E-Bike Fully
Buying advice for an Mountainbike Fully
Frame material
E-bike fullys are usually available with frames made of different materials, similar to conventional mountain bikes. Aluminium frames are widely used and popular due to their combination of strength, stiffness and relatively low weight. They are also generally less expensive than frames made from other materials. Aluminium frames offer good durability and are less susceptible to damage from impacts or crashes. Carbon frames are known for their lightness, stiffness and excellent damping of vibrations. They often offer a very smooth ride and high performance, especially on technical trails. However, carbon frames are often more expensive than aluminium frames and can require more attention and maintenance. Steel frames are less common on e-bike fullys. Steel frames are known for their durability and resilience. However, they are usually heavier than aluminium and carbon frames.
Suspension
The suspension fork on an E-Bike Fully is located at the front of the bike and absorbs shocks and vibrations from the front wheel. It consists of one or more springs and a damper that controls the movement of the spring and enables a controlled return to the starting position. The suspension fork helps to improve traction, control and riding comfort on uneven terrain. The damper is an essential part of the suspension and is normally located at the rear of the bike between the frame and the rear triangle. It absorbs the shocks and vibrations absorbed by the rear wheel and helps to keep the bike stable.
Wheels
The most common sizes for MTB wheels are 27.5 inch and 29 inch. Both sizes have their advantages and disadvantages. 27.5-inch wheels often offer better manoeuvrability and acceleration, while 29-inch wheels can roll over obstacles and offer better traction. The choice depends on personal preference, riding style and the terrain you want to ride on. Wheels can be made from a variety of materials, including aluminium alloy and carbon. Aluminium wheels are generally less expensive and offer good durability and stiffness. Carbon wheels are lighter and often offer better damping of vibrations, but are also more expensive and potentially more susceptible to damage from impacts or crashes.
Tyres
The tyre tread of fully e-bikes has a significant influence on grip and traction on various surfaces. For aggressive trail riding and technical descents, tyres with a coarse tread and deeper lugs are ideal to ensure good grip on loose surfaces, mud, roots and rocks. For mixed terrain and all-round use, tyres with a slightly less aggressive tread pattern that offers a good balance between rolling resistance and grip may be suitable. Wider tyres generally offer a larger contact area on the E-Bike Fully and therefore improve traction and stability, especially on uneven terrain.
Brakes
The two most common braking systems for e-bike fullys are hydraulic disc brakes and mechanical disc brakes. Hydraulic disc brakes generally offer better braking performance, improved modulation and less maintenance compared to mechanical brakes. They are also better able to dissipate heat and therefore offer consistent performance on longer descents. In addition, larger brake discs usually offer improved braking performance and better heat dissipation, which is particularly important on long descents.
Battery motor
As fully e-bikes are often designed for demanding terrain, a powerful motor with high torque is an advantage. Batteries with a capacity of 400 Wh to 700 Wh are often used for fullys, although there are also models with larger capacities. A powerful motor is particularly important for tackling steep climbs and challenging terrain. As a rule, fully e-bikes can reach speeds of up to 25 km/h or 45 km/h.