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毕业论文网 > 开题报告 > 机械机电类 > 车辆工程 > 正文

基于电动缸的汽车液压制动实验台架设计开题报告

 2020-02-10 22:45:11  

1. 研究目的与意义(文献综述)

1. background

the hydraulicbrake was first invented and went on to a patent by malcolm lougheed in 1917,fred duesenberg used the lockheed hydraulic brake on his racing cars in 1914,and deusenberg first used the hydraulic brake on a passenger car. thistechnology then was developed as the self-energizing hydraulic drum brakesystem in automotive industry and it is still widely used nowadays. thehydraulic brake has been widely applied on road vehicles in recent years, andit has played a more and more significant role in the mechanical industry.


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2. 研究的基本内容与方案

1. thebasic content

generally thehydraulic brake system is mainly composed of brake pedal, pushrod, mastercylinder, master cylinder piston, brake fluid, brake fluid reservoir, hydraulicline, calipers, caliper piston, brake pads and brake disk. in a hydraulic brakesystem, there will be a pushrod exerts force on the piston in the mastercylinder when the brake pedal is pressed. this causes brake fluid which isstored in the brake fluid reservoir to flow into a pressure chamber. as a result,the pressure in the whole hydraulic system increases, forcing the brake fluid tocaliper where it acts upon caliper pistons through the hydraulic line. then thecaliper pistons apply pushing force to the brake pads and push them against thebrake disk. a braking torque is generated by the friction between the brakedisk and the brake pads, and this baking torque is able to decelerate thevehicle.

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3. 研究计划与安排

12.26.2018 –01.16.2019

determine the topicof the graduation project, improve the graduation project specification andrelative information collection.

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4. 参考文献(12篇以上)

[1] dzmitrysavitski, valentin ivanov, dmitrij schleinin and klaus augsburg. advancedcontrol functions of decoupled electro-hydraulic brake system. ieee advancedmotion control, auckland new zealand, april 22-24,2016.

[2] w.j. b. midgley and d. cebon. control of a hydraulic regenerative braking systemfor a heavy goods vehicle. cambridge, department of engineering, university ofcambridge, 2015.

[3] lihuatao, wenbo zhang, shoutao li, et al. design of electronic hydraulic brakesystem for the hybrid passenger vehicle. proceeding of the ieee internationalconference on automation and logistics zhengzhou, china, august 2012.

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