Helly–Bray theorem: Difference between revisions

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Vehicle [[Brake|braking system]] '''fade''', or '''brake fade''', is the reduction in stopping power that can occur after repeated or sustained application of the brakes, especially in high load or high speed conditions. Brake fade can be a factor in any [[vehicle]] that utilizes a [[friction]] braking system including [[automobile]]s, [[truck]]s, [[motorcycle]]s, [[airplane]]s, and even [[bicycle]]s.
== at the foot of an escape Tissot appear automatically. ==


Brake fade is caused by a buildup of heat in the braking surfaces and the subsequent changes and reactions in the brake system components and can be experienced with both [[drum brakes]] and [[disc brake]]s. Loss of stopping power, or fade, can be caused by friction fade, mechanical fade, or fluid fade. Brake fade can be significantly reduced by appropriate equipment and materials design and selection, as well as good cooling.
Because more than enough points, even death, loss half points. Still able to top 1001.<br><br>'hands now?' magic hammer staring Feng Luo.<br><br>'Yes.' Luo Feng nodded, 'Now!'<br><br>'Haha, I'll look at, so many [http://www.nrcil.net/fancybox/lib/rakuten_LV_46.html ルイヴィトン バッグ モノグラム] talented fear 'madman' how strong in the end.' That magic hammer vertical face with eyes crazy.<br><br>Luo Feng suspended from half a meter, at the foot of an escape Tissot appear automatically.<br>On<br>street, two distant [http://www.nrcil.net/fancybox/lib/rakuten_LV_16.html ルイヴィトン バッグ ダミエ] relative.<br><br>'Boom!' magic hammer right leg suddenly stepped on the ground, so that the ground suddenly cracked open [http://www.nrcil.net/fancybox/lib/rakuten_LV_15.html ルイヴィトン コレクション] street, [http://www.nrcil.net/fancybox/lib/rakuten_LV_78.html ルイヴィトン デニム] and his whole [http://www.nrcil.net/fancybox/lib/rakuten_LV_55.html ルイヴィトンルイヴィトン] body had been before he went to Luo Feng flashed that all four arms holding the angular Black Hammer, a series of lightning hit coming towards Feng Luo.<br><br>Luo Feng body floating almost backwards, with the foot on a golden escape from Tissot shot, [http://www.nrcil.net/fancybox/lib/rakuten_LV_90.html ルイヴィトン 財布 マルチカラー] and then directly [http://www.nrcil.net/fancybox/lib/rakuten_LV_100.html ルイヴィトン 中古品] into a [http://www.nrcil.net/fancybox/lib/rakuten_LV_100.html ルイヴィトン 新作 2014] gold fish.<br><br>'Go!' Luo Feng eyes of a condensate.<br><br>golden fish swim merrily unto magic hammer
 
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Brake fade occurs most often during high performance driving or when going down a long, steep hill. It is more prevalent in drum brakes due to their configuration. Disc brakes are much more resistant to brake fade because the heat can be vented away from the rotor and pads more easily, and have come to be a standard feature in front brakes for most vehicles.
<ul>
 
 
==Causes of brake fade==
  <li>[http://www.vaswim.org/cgi-bin/rcalc.cgi http://www.vaswim.org/cgi-bin/rcalc.cgi]</li>
The reduction of friction termed brake fade is caused when the temperature reaches the "kneepoint" on the temperature-friction curve and gas builds up between disc and pad.  [''All brake lining is cured under mechanical pressure following a heating & cooling curve backstroke, heating the friction material up to 450°F to "cure" (cross-link) the phenolic resin thermoset polymers: There is no melting of the binding resins, because phenolic resins are thermoset, not thermoplastic''] In this form of fade, the brake pedal feels firm but there is reduced stopping ability. Fade can also be caused by the [[brake fluid]] boiling, with attendant release of compressible gases. In this type of fade, the brake pedal feels "spongy". This condition is worsened when there are contaminants in the fluid, such as water, which most types of brake fluids are prone to absorbing to varying degrees. For this reason [[brake bleeding|brake fluid replacement]] is standard maintenance.
 
