle

Road bicycle

The term road bicycle is used to describe bicycles built for traveling at speed on paved roads. Some sources use the term to mean racing bicycle...

s.

Bicycle suspension can be implemented in a variety of ways:

Suspension front fork
Bicycle fork
A bicycle fork is the portion of a bicycle that holds the front wheel and allows the rider to steer and balance the bicycle. A fork consists of two fork ends which hold the front wheel axle, two blades which join at a fork crown, and a steerer or steering tube to which the handlebars attach ...
Suspension stem
Stem (bicycle part)
The stem is the component on a bicycle that connects the handlebars to the steerer tube of the bicycle fork. Sometimes called a goose neck, a stem's design belongs to either a quill or threadless system, and each system is compatible with respective headset and fork designs:-Quill vs...

(although these have fallen out of favor)
Suspension seatpost
Seatpost
A bicycle seatpost, seatpin, saddlepole, saddle pillar, or saddle pin is a tube that extends upwards from the bicycle frame to the saddle. The amount that it extends out of the frame can usually be adjusted, and there is usually a mark that indicates the minimum insertion...
Rear suspension
Suspension hub

or any combination of the above. Bicycles with suspension front forks and rear suspensions are referred to as full suspension bikes. Additionally, suspension mechanisms can be incorporated in the seat or saddle, or the hubs.

Besides providing obvious comfort to the rider, suspensions improve both safety and efficiency by keeping one or both wheels in contact with the ground and allowing the rider's body mass to move over the ground in a flatter trajectory.

Front suspension

Front suspension is often implemented with a set of shock absorber

Shock absorber

A shock absorber is a mechanical device designed to smooth out or damp shock impulse, and dissipate kinetic energy. It is a type of dashpot.-Nomenclature:...

s in the front fork. The suspension travel and handling characteristics vary depending on the type of mountain biking the fork is designed for. For instance, manufacturers produce different forks for cross-country (XC), downhill (DH), and freeride riding.

Suspension fork design has advanced in recent years with suspension forks becoming increasingly sophisticated. The amount of travel available has typically increased. When suspension forks were introduced, 80–100 mm of travel was deemed sufficient for a downhill mountain bike. Typically this amount of travel is now more normal for cross-country disciplines. Downhill forks can now offer in the region of 170 to 203 mm of travel for handling the most extreme terrain.

Other advances in design include adjustable travel, allowing riders to adapt the fork's travel to the specific terrain profile (e.g. less travel for uphill sections, more travel for downhill sections). Advanced designs also often feature the ability to lock out the fork to completely eliminate or drastically reduce the fork's travel for more efficient riding over smooth sections of terrain. This lockout can sometime be activated remotely by a cable and lever on the handlebars.

The shock absorber usually consists of two parts: a spring and a damper or dashpot

Dashpot

A dashpot is a mechanical device, a damper which resists motion via viscous friction. The resulting force is proportional to the velocity, but acts in the opposite direction, slowing the motion and absorbing energy. It is commonly used in conjunction with a spring...

. The spring may be implemented with a steel or titanium coil, an elastomer, or even compressed air. The choice of spring material has a fundamental effect on the characteristics of the fork as a whole. Coil spring forks are often heavier than designs which use compressed air springs, however they are more easily designed to keep a linear spring rate throughout their travel. Substituting titanium coils in place of steel coils in a design can decrease the weight of the design but leads to an increase in expense.

