Search for dissertations about: "vehicle load"
Showing result 6 - 10 of 238 swedish dissertations containing the words vehicle load.
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6. Vehicle dynamic analysis of wheel loaders with suspended axles
Abstract : The wheel loader is a type of engineering vehicle used primarily to move crude material over shorter distances. As the vehicle is designed without wheel suspension, wheel loader drivers are exposed to high levels of whole body vibration which influences ride comfort negatively. READ MORE
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7. Dynamic Vehicle-Track Interaction of European Standard Freight Wagons with Link Suspension
Abstract : The link suspension is the most prevailing suspension system for freight wagons in Central and Western Europe. The system design is simple and has existed for more than 100 years. However, still its characteristics are not fully understood. READ MORE
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8. Assessment of crosswind performance of buses
Abstract : When driving a vehicle on the road, the driver has to compensate continuously for small directional deviations from the desired course due to disturbances such as crosswinds, road irregularities and unintended driver inputs. These types of deviations have a tiring effect on the driver and should therefore be minimised. READ MORE
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9. Ice load prediction for design of ice-going ships for inland waterways
Abstract : With increasing interest in utilizing the inland waterways (IWW) in European countries, the design of IWW vessels gains attention both from a transport efficiency and an emission control point of view. However, unlike in western and central European countries, in Nordic countries, e.g. READ MORE
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10. Aspects of autonomous corner modules as an enabler for new vehicle chassis solutions
Abstract : This thesis adopts a novel approach to propelling and controlling the dynamics of a vehicle by using autonomous corner modules (ACM). This configuration is characterised by vehicle controlled functions and distributed actuation and offers active and individual control of steering, camber, propulsion/braking and vertical load. READ MORE