Main Page | See live article | Alphabetical index A multi-link suspension is a type of suspension design typically used in independent suspensions, using 3 or more lateral arms, and one or more longitudinal arms. These arms do not have to be of equal length, and may be angled away from their 'obvious' direction. Typically each arm has a spherical joint (ball joint) or rubber bush at each end. Consequently they react loads along their own length, in tension and compression, but not in bending. Some multi-links do use a swing arm or wishbone, which has two bushes at one end. On a front suspension one of the lateral arms is replaced by the tie-rod, which connects the rack or steering box to the wheel hub. In order to simplify understanding it is usual to consider the function of the arms in each of three orthogonal planes. Table of contents 1 Plan view 2 Front view 3 Side view 4 Advantages of multi-link suspension 5 Disadvantages of multi-links 6 Related Pages Plan view The arms have to control toe/steer and lateral compliance. This needs a pair of arms longitudinally separated. Front view The arms have to control camber, particularly the way that the camber changes as the wheel moves up (into jounce, or bump) and down into rebound or droop. Side view The arms have to react traction and braking loads, usually accomplished via a longitudinal link. They also have to control castor. Note that brake torques also have to be reacted - either by a second longitudinal link, or by rotating the hub, which forces the lateral arms out of plane, so allowing them to react 'spin' forces, or by rigidly fixing the longitudial link to the hub. Advantages of multi-link suspension In its simplest form the multi-link suspension is orthogonal - that is, it is possible to alter one parameter in the suspension at a time, without affecting anything else. This is in direct contrast to say a double wishbone suspension where moving a hardpoint or changing a bush compliance will affect two or more parameters. Disadvantages of multi-links It is very hard to optimise the geometry without a full 3d analysis, and compliance effects are important. Related Pages Vehicles Automotive engineering Automotive suspension design This article is from Wikipedia. All text is available under the terms of the GNU Free Documentation License.