Air springs work by using the characteristic of compressed air to resist further compression. As the "spring" is provided by the compressed air rather than a coil of metal they can often be made lighter; this makes their use more common in cross country designs. Another advantage of this type of fork design is that the spring rate can easily be adjusted by adjusting the pressure of the air in the spring. This allows a fork to be effectively tuned to a rider's weight. To achieve this in a coil sprung fork the spring constant of the coil would need to be changed. One disadvantage of this design is the difficulty in achieving a linear spring rate throughout the fork's action. As the fork compresses, the air held inside the air spring also compresses; towards the end of the fork's travel, further compression of the fork requires ever increasing compression of the compressed air with the spring. This results in an increase in spring rate (stiffness). Increasing the volume of the air inside the spring can reduce this effect but the volume of the spring is ultimately limited by the need to be contained within the dimension of the fork leg. The use of dual chambers within the air chamber system has allowed a more linear feel to air suspension, this is achieved by having a 'reserve' chamber that is activated when the main chamber reaches a certain amount of compression; once achieved a valve opens and effectively makes the chamber larger. By linking the two, this reduces the force needed to compress the air in the chamber and reduces the exponential spring rate feel traditionally experienced with air systems when approaching the end of the travel (movement).

A damper is usually implemented by forcing oil to pass through one or more small openings or shim stacks. On some models, the spring, the damper, or both may be adjusted for rider weight, riding style, terrain, or any combination of these or other factors. The two components may be separated with the spring mechanism in one leg and the damper in the other. Without a damper unit, the suspension system would rebound excesively and control would be lessened.

Some manufacturers, Cannondale for example, have tried other variations including a single shock built into the steerer tube above the crown (also called a "HeadShok"), and a fork with just a single leg (also called a Lefty). Both of these systems claim to offer greater stiffness and better feel, with lighter weight - by having only one leg, and using Needle Bearings instead of bushings, as well as special forging techniques. Others, namely Proflex (Girvin), Whyte and BMW, have made bikes that utilize suspension forks that employ linkages to provide the mechanical action instead of relying upon telescopic fork legs.

To prevent damage to the suspension mechanism, gaiters

Gaiter (vehicle)

On a vehicle, a gaiter or boot refers to a protective flexible sleeve covering a moving part, intended to keep the part clean.-On motorcycles and bicycles:...

have been used to cover the spring cylinder (stanchions), however, it was quickly realised that these acted as a trap for grit and actually wore down the stanchions quicker.

Rear suspension

Perhaps because front suspension has been easier to implement and more readily adopted, it is often assumed, and rear suspension is sometimes synonymous with full suspension.

Suspension Categories

No Suspension, also called a Rigid, is a mountain bike with no suspension.

Hardtail, a mountain bikes with a front suspension but no rear suspension.

Full suspension mountain bike technology has made great advances since first appearing in the early 1990s. Early full suspension frames were heavy and tended to bounce up and down while a rider pedaled. This movement was called pedal bob, kickback, or monkey motion and took power out of a rider's pedal stoke — especially during climbs up steep hills. Input from hard braking efforts (known as brake jack) also negatively affected early full suspension designs. When a rider hit the brakes, these early designs lost some of their ability to absorb bumps — and this happened in situations where the rear suspension was needed most.

The problems of pedal bob and brake jack began to be solved in the early 1990s. One of the first successful full suspension bikes was designed by Mert Lawwill, a former motorcycle champion. His bike, the Gary Fisher RS-1, was released in 1990. It adapted the A-arm suspension design

Control arm

thumb|right|300px|Double Wishbone SuspensionIn automotive suspension, an automobile's control arm or wishbone is a nearly flat and roughly triangular suspension member , that pivots in two places. The broad end of the triangle attaches at the frame and pivots on a bushing...

from sports car racing, and was the first four-bar linkage in mountain biking. This design solved the twin problems of unwanted braking and pedaling input to the rear wheel, but the design wasn't flawless. Problems remained with suspension action under acceleration, and the RS-1 couldn't use traditional cantilever brakes. A lightweight, powerful disc brake wasn't developed until the mid 1990s, and the disc brake used on the RS-1 was its downfall.

