1、中文4800字Drum brakeA drum brake with the drum removed as used on the rear wheel of a car or truck. Note that in this installation, a cable-operated parking brake uses the service shoes.A drum brake is a brake in which the friction is caused by a set of shoes or pads that press against a rotating drum-
2、shaped part called a brake drum.The term drum brake usually means a brake in which shoes press on the inner surface of the drum. When shoes press on the outside of the drum, it is usually called a clasp brake. Where the drum is pinched between two shoes, similar to a conventional disk brake, it is s
3、ometimes called a pinch drum brake, although such brakes are relatively rare. A related type of brake uses a flexible belt or band wrapping around the outside of a drum, called a band brake.HistoryA drum brake at the rear wheel of a motorbikeKawasaki W800The modern automobile drum brake was invented
4、 in 1902 by Louis Renault, though a less-sophisticated drum brake had been used by Maybach a year earlier. In the first drum brakes, the shoes were mechanically operated with levers and rods or cables. From the mid-1930s the shoes were operated with oil pressure in a small wheel cylinder and pistons
5、 (as in the picture), though some vehicles continued with purely-mechanical systems for decades. Some designs have two wheel cylinders.The shoes in drum brakes are subject to wear and the brakes needed to be adjusted regularly until the introduction of self-adjusting drum brakes in the 1950s. In the
6、 1960s and 1970s brake drums on the front wheels of cars were gradually replaced with disc brakes and now practically all cars use disc brakes on the front wheels, with many offering disc brakes on all wheels. However, drum brakes are still often used for handbrakes as it has proven very difficult t
7、o design a disc brake suitable for holding a car when it is not in use. Moreover, it is very easy to fit a drum handbrake inside a disc brake so that one unit serves as both service brake and handbrake.Early type brake shoes contained asbestos. When working on brake systems of older cars, care must
8、be taken not to inhale any dust present in the brake assembly. The United States Federal Government began to regulate asbestos production, and brake manufacturers had to switch to non-asbestos linings. Owners initially complained of poor braking with the replacements; however, technology eventually
9、advanced to compensate. A majority of daily-driven older vehicles have been fitted with asbestos-free linings. Many other countries also limit the use of asbestos in brakes. Early automotive brake systems, after the era of hand levers of course, used a drum design at all four wheels. They were calle
10、d drum brakes because the components were housed in a round drum that rotated along with the wheel. Inside was a set of shoes that, when the brake pedal was pressed, would force the shoes against the drum and slow the wheel. Fluid was used to transfer the movement of the brake pedal into the movemen
11、t of the brake shoes, while the shoes themselves were made of a heat-resistant friction material similar to that used on clutch plates. This basic design proved capable under most circumstances, but it had one major flaw. Under high braking conditions, like descending a steep hill with a heavy load
12、or repeated high-speed slow downs, drum brakes would often fade and lose effectiveness. Usually this fading was the result of too much heat build-up within the drum. Remember that the principle of braking involves turning kinetic energy (wheel movement) into thermal energy (heat). For this reason, d
13、rum brakes can only operate as long as they can absorb the heat generated by slowing a vehicles wheels. Once the brake components themselves become saturated with heat, they lose the ability to halt a vehicle, which can be somewhat disconcerting to the vehicles operator.Self-applying characteristicD
14、rum brakes have a natural self-applying characteristic.1 The rotation of the drum can drag either or both of the shoes into the friction surface, causing the brakes to bite harder, which increases the force holding them together. This increases the stopping power without any additional effort being
15、expended by the driver, but it does make it harder for the driver to modulate the brakes sensitivity. It also makes the brake more sensitive to brake fade, as a decrease in brake friction also reduces the amount of brake assist.Disc brakes exhibit no self-applying effect because the hydraulic pressu
16、re acting on the pads is perpendicular to the direction of rotation of the disc. Disc brake systems usually have servo assistance (Brake Booster) to lessen the drivers pedal effort, but some disc braked cars (notably race cars) and smaller brakes for motorcycles, etc., do not need to use servos.Note
17、: In most designs, the self applying effect only occurs on one shoe. While this shoe is further forced into the drum surface by a moment due to friction, the opposite effect is happening on the other shoe. The friction force is trying to rotate it away from the drum. The forces are different on each
18、 brake shoe resulting in one shoe wearing faster. It is possible to design a two-shoe drum brake where both shoes are self-applying (having separate actuators and pivoted at opposite ends), but these are very uncommon in practice.Drum brake designsRendering of a drum brakeDrum brakes are typically d
19、escribed as either leading/trailing or twin leading.1Rear drum brakes are typically of a leading/trailing design(For Non Servo Systems), or Primary/Secondary (For Duo Servo Systems) the shoes being moved by a single double-acting hydraulic cylinder and hinged at the same point.1 In this design, one
20、of the brake shoes will always experience the self-applying effect, irrespective of whether the vehicle is moving forwards or backwards.1 This is particularly useful on the rear brakes, where the footbrake (handbrake or parking brake) must exert enough force to stop the vehicle from travelling backw
21、ards and hold it on a slope. Provided the contact area of the brake shoes is large enough, which isnt always the case, the self-applying effect can securely hold a vehicle when the weight is transferred to the rear brakes due to the incline of a slope or the reverse direction of motion. A further ad
22、vantage of using a single hydraulic cylinder on the rear is that the opposite pivot may be made in the form of a double lobed cam that is rotated by the action of the parking brake system.Front drum brakes may be of either design in practice, but the twin leading design is more effective.1 This desi
23、gn uses two actuating cylinders arranged so that both shoes will utilize the self-applying characteristic when the vehicle is moving forwards.1 The brake shoes pivot at opposite points to each other.1 This gives the maximum possible braking when moving forwards, but is not so effective when the vehi
24、cle is traveling in reverse.1The optimum arrangement of twin leading front brakes with leading/trailing brakes on the rear allows for more braking force to be deployed at the front of the vehicle when it is moving forwards, with less at the rear. This helps to prevent the rear wheels locking up, but
25、 still provides adequate braking at the rear when it is needed.1The brake drum itself is frequently made of cast iron, although some vehicles have used aluminum drums, particularly for front-wheel applications. Aluminum conducts heat better than cast iron, which improves heat dissipation and reduces
26、 fade. Aluminum drums are also lighter than iron drums, which reduces unsprung weight. Because aluminum wears more easily than iron, aluminum drums will frequently have an iron or steel liner on the inner surface of the drum, bonded or riveted to the aluminum outer shell.AdvantagesDrum brakes are us
27、ed in most heavy duty trucks, some medium and light duty trucks, and few cars, dirt bikes, and ATVs. Drum brakes are often applied to the rear wheels since most of the stopping force is generated by the front brakes of the vehicle and therefore the heat generated in the rear is significantly less. D
28、rum brakes allow simple incorporation of a parking brake. Drum brakes are also occasionally fitted as the parking (and emergency) brake even when the rear wheels use disk brakes as the main brakes. In this situation, a small drum is usually fitted within or as part of the brake disk also known as a
29、banksia brake.In hybrid vehicle applications, wear on braking systems is greatly reduced by energy recovering motor-generators (see regenerative braking), so some hybrid vehicles such as the GMC Yukon hybrid and Toyota Prius (except the third generation) use drum brakes.Disc brakes rely on pliabilit
30、y of caliper seals and slight runout to release pads, leading to drag, fuel mileage loss, and disc scoring. Drum brake return springs give more positive action and, adjusted correctly, often have less drag when released.Certain heavier duty drum brake systems compensate for load when determining whe
31、el cylinder pressure; a feature unavailable when disks are employed. One such vehicle is the Jeep Comanche. The Comanche can automatically send more pressure to the rear drums depending on the size of the load, whereas this would not be possible with disks.Due to the fact that a drum brakes friction
32、 contact area is at the circumference of the brake, a drum brake can provide more braking force than an equal diameter disc brake. The increased friction contact area of drum brake shoes on the drum allows drum brake shoes to last longer than disc brake pads used in a brake system of similar dimensi
33、ons and braking force. Drum brakes retain heat and are more complex than disc brakes but are often times the more economical and powerful brake type to use in rear brake applications due to the low heat generation of rear brakes, a drum brakes self applying nature, large friction surface contact are
34、a, and long life wear characteristics(%life used/kW of braking power).Brake technology, just like suspension technology and fuel-system technology, has come a long way in recent years. What began in the 60s as a serious attempt to provide adequate braking for performance cars has ended in an industr
35、y where brakes range from supremely adequate to downright phenomenal. The introduction of components like carbon fiber, sintered metal and lightweight steel, along with the adoption of ABS, have all contributed to reduced stopping distances and generally safer vehicles (though ABS continues to provi
36、de controversy). Although drum brakes are often the better choice for rear brake applications in all but the highest performance applications, vehicle manufactures are increasingly installing disc brake system at the rear wheels. This is due to the popularity rise of disc brakes after the introducti
37、on front ventilated disc brakes. Front ventilated disc brakes performed much better than the front drum brakes they replaced. The difference in front drum and disc brake performance caused car buyers to purchase cars that also had rear disc brakes. Additionally rear disc brakes are often associated
38、with high performance race cars which has increase their popularity in street cars. Rear disc brakes in most applications are not ventilated and offer no performance advantage over drum brakes. Even when rear discs are ventilated, it is likely that the rear brakes will never benefit from the ventila
39、tion unless subjected to very high performance racing style driving.DisadvantagesDrum brakes, like most other types, are designed to convert kinetic energy into heat by friction.1 This heat is intended to be further transferred to atmosphere, but can just as easily transfer into other components of
40、the braking system.Brake drums have to be large to cope with the massive forces that are involved, and they must be able to absorb and dissipate a lot of heat. Heat transfer to atmosphere can be aided by incorporating cooling fins onto the drum. However, excessive heating can occur due to heavy or r
41、epeated braking, which can cause the drum to distort, leading to vibration under braking.The other consequence of overheating is brake fade.1 This is due to one of several processes or more usually an accumulation of all of them.1. When the drums are heated by hard braking, the diameter of the drum
42、increases slightly due to thermal expansion, this means the brakes shoes have to move farther and the brake pedal has to be depressed further.2. The properties of the friction material can change if heated, resulting in less friction. This is usually only temporary and the material regains its effic
43、iency when cooled,1 but if the surface overheats to the point where it becomes glazed the reduction in braking efficiency is more permanent. Surface glazing can be worn away with further use of the brakes, but that takes time.3. Excessive heating of the brake drums can cause the brake fluid to vapou
44、rise, which reduces the hydraulic pressure being applied to the brake shoes.1 Therefore less retardation is achieved for a given amount of pressure on the pedal. The effect is worsened by poor maintenance. If the brake fluid is old and has absorbed moisture it thus has a lower boiling point and brak
45、e fade occurs sooner.1Brake fade is not always due to the effects of overheating. If water gets between the friction surfaces and the drum, it acts as a lubricant and reduces braking efficiency.1 The water tends to stay there until it is heated sufficiently to vapourise, at which point braking effic
46、iency is fully restored. All friction braking systems have a maximum theoretical rate of energy conversion. Once that rate has been reached, applying greater pedal pressure will not result in a change of this rate, and indeed the effects mentioned can substantially reduce it. Ultimately this is what
47、 brake fade is, regardless of the mechanism of its causes.Disc brakes are not immune to any of these processes, but they deal with heat and water more effectively than drums.Drum brakes can be grabby if the drum surface gets light rust or if the brake is cold and damp, giving the pad material greate
48、r friction. Grabbing can be so severe that the tires skid and continue to skid even when the pedal is released. Grabbiness is the opposite of fade: when the pad friction goes up, the self-assisting nature of the brakes causes application force to go up. If the pad friction and self-amplification are
49、 high enough, the brake will stay on due to self-application even when the external application force is released.Another disadvantage of drum brakes is their complexity. A person must have a general understanding of how drum brakes work and take simple steps to ensure the brakes are reassembled correctly when doing work on drum brakes. Incompetent mechanics should not attempt working on drum brakes.Re-arcingBefore 1984, it was common to