A fiber composite member includes an elongate main member and a fastening portion disposed at an end of the elongate main member, the fastening portion has a fastening opening for fastening the fiber composite member to a neighboring part. A reinforcement fiber bundle, which forms a fiber reinforcement of both the elongate main member and the fastening portion, has a first reinforcement fiber and a second reinforcement fiber which run substantially mutually parallel in a region of the elongate main member. A respective part of the first reinforcement fiber and the second reinforcement fiber in a transition region between the elongate main member and the fastening portion depart from a bundle profile in the region of the elongate main member and the respective parts of the first and second reinforcement fibers intersect with one another in the transition region.

An application of the laser welding process in the joining of shaped and machined components for the production of a front suspension lower swing arm of automotive vehicles. This arm is composed of two shaped parts (4, 5), a tube with a larger circular section (9) for implantation of a cylindrical rubber bushing (2) coupled to a flanged region (6), a cylindrical pin (8) fixed to a cylindrical tube with a smaller circular section (7) to ensure connection of the pin with the shaped parts (4, 5), a bushing with fixing flanges (1), and one socket joint (3). Alternatively, a rubber bushing fixed in the vertical form (15), fixed by pressure in the housing in the already laser welded plates (4, 5) may be used instead of the cylindrical pin (8) fixed in a tube with smaller circular section (7) and a bushing with fixing flanges (1).

An annular reference surface is formed around a through-hole of an eye portion. A distal-end-side curved portion is formed at a first corner portion, on an outer side of the annular reference surface. The thickness of the distal-end-side curved portion is reduced in a range of a length from the first flat surface toward the distal end surface. A hole-side curved portion whose thickness is reduced toward an inner surface of the through-hole is formed at a second corner portion, on an inner side of the annular reference surface. The length of the hole-side curved portion is less than the length of the distal-end-side curved portion. The hole-side curved portion is curved with a greater curvature than that of the distal-end-side curved portion.

The disclosure relates to a wheel link for receiving a bearing in a vehicle that comprises a single-piece wheel link body having a first wheel link end, a second wheel link end, and a connecting section that connects the first wheel link end and the second wheel link end. The single-piece wheel link body extends along a wheel link longitudinal axis. A sleeve-shaped eyelet is formed in the first wheel link end. And the first wheel link end is bulged to form a bearing sleeve for the bearing, increasing a diameter of the sleeve-shaped eyelet and a length of the eyelet transversely with respect to the wheel link longitudinal axis beyond the dimensions of the connecting section.

A four-point link for a vehicle includes a core element and a main laminate comprising a fiber reinforced plastics composite material, which wraps around the core element. The core element comprises four load-introducing elements and a foam core, and the four load-introducing elements (4) are connected by positive engagement to the foam core (5). The four-point link has four additional windings, wherein a respective additional winding wraps around a first, second, third and fourth load-introducing element and operatively connects a respective one of the latter to the main laminate. Compressive forces can be introduced into the main laminate (3) by means of every additional winding (6).

A lower control arm includes a body including a body portion and an arm elongated from the body portion, and a sleeve having a tubular shape. The arm includes an end spaced from the body portion, a top surface, and a bottom surface opposite the top surface. The sleeve is fixed to the end. The sleeve includes a slit extending lengthwise that is disposed closer to one of the top surface and the bottom surface than to a middle of the end.

In a metal-resin composite member 1, 1, a first member M made of metal and a second member P, P made of resin are joined to each other via a first joining portion B defined by the first member M and the second member P, P in cooperation with each other, and the first member M made of metal and a third member P, P made of resin are joined to each other via a second joining portion B defined by the first member M and the third member P, P in cooperation with each other.

Provided is a vehicle suspension member securing a strength against external force in a vehicle longitudinal direction. A lower arm includes an arm body, a front bush support part, a rear bush support part, a ball joint support part, a first rib, a second rib, and a third rib. The third rib is disposed in a lateral part connecting the ball joint support part to the rear bush support part. An S-shaped rib center curve of the third rib intersects with a straight line at an intersection. |(1S2/S1)|0.2 is satisfied, where S1 is area of a first region defined by the rib center curve and the first straight line, and S2 is area of a second region.

A leaf spring apparatus for a vehicle suspension includes a leaf spring, a carrier disposed on an end portion of the leaf spring and mounted on a wheel of a vehicle, a first connection unit connecting the end portion of the leaf spring and the carrier to each other, a cross member disposed on top of the leaf spring and supporting a body of the vehicle, and a second connection unit connecting the leaf spring and the cross member to each other.

A connecting rod for a multiple connecting rod axle of a motor vehicle, especially a lower wishbone for a multiple connecting rod rear axle, includes a substantially Y-shaped basic framework with a first arm, the free end region of which has a first seat for linking the connecting rod to an auxiliary frame or a vehicle body, with a second arm, the free end region of which has a second seat for linking the connecting rod to the auxiliary frame rod or the vehicle body, and with a third arm, the free end region of which has a third seat for linking the connecting rod to a wheel carrier. The connecting rod is manufactured in one piece with the seats.