Horst Leitner began working on the problem of chain torque and its effect on suspension in the mid 1970s with motorcycles. In 1985 Leitner built a prototype mountain bike incorporating what became known later as the "Horst link". Leitner formed a mountain bike and research company, AMP research, that began building full-suspension mountain bikes. In 1990, AMP introduced the Horst link as a feature of a fully independent linkage rear suspension for mountain bikes. The AMP B-3 and B-4 XC full-suspension bikes featured active Horst link/Macpherson strut

MacPherson strut

The MacPherson strut is a type of car suspension system which uses the axis of a telescopic damper as the upper steering pivot. It is widely used in modern vehicles and named after Earle S. MacPherson, who developed the design.-History:...

rear suspensions and optional disc brakes. A later model, the B-5, was equipped with both the Horst link and a four-bar active link suspension featuring up to 125 mm (5 inches) of travel on a bicycle weighing around 10.5 kg (23 pounds). For 10 years AMP Research manufactured their full-suspension bikes in small quantities in Laguna Beach, California

Laguna Beach, California

Laguna Beach is a seaside resort city and artist community located in southern Orange County, California, United States, approximately southwest of the county seat of Santa Ana...

, including the manufacture of their own cable-actuated-hydraulic disc brakes, hubs, shocks and front suspension forks.

Soft tail

The Soft tail (also Softail) relies on the flexing of the rear triangle and a rear shock or elastomer placed in line with the seat stays. Soft tails are a variation of the original Amp Research Mac-Strut design (technically a 3 bar suspension design). Soft tails have no moving parts

Moving parts

The moving parts of a machine are those parts of it that move. Machines comprise both moving and fixed parts. The moving parts have controlled and constrained motions....

, besides the shock/elastomer, making it extremely simple. It maintains pedaling efficiency and power delivery because of the solid chainstays. They tend to be extremely light compared to other rear suspension types. Soft tails are out of favor now because of the limited rear axle travel of these designs - typically around 1 inch. Some examples include the KHS Team Soft Tail, Trek STP and the Moots YBB. The Cannondale Scalpel is an exception with 4 inches of travel.

Single pivot

The Single pivot is the simplest type of rear suspension. It simply consists of a pivot near the bottom bracket and a single swingarm to the rear axle. The rear axle will always rotate in a part-circle around the pivot point. Some implementations use linkages to attach the rear triangle to the rear shock for a progressive spring rate. Other implementations directly attach the rear triangle to the rear shock for a more linear rate. Santa Cruz's Superlight is such an example. The main benefit of this design is its simplicity. There are few moving parts, relatively easy to design and has good small bump compliance. Challenges with this design are brake jacking, and chain growth.

Manufacturers that use a single pivot design are Trek, GT, Commencal, K2, Morewood, Transition, Orange, Cannondale, Mountain Cycle, Santa Cruz, Haro, small boutique frame builders such as bcd and, due to its simplicity, many inexpensive department store bikes.

"Faux bar"

This is kind of monopivot suspension with additional pivot on the seat stay (above the drop out). The "faux-bar" suspension utilizes several linkage points just to activate the shock. Having the pivot in front of the drop out (i.e. on the chain stay, where it is called Horst link) allows the linkage components to affect the path of the rear axle, thereby allowing for a more complex arc of the axle path. However, because of patent problems with Horst link, some manufacturers choose this visually similar design - thus popular name "faux-bar". One manufacturer well known for their long-time use of the "faux-bar" suspension is Kona, who incorporate the design on their entire line-up, along with other manufacturers such as Infiza and Icon.

Four-bar

A Horst link suspension has one pivot behind the bottom bracket, with one pivot mounted at each of the chain stays, in front of the rear wheel drop-out (this pivot being the venerated "Horst link"http://www.azfreeride.com/files/news_images/nicolai_ion/ion.jpg ), and one at the top of the leveraged shock linkage that connects to the seat stay. Some examples of Horst link four-bar designs include the now-discontinued AMP B-5, the Specialized FSR and related bikes, Ellsworth, KHS, Titus, and Merida.

