A vehicle suspension extension apparatus. Implementations may include an extension framework of rigid metallic materials having at least one mounting hole through the extension framework at a location in the extension framework in alignment with a mounting feature of a suspension structure of a truck and is also in alignment with a mounting feature of a body of the truck.

A vehicle suspension extension apparatus. Implementations may include an extension framework of rigid metallic materials having at least one mounting hole through the extension framework at a location in the extension framework in alignment with a mounting feature of a suspension structure of a truck and is also in alignment with a mounting feature of a body of the truck.

A strengthening member for a motor vehicle and a vehicle including a strengthening member are provided. The strengthening member can have a cross-section that has twenty-eight corners and includes sides and corners arranged to create sixteen internal angles and twelve external angles. The strengthening member can have a cross-section that includes a central portion and four lobe portions. The vehicle may include a strengthening member that has twenty-eight corners and includes sides and corners arranged to create sixteen internal angles and twelve external angles.

A vehicle body rear part structure for a vehicle includes a side frame, a subframe disposed below the side frame, and a vehicle body frame member disposed on a middle side in the vehicle body front-rear direction with respect to the subframe. The vehicle body frame member includes: a vertical frame offset outwardly in the vehicle width direction with respect to the subframe; and a lateral frame extending inwardly in the vehicle width direction from the vertical frame. A connecting portion is provided on the subframe. The connecting portion includes: an inclined portion extending while being inclined outwardly in the vehicle width direction, to face the vertical frame; and a widening portion widening inwardly in the vehicle width direction up to a position where the connecting portion linearly extends in the vehicle body front-rear direction from the inclined portion, to face the lateral frame.

A utility vehicle includes a pair of right and left front wheels, a pair of right and left rear wheels, a main frame positioned between the front wheels and the rear wheels and defining a cabin in the main frame, and a cabin front wall defining a front end of the cabin. The cabin front wall includes a cabin front wall body separating the cabin and a bonnet chamber provided ahead of the cabin, and includes a wheel housing wall separating between the cabin and each of right and left front wheel housings. The utility vehicle further includes a cabin guard covering an outer surface of the cabin front wall body.

A utility vehicle includes a pair of right and left front wheels, a pair of right and left rear wheels, a main frame positioned between the front wheels and the rear wheels and defining a cabin in the main frame, and a cabin front wall defining a front end of the cabin. The cabin front wall includes a cabin front wall body separating the cabin and a bonnet chamber provided ahead of the cabin, and includes a wheel housing wall separating between the cabin and each of right and left front wheel housings. The utility vehicle further includes a cabin guard covering an outer surface of the cabin front wall body.

A vehicle is disclosed. The vehicle may include a hydraulic system. The vehicle may include a sway bar. The sway bar may be positioned rearward of a hydraulic pump of the hydraulic system. A console having a first hydraulic input may be provided in an operator area of the vehicle.

An exemplary method for making a metal matrix composite vehicle component includes: using a mold including male and female die portions having mold surfaces and a plurality of spacers; heating the mold to a casting temperature; placing a ceramic preform on the plurality of spacers, the ceramic preform being spaced apart from at least one of the mold surfaces by the spacers; closing the mold to form a mold cavity between the mold surfaces of the male and female die portions, the ceramic preform being disposed within the mold cavity; providing molten metal into the mold cavity; and pressurizing the molten metal to a casting pressure for a casting duration to infiltrate the ceramic preform thereby forming the metal matrix composite vehicle component.

An exemplary method for making a metal matrix composite vehicle component includes: using a mold including male and female die portions having mold surfaces and a plurality of spacers; heating the mold to a casting temperature; placing a ceramic preform on the plurality of spacers, the ceramic preform being spaced apart from at least one of the mold surfaces by the spacers; closing the mold to form a mold cavity between the mold surfaces of the male and female die portions, the ceramic preform being disposed within the mold cavity; providing molten metal into the mold cavity; and pressurizing the molten metal to a casting pressure for a casting duration to infiltrate the ceramic preform thereby forming the metal matrix composite vehicle component.

A levelling group of an aerial work platform includes: a support base for supporting a containing cage of an aerial work platform, a support frame hinged to the support base so as to be able to oscillate with respect to an oscillation axis, at least a pair of ground rest elements hinged independently to the support frame, with respect to respective articulation axes parallel to one another and substantially perpendicular to the oscillation axis, such as to be able to independently vary a height thereof with respect to the support base.