 
  <li>[http://www.ultraloong.cn/hbepi/show.php?aid=971446 http://www.ultraloong.cn/hbepi/show.php?aid=971446]</li>
==Fade in self-assisting brakes==
 
[[Image:AirBrake.gif|thumb|right|Truck air brakes can fade due to expansion if improperly adjusted]]
  <li>[http://www.changwanba.com/home.php?mod=space&uid=88678 http://www.changwanba.com/home.php?mod=space&uid=88678]</li>
 
 
Various brake designs such as [[band brake]]s and many [[drum brake]]s are self-assisting: when the brake is applied, some of the braking force feeds back in to the brake mechanism to further self-apply the brake. This is called "positive feedback" or "self-[[Servomechanism|servo]]". Self-assist reduces the input force needed to apply the brake, but exaggerates fade, since a reduction in pad friction also reduces pad force. In contrast, for a brake without self-assist, such as a conventional disc brake, a loss of pad friction does not change the pad force, so the loss of braking is proportional to just the loss of pad friction.
</ul>
 
The self-assist mechanism affects the water pump and the amount of fade. For example, the [[Ausco Lambert disc brake|Ausco Lambert]] and Murphy brakes have self-assist roughly proportional to pad friction, so total braking is reduced as roughly the square of the loss in friction. Many other self-assist designs, such as [[band brake]]s and many common [[drum brake]]s, have exponential self-assist, described by <math>e^{\mu \theta}</math>, where <math>e</math> is the natural logarithm base, <math>\mu</math> is the [[coefficient of friction]] between shoes and drum, and <math>\theta</math> is the angle of engagement between shoes and drum. A small change in friction causes an exponential change in self assist. In many common brakes, a slight increase in friction can lead to wheel lockup with even light application. For example, on damp mornings, drum brakes can lock on first application, skidding to a stop even after the brake pedal has been released. Conversely, a slight decrease in friction can lead to severe brake fade.
 
==Factors contributing to fade==
Brake fade failures can [[Cascading failure|cascade]]. For example, a typical 5-axle truck/trailer combination has 10 brakes. If one brake fades, brake load is transferred to the remaining 9 brakes, causing them to work harder, get hotter, and thus fade more. Where fade is non-uniform, fade may cause a vehicle to swerve. Because of this, heavy vehicles often use disproportionately weak brakes on steered wheels, which hurts the stopping distance and causes brakes on non-steered wheels to work harder, worsening fade. An advantage of low-fade brakes such as [[disc brakes]] is steered wheels can do more braking without causing brake steer.<ref name="ganaway">[http://www.dtic.mil/ndia/2002tactical/ganaway.pdf Gary Ganaway, Air Disc Brake Production, Use & Performance], NDIA Tactical Wheeled Vehicles Conference, Monterey California, 28 January 2002. Accessed 2010/01.</ref>
 
Brake fade typically occurs during heavy or sustained braking. Many high-speed vehicles use disc brakes, and many European heavy vehicles use disc brakes.<ref name="ganaway"/> Many U.S. and third-world heavy vehicles use drum brakes due to their lower purchase price. On heavy vehicles, air drag is often small compared to the weight, so the brakes dissipate proportionally more energy than on a typical car or motorcycle. Thus, heavy vehicles often need to use engine compression braking, and slow down so braking energy is dissipated over a longer interval. Recent studies have been performed in the United States to test the stopping distances of both drum brakes and disc brakes using a North American Standard called FMVSS-121.  The results showed that when newer compounding of friction materials typically used in disc brakes is applied to drum brakes that there is virtually no difference in stopping distance or brake fade.  As the United States changed its FMVSS-121 rules for Class Eight trucks built in 2012 to reduce stopping distances by about 1/3rd there was no recommendation to use either drum or disc brakes in the current law.
 