The Horst Link patent system proved popular since its debut, becoming a standard for rear suspension designs using an 'active' model. Specialized

Specialized Bicycle Components

Specialized Bicycle Components, more commonly known simply as Specialized, is a major American brand of bicycles and related products. It was founded in 1974 by Mike Sinyard and is based in Morgan Hill, California-History:...

bought several of Leitner's patents in May 1998, and other manufacturers now license the Horst link design from Specialized for the use of the 'Horst link' or FSR suspension patent. It is by companies such as Norco, Ellsworth, Chumba, KHS, and Fuji. Specialized worked with Leitner Technologies to develop a heavier-duty version of the four-bar/Horst link suspension which was marketed as the Specialized FSR (Future Shock Rear). This provides a wheel path during suspension movement that helps prevent the suspension preload or unload (squatting and locking) during acceleration and braking. Because the FSR patent design avoids a wheel path that either squats or "locks", it is generally regarded as superior to less active systems. The FSR patent system uses a wheel path that attempts to position suspension compression between a preloaded and an unloaded condition throughout most of its travel.

In 2003 Specialized introduced the Brain, an external inertia valve designed to effectively eliminate pedal bob. The system utilizes a brass weight inside a cylinder situated atop the non-drive-side chainstay, near the rear dropout, and connected to the shock directly or through a hose. The weight closes the shock valving and deactivates the rear shock at rest. Upward force from rough terrain displaces the weight, opening the valve and engaging the suspension. In the original Brain mechanism, when the terrain evens out, the weight returns to its original position through a return spring, and deactivates the shock again. The position of the weight near the rear axle is designed to prevent downward pedaling force from affecting the mechanism while optimizing response from terrain. A newer version of the Brain was developed that utilizes the rebound hydraulic fluid flow to return the weight to its rest position instead of relying on a return spring. This was developed to address a noticeable delay in the shock activation/deactivation.

Unified rear triangle

The "Unified rear triangle" or "URT" for short, keeps the bottom bracket and rear axle directly connected at all times. The pivot is placed between the rear triangle and the front triangle so that the rear axle and bottom bracket move as one piece, and the saddle and handlebars move as another piece. This simple design uses only one pivot, which keeps down the number of moving parts. It can be easily modified into a single-speed, and has the benefit of zero chain growth and consistent front shifting. On the other hand, when the URT rider shifts any weight from the seat to the pedals, he or she is essentially standing on one end of the swingarm, resulting in an increase in unsprung weight which varies according to the length of the swing-arm and distance between the bottom bracket and the pivot, and as a result the suspensions effectiveness is reduced to some extent. During braking, riders naturally brace themselves on the pedals, and combined with brake dive leads to more severe pitching, sometimes called "stinkbugging". Because of lockout and pitching, along with persistent suspension bob in low-pivot URTs, and a constantly changing saddle-to-pedal distance, the URT design has fallen out of favor in recent years.

Examples of bike with this kind of suspension include the Castellano Zorro, Catamount MFS, Ibis Szazbo, Klein

Gary Klein

Gary Klein is an inventor, bicycle designer and innovator of the oversized tube aluminum bicycle, now a fixture in the cycling market. He first developed the concept in 1973 as part of the Independent Activities Period aluminum bicycle project at MIT, where he was an engineering student and bicycle...

Mantra, Schwinn S-10, Trek Y, and Voodoo Canzo.

Virtual Pivot Point

The Virtual Pivot Point or VPP, is a linkage designed bike frame that is built to activate the suspension differently depending on what inputs the suspension has received. The "Virtual Pivot Point" system owned by Santa Cruz Bicycles, Inc is protected by four US patents, three of which were originally issued to Outland Bicycles. The four patents cover a specific linkage configurations that are designed to aid the pedaling performance of a rear suspension bike without negatively affecting the overall bump absorption capabilities. The Santa Cruz Blur and V-10 models introduced in 2001 popularized "dual short link" type suspension systems, but have the unique characteristic of having links that rotate in opposite directions. VPP suspension is also licensed to Intense Cycles.

