Ads
related to: toyota tundra shock absorber replacement instructions
Search results
Results From The WOW.Com Content Network
TEMS (Toyota Electronic Modulated Suspension) is a shock absorber that is electronically controlled (Continuous Damping Control) based on multiple factors, and was built and exclusively used by Toyota for selected products during the 1980s and 1990s (first introduced on the Toyota Soarer in 1983 [1]).
The Toyota Tundra is a full-size pickup truck manufactured in the United States by the Japanese manufacturer Toyota since May 1999. The Tundra was the second full-size pickup to be built by a Japanese manufacturer (the first was the Toyota T100), but the Tundra was the first full-size pickup from a Japanese manufacturer to be built in North America.
Main page; Contents; Current events; Random article; About Wikipedia; Contact us; Pages for logged out editors learn more
Like the Toyota Tundra the tow hitch is integrated into the frame. The front suspension now uses double wishbones , replacing the torsion beam , which gives 230 mm (9 in) of suspension travel, while the rear continues to use a multi-link suspension with a solid rear axle for strength and durability.
Of similar construction to a hydraulic shock absorber the strut used the motion of the suspension travelling over bumps to pump itself back up to a pre-set height. It was sufficiently powerful to regain up to 85% of normal ride height with a full load over the rear axle, and had the advantage of requiring no external power source or a dedicated ...
The automatic transmission was also upgraded by way of the Aisin-Warner A750F (the same as is used in certain Toyota Tundra, Lexus LX 470 and other heavy-duty / full-size Toyota models) while using Mitsubishi's own INVECS-II transmission programming. Interiors were changed slightly, with upper plastic trim panels moving from a light grey, to a ...
The hydraulic driving motors are incorporated within the wheel hubs and reversing to recover braking energy. The aim is 170 mpg in average driving conditions. Energy created by shock absorbers and kinetic braking energy, that normally would be wasted, assists in charging the accumulator. An ICE sized for average power use charges the accumulator.
Designing shock absorber characteristics; Designing the structure of each component so that it is strong, stiff, light, and cheap; Analysing the vehicle dynamics of the resulting design; Since the 1990s the use of multibody simulation and finite element software has made this series of tasks more straightforward.