Newer drum technologies and turbine cooling devices inside of these drums has also eliminated any edge disc brakes may have had in heavy duty applications. By installing brake turbines inside of a specially configured drum, temperatures are many times cut in half and brake fade is nearly eliminated.
 
Brake failure is also caused by brake drum thermal expansion in which brake shoe clearance becomes excessive from wear. This was largely remedied in the 1950s by [[Drum brake#History|self-adjusting brakes]].<ref name="Spartan">[http://digital.lib.msu.edu/collections/sesquicentennial/se/se-38.pdf?CFID=1834320&CFTOKEN=86763474 ''Spartan Engineering 1959'']; Disk Brakes; accessed 2007-02-26</ref> Maladjustment with wear is still a factor in trucks with drum air brakes.<ref name ="Dana">http://www.roadranger.com/ecm/groups/public/@pub/@roadranger/documents/content/rr_axag-0300.pdf; Dana Spicer Trailer Axles & Brakes; Application Guide AXAG-0300 March 2006; See "Brake Fade" in glossary; accessed 2007-02-26</ref> A Canadian survey of randomly stopped heavy trucks found over 10% of trucks using self-adjusting brakes had at least one brake out of adjustment, due either to failure of the self-adjust mechanism or wear beyond the capacity of the self adjuster.  Newer brake pistons ("cans") extend stroke from about 65&nbsp;mm to about 75&nbsp;mm; since about 30&nbsp;mm of stroke is used just putting the pads in contact with the drum, the added 10&nbsp;mm of stroke is over 25% increase in useful stroke. Longer stroke reduces especially wear-related fade, but drum brakes are still fundamentally prone to fade when hot.
 
After cooling, faded brakes usually perform as well as before, with no visible change to the brake shoes and/or pads. However if the brakes have been excessively hot for a prolonged period of time, glazing can occur on both of the friction linings of the shoes and pads.
When this happens, the contacting surfaces of the linings will have a smooth, shiny appearance, and will not perform as efficiently to slow the vehicle under braking.
This glazing can be easily removed by either gently using emery paper on them, or by driving the vehicle carefully whilst implementing light use of the brakes for several miles.
 
An incorrect explanation sometimes given for brake fade is heated brake shoes evaporate to generate gas that separate them from the drum. Such effects are easy to imagine, but physically impossible, due to the large volume of gas that would be required for such an effect. A [[gas bearing]] would need gas replenishment as fast as the disc or drum moves, since it has no gas on its surface as it approaches the pad or shoe. Also, disc brakes use much the same materials and operate well with little fade, even when the discs are glowing hot.'[http://www.threeplanes.net/toolsteel.html (color vs. temperature)]' If brake materials [[Outgassing|outgassed]] at drum temperatures, they would also outgas at disc temperatures and would fade substantially. Since discs have little fade, they also demonstrate outgassing is not a source of fade. Some disc brakes are drilled or slotted, but smooth discs show no more fade.
 
Long dual-tire skid marks on highways, made by trucks with drum brakes, are visible examples of non-linearity between brake response and pedal pressure. Large trucks still use drum brakes because they are economical and fit easily where an equivalent disc brake does not. More recently disc brakes for trucks have been promoted listing features such as no fade, possible because they have no self-assist (self-servo).<ref>[http://www.roadranger.com/Roadranger/productssolutions/brakes/airdiscbrakes/index.htm Air Disc Brakes]</ref>
 
==Railroads==
Railroads have been using disk brakes on passenger cars for more than 60 years, but coupled with a ''[[Rolokron]]'' anti-lock system to avoid the creation of ''flat spots'' (or “''square wheels''”) when wheels lock and skid on the rail surface (audible as steady ''bang-bang-bang'' noise as a train goes by—not to be confused with the bang-bang...bang-bang....bang-bang sound made by wheels rolling over a rail joint). Usually, brake disks are installed in the center of the axle, but in some applications (such as [[Bombardier BiLevel Coach|Bombardier Bi Level]] commuter cars), only one disk is used, mounted on the axle end outside the truck frame. High speed trains (such as the [[TGV]]) may use four disks per axle.
 