DW-link

Dave Weagle's dw-link suspension is claimed by many cycling media and user reviews at consumer sites like MTBR.com to be the pinnacle of cycling suspension performance today. The dw-link design is protected by patents in the USA and Europe, with patent coverage in more countries than any other bicycle suspension in existence today. The dw-link is licensed to Ibis

Ibis (bicycles)

Ibis Bicycles is a mountain bike manufacturer located in northern California. It currently produces the popular Mojo mountain bike frame among other models. Ibis products are distributed in 33 countries.-History:...

, Independent Fabrication

Independent Fabrication

Independent Fabrication is a bicycle company located in Newmarket, New Hampshire, USA. It is often mistakenly referred to as Independent Fabrications. IF fabricates bicycle frames from steel, titanium and carbon fiber. Independent Fabrication has twice won the Bicycling Magazine "Dream Bike of the...

, Turner Suspension Bicycles

Turner Suspension Bicycles

Turner Suspension Bicycles, Inc is an American bicycle frame manufacturer, based in Murrieta, California, specializing in full suspension mountain bikes. Turner Bikes was founded in 1994 by David Turner, a former professional mountain bike rider who had ridden for amongst others, the Marin and...

, and Pivot Cycles.

Split pivot

DW-Link inventor David Weagle applied for patents on a concentric rear axle pivot rear suspension system called Split Pivot in 2006. The Split Pivot design was awarded it's first patent in the USA on May 18, 2010, US Patent 7,717,212. The Split Pivot suspension is also described in patent applications in the USA (US2008/006772 A1 and US 2008/00738 A1) and Europe (WO2008/027277 A2).

The Split Pivot System was designed to allow the separation of braking and acceleration forces in a bicycle suspension. As with Dave's dw-link design, the Split Pivot design has been licensed within the bicycle industry, with licensing companies releasing new models in 2010 and beyond. In June 2010, speculation that Cycles Devinci

Cycles Devinci

Cycles Devinci is a Canadian bicycle manufacturer established in Chicoutimi, Quebec in 1987. In addition to a full line of road, mountain and hybrid bicycles, it also manufactures the Bixi bicycle used in bicycle sharing schemes in cities such as Montreal and Toronto. Devinci supplies a similar...

from QC, Canada would be a Split Pivot partner was confirmed on the cycling news site pinkbike.com.

After Mr. Weagle's patent applications were filed, Trek Bicycle Corporation

Trek Bicycle Corporation

Trek Bicycle Corporation is a major bicycle and cycling product manufacturer and distributor under brand names Trek, Gary Fisher, Bontrager, Klein and until recently, LeMond Racing Cycles...

released a version of the Split Pivot design called active braking pivot (ABP) in early 2007. In identical fashion to the Split Pivot design, the ABP system uses a rear pivot concentric to the rear axle. Trek's design allowed their new full suspension system to look very similar to previous models, but dramatically improved their ride quality. ABP reduces brake feedback that is typically felt by the rider as suspension stiffening. This allows the suspension to remain active while braking — hence the term, active braking pivot.

Split Pivot patent applications predate all patent applications filed by Trek.

Trek also introduced a full floater system to go along with the ABP. The full floater system mounts the rear shock to two moving points in the suspension (rocker link and an extension of the chainstay). Other systems mount the shock to one end on the swing-arm, and the other to a fixed mount on the frame. This means as one part of the suspension compresses the shock, the other end of the shock moves as well. This allows Trek engineers more freedom to more accurately and precisely tune the system's leverage ratio. This functionality is also described in David Weagle's Split Pivot patent applications.

Independent Drivetrain

The Independent Drivetrain (AKA IDrive) Pat # 6,099,010 / 6,073,950, was the 4th commercialized suspension design developed by pioneering MTB suspension designer Jim Busby Jr. The independent drivetrain system was a direct result of the limitations encountered with the GT LTS (links tuned suspension) 4 bar linkage design used by GT Bicycles from 1993 to 1998. The defining feature of Independent Drivetrain is the isolation of the bottom bracket (crank) from the front or rear triangle. This isolation allows the BB to move in such a manner as to neutralize the unwanted characteristics of chain growth at the pedal. Some may call this a "modified URT" but in reality it is a highly reconfigured 4 bar if examined theoretically. By using this isolated BB construction, pedal forces do not induce undesired suspension compression or extension nor does suspension activity produce pedal actuation through chain growth.

Monolink

The "Monolink" made by Maverick Bikes, is a variation of a MacPherson strut

MacPherson strut

. It uses three pivot points and the sliding action of the shock to provide the fourth degree of freedom. Monolink is unique in placing the bottom bracket on a floating linkage between the front and rear triangle. While this increases unsprung weight and reduces cushioning on the feet, it also minimizes chain growth, allowing for more efficient pedaling. It was designed by Paul Turner. It is a licensed variant of the Independent Drivetrain suspension system Pat # 6,099,010 / 6,073,950. The monolink design varies from the Independent Drivetrain original design in that it uses a shock body that is integrated into the rear triangle, and that the saddle to bottom bracket distance changes as the suspension is compressed, although not as large as a URT design. The suspension is more active when in the saddle, as pressure on the cranks actively works against the suspension. However, because of this property, there is less bob in out of the saddle sprints. The monolink design is also unique in having a rearward axle path, which is similar to the angle of attack of the front suspension. Examples are the Maverick ML7/5, ML8, Klein Palomino, and Seven Duo.

Equilink

The "Equilink" suspension system was developed by Felt Bicycles for their full suspension line. The system is a "Stephenson-style six-bar" suspension system: the Equilink ties the lower link (between the rear triangle and main frame) to the upper rockers. Felt contends that this system "equalizes" movement of the suspension in response to chain forces by linking the motion of the upper and lower linkages. Some, however, argue it works on the same principle of the dw-link; that is it creates a dropping rate of chain growth as it moves through its travel.

Saddle suspension

Suspension may be added at the saddle either with a suspension saddle or a suspension seatpost.

This style of suspension is the oldest, cheapest, and simplest, but it is also the least effective as all of the bicycle's weight is unsprung weight.

Suspension hub

Suspension may be provided in the hub of a bicycle wheel. One manufacturer offers 12 mm to 24 mm of travel.

Terminology

Several terms are commonly used to describe different aspects of a bicycle suspension.

Travel

Travel refers to how much movement a suspension mechanism allows. It usually measures how much the wheel axle moves.

Preload

Preload refers to the force applied to spring component before external loads, such as rider weight, are applied. More preload makes the suspension sag less and less preload makes the suspension sag more. Adjusting preload affects the ride height of the suspension.

Rebound

Rebound refers to the rate at which the suspension component returns to its original configuration after absorbing a shock. The term also generally refers to rebound damping or rebound damping adjustments on shocks, which vary the rebound speed. More rebound damping will cause the shock to return at a slower rate.

Sag

Sag refers to how much a suspension moves under just the static load of the rider. Sag is often used as one parameter when tuning a suspension for a rider. Spring preload is adjusted until the desired amount of sag is measured.

Lockout

Lockout refers to a mechanism to disable a suspension mechanism to render it substantially rigid. This may be desirable during climbing or sprinting to prevent the suspension from absorbing power applied by the rider. Some lockout mechanisms also feature a "blow off" system that deactivates the lockout when an appropriate force is applied to help prevent damage to the shock and rider injury under high unexpected loads.

Bob and squat

Bob and squat refer to how a suspension, usually rear, responds to rider pedalling. Squat usually refers to how the rear end sinks under acceleration, and bob refers to repeated squat and rebound with each pedal stroke. Both are undesirable characteristics as they rob power from pedalling. Many suspension systems incorporate anti-bob, anti-squat, or "platform" damping to help eliminate bob.

