Tandems are subjected to unique stresses caused by additional riders and weight requiring solutions specific to tandem construction. The phrase "tandem-specific" was popularized by its use in Santana tandem catalogs during the 1990s.
Drive train To transfer power from all pedals to the rear wheel requires a
drive train. Typically, the forward crankset is connected by a left-side
timing chain to the rear crankset, which in turn is connected by a right-side chain to the rear wheel. This configuration is called
crossover rear drive, and requires both of the rear cranks to have chainrings. To work reliably, both of the left-side cranks must be tandem- or left-drive specific to accept the left-hand threading used on left pedals. The second most popular solution, due to not requiring tandem-specific cranks, is called
single side rear drive. The forward crankset is connected by a right-side timing chain to the rear crankset, which in turn is connected by a right-side chain to the rear wheel. This requires that one of the rear chainrings be devoted to the timing chain and limits shifting options. The least popular solution is to run a drive chain from the forward crankset all the way to the rear wheel, and also run a timing chain from the front crankset to the rear crankset. This is less popular because it requires considerably more chain than the first two arrangements. Such a setup is called a
crossover front drive. A rare solution to the requirement of coordinated pedaling is the use of a
jackshaft plus two freehubs, thus allowing one rider to coast while the other continues to pedal. This also allows riders to select different crank positions, such as inphase (IP), or Out-Of-Phase (OOP), while pedaling together. Davinci Tandems use a unique "Independent Drive" whereby the intermediate shaft transfers the power from the stoker and captain cranks into a converter which allows up to four chainrings. This variant also allows stoker and captain cranks to freewheel (coast) independently.
Crankset The front
crankset typically has only one chainring. The rear crankset typically has many chainrings, sometimes on both sides. On a tandem where the pedaling is designed to be in
sync, both cranksets will use a chainring for the timing chain of the same size. The drive chain chainrings can be single gear or use a
derailleur. To maintain the necessary tension on the timing chain, many tandems use an
eccentric that is placed in the front rider's
bottom bracket shell. An alternate solution is to implement a pulley, or idler, on the bottom of the timing chain to take up slack. Idlers add friction and a potential point of failure to the drive train.
Fork Tandems have very different weight distribution and loads on wheels, brakes, and forks. A tandem-specific fork is designed to handle this. Custom tandem makers such as Co-Motion make specific forks for tandem, triple, and quad-bikes. Brake forces can be substantial. On any bicycle, the front brake (and thus fork) are critical to safe and efficient braking.{{cite web
Handle bars and stem Stoker
handlebars are typically connected to a stoker
stem that is clamped around the captain's
seatpost. The stoker handlebars are typically bullhorns or drop bars with "dummy levers" instead of brake levers for gripping.
Wheels Because of the extra weight and stresses, tandem
wheels may use a higher
spoke count, sturdier rims, higher pressure
tires, a stronger freewheel, dishless spoke configuration, or asymmetric wheels. Tandems wear out rear wheels faster than front wheels; therefore, they may use non-symmetrical wheel setups, such as more spokes or a sturdier rim on the rear wheel. The
dish of a wheel measures the amount of asymmetry between the rim and the hub flanges. To accommodate a large
cassette, more space is needed on the drive side of the axle; this increases the complexity of manufacturing and truing the wheel. Tandem rear wheels tend to run a wider hub/axle to allow the right-side hub flange to be further right of wheel center and thus reduce the total dish of the wheel. Some modern tandems use a 160-mm-wide axle that allows a wheel that is completely "dishless" (i.e. symmetric). The disadvantage is this may increase the
Q-factor of the stoker's cranks and may also cause "heel-strike" of the stoker's shoes on the chain stays. Others use shorter axles (often 145 mm wide) thereby trading a little decrease in the strength of the wheel for the advantage of a similar decrease in the bending moment of the axle spindle. Rear hubs may also be threaded on the left side to allow the use of a drum brake. Specialty wheels such as
Aerospoke or
Shimano "Sweet-16" may build "tandem certified" racing wheelsets. The Aerospoke tandem wheelset is built up more than their roadset with special tandem hubs that can be removed and which facilitates stacking the rims flat into a travel case.
Brakes A tandem bicycle has about twice the
kinetic energy as a single bicycle traveling at the same forward speed. This may be more than can be handled by the same brakes, especially
rim brakes, as a single bicycle. Two alternatives have been employed to solve this problem: drum brakes and disc brakes. The Arai
drum brake is used during long downhill descents where a rim brake might overheat the tire and possibly cause it to fail. The drum of the brake screws onto the left side of the tandem hub, which must be threaded for the drum. The shoe plate slips over the axle and a small reaction arm from the shoe plate engages with the bicycle frame to prevent the plate from turning. The drum brake is typically controlled by a friction shift lever like a BARCON or similar. The brake is designed to be engaged continuously during a descent to maintain a steady speed. The standard brakes can be used in addition as necessary. Some modern tandems use
disc brakes, with all the advantages and disadvantages that entails. ==Riding techniques==