by phillip holifield and nick weil srjc, engr 45, fall 2009 semester
TRANSCRIPT
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By Phillip Holifield and Nick WeilSRJC, Engr 45, Fall 2009 Semester
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Disk brakes convert kinetic energy from the car into thermal energy by friction
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The brake fluid compresses the piston inside the brake caliper applying pressure to the brake pads
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Connected to the axel – rotating at the same speed as the wheel
Generally made out of steel
Commonly slotted or drilled for extra heat dissipation
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Fixed in the brake caliper
Various compounds of materials are used
Wear over time and must be replaced
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Increase pad and rotor life Reduce brake noise Cooling to prevent heat fade Maximize braking force Federal Safety Requirements Environmental Impact
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Passenger Cars:◦ Low noise and wear
Trucks and SUV’s:◦ Heavier weight requires better braking
High Performance Cars:◦ Need maximum braking and cooling
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Asbestos Semi-Metallic Non-Asbestos Organics Low Steel Carbon Exact composition of each manufacturer’s
pads is a closely guarded secret
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Widely used in early disk brake applications Good for absorbing and dissipating heat Average stopping power Asbestos is legally regulate due to it’s
carcinogenic properties No longer used due to health risks
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Range from 30% to 65% metal and filler Different pads use Steel, Iron, and Copper Harder material is very durable and has
excellent heat resistance Creates more noise and dust Used in most cars and SUV’s
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Low to medium coefficient of friction ~ 0.28 –0.38 Relatively high mu variation (temperature, duty
cycle) Good fade characteristics Poor wear at low temps., <100C Excellent wear at temps. over 200C Good wear under heavy loads Poor wear at high speeds Generally inferior Noise, Vibration & Harshness
compared to NAOs Contains no copper Low initial cost High fluid temperatures can be an issue
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Typically contain nonferrous metals, inorganic and organic fibers, abrasives, lubricants and property modifiers such as glass, rubber, kevlar and carbon
Typically used in high performance cars Also referred to as “ceramics”
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Low to medium-high coefficient of friction ~ 0.33 –0.40.
Excellent wear at lower temps. < 200C. Good for wheel dust. Relatively poor wear under heavy duty
conditions and at higher friction levels. Good noise & roughness characteristics Can have morning effectiveness noise –
squealing noise on first couple of brake applies in the morning
More expensive.
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Typically contain ferrous and nonferrous metals, inorganic and organic fibers, aggressive abrasives, lots of carbonaceous and sulfide lubricants
Replacing semi-metallic as the standard for passenger cars
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Higher coefficient of friction levels ~ 0.38 –0.50
Good pedal feel and braking confidence Good fade and high speed performance High pad/rotor wear Good for high speed wear Lots of wheel dust Inferior noise and life.
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Composite materials reinforced with carbon fibers
Used for both pads and rotors
Used in Formula 1 and other race cars
Major manufacturers include Hitco, Brembo and Carbon Industries
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Light weight – rotors weigh less than 1kg High coefficient of friction - can decelerate
an F1 car at over 5G Operating temperature is around 800-
1000°C Extremely expensive to produce
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Text: http://en.wikipedia.org/wiki/Brake_pads http://en.wikipedia.org/wiki/Disk_brake http://auto.howstuffworks.com/auto-parts/brakes/brake-types/disc-bra
ke.htm www.suscon.org/bpp/pdfs/OEBrakePads.pdf http://www.performancefriction.com/pages/pad_type.htm http://www.f1technical.net/articles/2
Images: http://stmarysjin.org.uk/hsw/gif/disc-brake3.jpg http://www.akebonobrakes.com/oem/brake_products/images/
3d_exploded_caliper.gif https://www.nzad.co.nz/store/images/standard%20brake%20rotor
%20(Small).jpg http://www.good-win-racing.com/miata/images/items/GWR-078.jpg