Pedal feedback

Pedal feedback describes torque applied to the crankset

Crankset

The crankset or chainset , is the component of a bicycle drivetrain that converts the reciprocating motion of the rider's legs into rotational motion used to drive the chain, which in turn drives the rear wheel...

by the chain

Bicycle chain

A bicycle chain is a roller chain that transfers power from the pedals to the drive-wheel of a bicycle, thus propelling it. Most bicycle chains are made from plain carbon or alloy steel, but some are nickel-plated to prevent rust, or simply for aesthetics. Nickel also confers a measure of...

caused by motion of the rear axle relative to the bottom bracket

Bottom bracket

The bottom bracket on a bicycle connects the crankset to the bicycle and allows the crankset to rotate freely. It contains a spindle that the crankset attaches to, and the bearings that allow the spindle and cranks to rotate. The chainrings and pedals attach to the cranks...

. Pedal feedback is caused by an increase in the distance between the chainring and rear cog, and it can be felt as a torque on the crankset opposite to forward pedalling.

Compression damping

Compression damping refers to systems that slow the rate of compression in a front fork shock or rear shock. Compression damping is usually accomplished by forcing a hydraulic fluid (such as oil) through a valve when the shock becomes loaded. The amount of damping is determined by the resistance through the valve, a higher amount of damping resulting from greater resistance in the valve. Many shocks have compression damping adjustments which vary the resistance in the valve. Often, lockouts function by allowing no compression.

Unsprung mass

Unsprung mass is the mass of the portions of bicycles that is not supported by the suspension systems. At one extreme are road bicycles with no suspension in the frames, very little in the tires

Bicycle tire

A bicycle tire is a tire that fits on the wheel of a bicycle, unicycle, tricycle, quadracycle, bicycle trailer, or trailer bike. They may also be used on wheelchairs and handcycles, especially for racing...

, and none in the saddles. By raising themselves off their saddles, riders may provide suspension with their knees, making their mass be sprung mass, but all of the mass of the bicycles remains unsprung mass. At the other extreme are full suspension mountain bikes. With front and rear suspensions the only parts unsuspended are the wheels and small parts of the front forks and rear chain-stays. Even then, as mountain bikes have large low-pressure tires which allow much more travel than small high-pressure road tires, the wheels are sprung to some extent as well.

In general, bikes are so light compared to their riders that travel is a much bigger motivator than unsprung mass in determining where to put the suspension and how much to use. The exception to this is that on recumbent and tandem bicycles where the riders are either unable to lift themself out of their seat or unable to see in advance when that will be needed, the riders' mass can no longer be expected to be supported by their knees over road irregularities. These bicycles generally have some sort of suspension system to reduce unsprung mass.

Mountain bikes

Many newer mountain bike

Mountain bike

A mountain bike or mountain bicycle is a bicycle created for off-road cycling. This activity includes traversing of rocks and washouts, and steep declines,...

s have a full suspension design. In the past, mountain bikes had a rigid frame and a rigid fork. In the early 1990s, mountain bikes started to have front suspension forks. This made riding on rough terrain easier on a rider's arms. The first suspension forks had about 1½ to 2 inches (38 to 50 mm) of suspension travel. Soon after, some frame designers came out with a full suspension frame which gave riders a smoother ride throughout the ride.

Newer suspension frame and fork designs have reduced weight, increased amount of suspension travel, and improved feel. Many lock out the rear suspension while the rider is pedaling hard or climbing, in order to improve pedaling efficiency. Most suspension frames and forks have about 4-6 inches (100-150 mm) of suspension travel. More aggressive suspension frames and forks made for downhill racing and freeriding have as much as 8 or 9 inches (200 or 230 mm) of suspension travel.

Many riders still prefer to ride a hardtail frame, and almost all mountain bicycle riders use a suspension fork. Well-known suspension fork manufacturers include Manitou, Marzocchi, Fox Racing Shox, Rock Shox, and (to a lesser extent) Suntour, RST, Magura, White Brothers, DT Swiss and Maverick. Some Cycle manufacturers (notably Cannondale and Specialized) also make their own suspension systems to fully complement and integrate the bike set-up.