Freight cars (and some passenger cars like multiple-unit cars whose traction motors do not yield room on axles to allow the placement of disk brakes) are equipped with ''clasp brakes'' which directly grab the rolling surface of the wheels (much like the old horse buggy brakes of yesteryear). Such brakes are an external-shoe drum brake; but unlike [[band brake]]s and many internal-shoe drum brakes, there is no self-assist/self-servo effect, and so they are far less susceptible to locking than self-assist brakes. Due to high stiffness and relatively low power, these clasp brakes are even less prone to lockup than many disc brakes, and so freight cars using them are not equipped with anti-lock systems.
 
The first development of modern [[ceramic]] brakes was made by British engineers working in the railway industry for [[TGV]] applications in 1988. The objective was to reduce weight, the number of brakes per axle, as well as provide stable friction from very high speeds and all temperatures. The result was a [[carbon-fibre]]-reinforced ceramic process that is now used in various forms for automotive, railway, and aircraft brake applications.
 
==Controlling fade through driving technique==
Brake fade and rotor warping can be reduced through proper braking technique; when running down a long downgrade that would require braking simply select a lower gear (for automatic transmissions this may necessitate a brief application of the throttle after selecting the gear). Also, periodic, rather than continuous application of the brakes will allow them to cool between applications. Continuous light application of the brakes can be particularly destructive in both wear and adding heat to the brake system.{{Citation needed|date=April 2011}} Finally, new brakes are prone to a phenomenon termed "green fade",<ref>[http://www.safelinebrakes.com/brake-pads/brake-lining-burnishing.html ''Burnishing of Brake Linings'']</ref> where resin on the brake pad evaporates at the high temperatures involved in heavy braking and the resulting pressurised gas forces the brake lining away from the disk, reducing friction {{Verify source|date=September 2011}}<sup> - conflicting with [[Brake_fade#Factors_contributing_to_fade|"Factors contributing to fade"]] above</sup>.
 
==Brake modification to reduce fade==
High performance brake components provide enhanced stopping power by improving friction while reducing brake fade. Improved friction is provided by lining materials that have a higher [[coefficient of friction]] than standard brake pads, while brake fade is reduced through the use of more expensive binding resins with a higher melting point, along with slotted, drilled, or dimpled discs/rotors that reduce the gaseous boundary layer, in addition to providing enhanced heat dissipation. Heat buildup in brakes can be further addressed by body modifications that direct cold air to the brakes.
 
The "gaseous boundary layer" is a hot rod mechanics explanation for failing self servo effect of drum brakes because it felt like a brick under the brake pedal when it occurred. To counter this effect, brake shoes were drilled and slotted to vent gas. In spite of that, drum brakes were abandoned for their self-servo effect. Disks do not have that because application force is applied at right angles to the resulting braking force. There is no interaction.
 
Adherents of gas emission have carried that belief to motorcycles, bicycles and "sports" cars, while all other disk brake users from the same automotive companies have no holes through the faces of their discs, although internal radial air passages are used. Vents to release gas have not been found on railway, aircraft and passenger car brakes because there is no gas to vent. Meanwhile, heavy trucks still use drum brakes because they offer more heat dissipation than disks that would fit in the same space. Railways have never used internal expanding drum brakes because they cause skidding, causing expensive flat spots on steel wheels.
 
Both disc and drum brakes can be improved by any technique that removes heat from the braking surfaces.
 