Road bikes

Although much less common, some road bicycle

Road bicycle

The term road bicycle is used to describe bicycles built for traveling at speed on paved roads. Some sources use the term to mean racing bicycle...

s do incorporate suspensions, particularly the Soft Tail variety mentioned above. One example is Trek Bicycle Corporation

Trek Bicycle Corporation

Trek Bicycle Corporation is a major bicycle and cycling product manufacturer and distributor under brand names Trek, Gary Fisher, Bontrager, Klein and until recently, LeMond Racing Cycles...

's s.p.a (Suspension Performance Advantage) rear suspension, offered on some of their Pilot models, but the system was removed for the 2008 model year.
Virtually all bicycles produced by Alex Moulton bicycles

Moulton Bicycle

Moulton is an English bicycle manufacturer. The company was founded in 1962 by Dr Alex Moulton, who designed the "Hydrolastic" and rubber cone suspension systems for the BMC Mini motorcar, and the later "Hydragas" system used by its successor companies....

also have very effective full suspension, due to the low unsuspended mass of the small wheels and high pressure tires, a characteristic of the unconventional design of these bicycles.

Recumbent bikes

Many recumbent bicycle

Recumbent bicycle

A recumbent bicycle is a bicycle that places the rider in a laid-back reclining position. Most recumbent riders choose this type of design for ergonomic reasons; the rider's weight is distributed comfortably over a larger area, supported by back and buttocks...

s have at least a rear suspension because the rider is usually unable to lift themselves off of the seat while riding. Single pivot is usually adequate when the pedaling thrust is horizontal - that is, forwards rather than downwards. This is usually the case provided the bottom bracket is higher than the seat's base height. Where the bottom bracket is significantly lower than the seat base, there may still be some pedalling-induced bounce.

Short-wheelbase recumbents benefit from front suspension more than long wheelbase recumbents because the front wheel (often small diameter which further magnifies the need for suspension) is taking a much larger portion of the loads than in a long wheelbase recumbent.

Softride and Zipp

The Softride Suspension System was launched at the Interbike 1989 bike show. The original SRS systems consisted of two foam filled fiberglass boxes bonded together with a viscoelastic layer. Originally intended for the use in mountain bike

Mountain bike

A mountain bike or mountain bicycle is a bicycle created for off-road cycling. This activity includes traversing of rocks and washouts, and steep declines,...

s, Softride produced its first full-fledged mountain bike, the PowerCurve, in 1991. During 1996 Softride released its first aluminum frame road bike

Road bicycle

The term road bicycle is used to describe bicycles built for traveling at speed on paved roads. Some sources use the term to mean racing bicycle...

, the Classic TT. The Softride Suspension System is used almost exclusively for triathlon racing

Triathlon

A triathlon is a multi-sport event involving the completion of three continuous and sequential endurance events. While many variations of the sport exist, triathlon, in its most popular form, involves swimming, cycling, and running in immediate succession over various distances...

. Softride ceased bicycle production in 2007 after the design was banned from racing.

A very closely related suspension design to the Softride is the Zipp 2001

Zipp 2001

Zipp 2001 and 3001 were a line of bicycle frames, now discontinued, made by the Zipp company. While they have been out of production for 7 years, they are still considered one of the fastest time trial frames ever made, and still have a cult following within triathlon, where they remain...

, a contemporary competing beam bicycle, where the suspension was in the hinge, rather than in flex of the beam itself.

Front suspension

Rear suspension

Suspension Categories

Soft tail

Single pivot

"Faux bar"

Four-bar

Unified rear triangle

Virtual Pivot Point

DW-link

Split pivot

Independent Drivetrain

Monolink

Equilink

Saddle suspension

Suspension hub

Terminology

Travel

Preload

Rebound

Sag

Lockout

Bob and squat

Pedal feedback

Compression damping

Unsprung mass

Mountain bikes

Road bikes

Recumbent bikes

Softride and Zipp

See also