Drum brake fade can be reduced and overall performance enhanced somewhat by an old "hot rodder" technique of drum drilling. A carefully chosen pattern of holes is drilled through the drum working section; drum rotation centrifugally pumps a small amount air through the shoe to drum gap, removing heat; fade caused by water-wet brakes is reduced since the water is centrifugally driven out; and some brake-material dust exits the holes. Brake drum drilling requires careful detailed knowledge of brake drum physics and is an advanced technique probably best left to professionals. There are performance-brake shops that will make the necessary modifications safely.
 
Brake fade caused by overheating brake fluid (often called Pedal Fade) can also be reduced through the use of thermal barriers that are placed between the brake pad and the brake caliper piston, these reduce the transfer of heat from the pad to the caliper and in turn hydraulic brake fluid.  Some high-performance racing calipers already include such brake heat shields made from titanium or ceramic materials. However, it is also possible to purchase aftermarket titanium brake heat shields <ref>http://HardBrakes.com TiSpeed Hard Brakes Titanium Brake Heat Shields</ref> that will fit an existing brake system to provide protection from brake heat. These inserts are precision cut to cover as much of the pad as possible. Since they are relatively cheap and easy to install, they are popular with racers and track day enthusiasts.
 
Another technique employed to prevent brake fade is the incorporation of fade stop brake coolers. Like titanium heat shields the brake coolers are designed to slide between the brake pad backing plate and the caliper piston. They are constructed from a high thermal conductivity, high yield strength metal composite which conducts the heat from the interface to a heat sink which is external to the caliper and in the airflow. They have been shown to decrease caliper piston temperatures by over twenty percent and to also significantly decrease the time needed to cool down.<ref>Testing the Fade Stop Brake Coolers http://www.fourproducts.com/FSBC.htm#Graph</ref> Unlike titanium heat shields, however, the brake coolers actually transfer the heat to the surrounding environment and thus keep the pads cooler.
 
==See also==
*[[Disc brake]]
*[[Drum brake]]
 
==References and sources==
{{reflist}}
 
== External links ==
*[http://www.FMSI.org Friction Material Standards Institute]
*[http://HardBrakes.com/index.php?main_page=page&id=32&chapter=100 Lab Testing Results on Titanium Brake Heat Shields]
*[http://HardBrakes.com/index.php?main_page=page&id=1&chapter=1 Hard Brakes Titanium Brake Heat Shield Technical Info]
*[http://www.fourproducts.com/Images/Development_of_the_FSBC.pdf Development of the Fade Stop Brake Coolers]
*[http://www.fourproducts.com/FSBC.htm Mitigating Brake Fade]
 
 
{{Powertrain}}
 
{{Use dmy dates|date=April 2011}}
 
{{DEFAULTSORT:Brake Fade}}
[[Category:Vehicle braking technologies]]

Latest revision as of 13:14, 5 May 2014

at the foot of an escape Tissot appear automatically.

Because more than enough points, even death, loss half points. Still able to top 1001.

'hands now?' magic hammer staring Feng Luo.

'Yes.' Luo Feng nodded, 'Now!'

'Haha, I'll look at, so many ルイヴィトン バッグ モノグラム talented fear 'madman' how strong in the end.' That magic hammer vertical face with eyes crazy.

Luo Feng suspended from half a meter, at the foot of an escape Tissot appear automatically.
On
street, two distant ルイヴィトン バッグ ダミエ relative.

'Boom!' magic hammer right leg suddenly stepped on the ground, so that the ground suddenly cracked open ルイヴィトン コレクション street, ルイヴィトン デニム and his whole ルイヴィトンルイヴィトン body had been before he went to Luo Feng flashed that all four arms holding the angular Black Hammer, a series of lightning hit coming towards Feng Luo.

Luo Feng body floating almost backwards, with the foot on a golden escape from Tissot shot, ルイヴィトン 財布 マルチカラー and then directly ルイヴィトン 中古品 into a ルイヴィトン 新作 2014 gold fish.

'Go!' Luo Feng eyes of a condensate.

golden fish swim merrily unto magic hammer 相关的主题文章: