Brake Pad, WKT, 04465-30330, D2180 (008246)
Brake Pad, WKT, 04465-30330, D2180 (008246)

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Product Information

Brake Pad, WKT, 04465-30330, D2180 (008246)

Upgrade your vehicle's braking performance with the Brake Pad, WKT, 04465-30330, D2180. This high-quality brake pad is designed for durability and reliability, providing exceptional stopping power and safety on the road.

  • Enhanced braking performance
  • Long-lasting durability
  • Reliable and safe stopping power
  • Designed for optimal fit and function

Invest in the Brake Pad, WKT, 04465-30330, D2180 for a smoother, more responsive braking experience.

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Catalogue

https://jnbk-brakes.com/catalogue/cars/brake/1351/PN1430

Specifications

Specifications Type BRAKE PADS Location Front Axle Brake Length-1 117.5 Pcs In Set 4 Thickness-1 17.4 Width-1 58.5

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04465-20540 D2180 Brake Pad

Brake Pad, WKT, 04465-30330, D2180 (008246)

SKU: BP025N1-W156584

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About this item


Product Information

Brake Pad, WKT, 04465-30330, D2180 (008246)

Upgrade your vehicle's braking performance with the Brake Pad, WKT, 04465-30330, D2180. This high-quality brake pad is designed for durability and reliability, providing exceptional stopping power and safety on the road.

  • Enhanced braking performance
  • Long-lasting durability
  • Reliable and safe stopping power
  • Designed for optimal fit and function

Invest in the Brake Pad, WKT, 04465-30330, D2180 for a smoother, more responsive braking experience.

Have A Question
Specifications
Specifications Type BRAKE PADS Location Front Axle Brake Length-1 117.5 Pcs In Set 4 Thickness-1 17.4 Width-1 58.5
Returns
14 Days Return
Report Incorrect Information
Length-1 117.5
Width-1 58.5
Thickness-1 17.4
Pcs In Set 4
Placement Production Engine Vol Engine No Chassis Number/Body No. Vehicle Type Notes
Brake and Traction 01.01~09.06 1800 2ZZ-GE ZZE123 - -
Placement Production Engine Vol Engine No Chassis Number/Body No. Vehicle Type Notes
Brake and Traction 12.01~06.07 1800 1ZZ-FE ZZT245 - -
Brake and Traction 12.01~05.07 2000 1AZ-FSE AZT240 - -
Placement Production Engine Vol Engine No Chassis Number/Body No. Vehicle Type Notes
Brake and Traction 09.02~06.07 1800 1ZZ-FE ZZT241W - -
Brake and Traction 09.02~06.07 2000 1AZ-FSE AZT241W - -
Brake and Traction 09.02~06.07 2000 1AZ-FSE AZT246 - -
Placement Production Engine Vol Engine No Chassis Number/Body No. Vehicle Type Notes
Brake and Traction 01.99~01.06 1800 1ZZ-FE ZZT230L - -
Brake and Traction 06.99~08.02 1800 2ZZ-GE ZZT231 - -
Brake and Traction 12.99~04.06 1800 2ZZ-GE ZZT231L - -
Placement Production Engine Vol Engine No Chassis Number/Body No. Vehicle Type Notes
Brake and Traction 10.01~09.08 2000 1CD-FTV CDE120L - -
Placement Production Engine Vol Engine No Chassis Number/Body No. Vehicle Type Notes
Brake and Traction 08.00~10.06 1800 2ZZ-GE ZZE123G - -
Placement Production Engine Vol Engine No Chassis Number/Body No. Vehicle Type Notes
Brake and Traction 01.01~09.06 1800 2ZZ-GE ZZE123 - -
Placement Production Engine Vol Engine No Chassis Number/Body No. Vehicle Type Notes
Brake and Traction 10.01~01.04 2000 1CD-FTV CDE120L - -
Placement Production Engine Vol Engine No Chassis Number/Body No. Vehicle Type Notes
Brake and Traction 10.09~08.15 2500 4GR-FSE GRX130 - -
Brake and Traction 10.09~08.12 2500 4GR-FSE GRX135 - -
Placement Production Engine Vol Engine No Chassis Number/Body No. Vehicle Type Notes
Brake and Traction 05.00~04.05 1800 1ZZ-FE ZCT15 - -
Placement Production Engine Vol Engine No Chassis Number/Body No. Vehicle Type Notes
Brake and Traction 08.01~07.03 2000 3S-FE AZV50 - -
Brake and Traction 08.01~07.03 2000 3S-FE AZV50G - -
Brake and Traction 08.01~07.03 2000 3S-FE AZV55 - -
Brake and Traction 08.01~07.03 2000 3S-FE AZV55G - -
Brake and Traction 06.98~04.02 2000 3S-FE SV55 - -
Brake and Traction 06.98~04.02 2000 3S-FE SV55G - -
Brake and Traction 06.98~07.03 2000 3S-FSE SV50 - -
Placement Production Engine Vol Engine No Chassis Number/Body No. Vehicle Type Notes
Brake and Traction 01.98~07.03 2000 3S-FSE SV50G - -
Placement Production Engine Vol Engine No Chassis Number/Body No. Vehicle Type Notes
Brake and Traction 04.01~04.04 1800 - ZZE128 - -
Placement Production Engine Vol Engine No Chassis Number/Body No. Vehicle Type Notes
Brake and Traction 04.01~12.02 1800 2ZZ-GE ZZE128 - -
Owner Oem Number
AKEBONO A-603K
AKEBONO AN-603
AKEBONO AN-603K
BENDIX AUS DB1431
FMSI D817
FMSI D817-7691
HITACHI NDP325
HITACHI NDP327
KASHIYAMA D2180
KASHIYAMA D218002
KASHIYAMA D219302
TOYOTA 04465-13030
TOYOTA 04465-1A010
TOYOTA 04465-20500
TOYOTA 04465-20540
TOYOTA 04465-20570
TOYOTA 04465-2B010
TOYOTA 04465-2B030
TOYOTA 04465-2B040
TOYOTA 04465-32191
TOYOTA 04465-32220
TOYOTA 446521030
TOYOTA AY040-TY057
TOYOTA V9118-A077
TOYOTA V9118-A083
WVA 23526
WVA 23864
Length-1 117.5
Width-1 58.5
Thickness-1 17.4
Pcs In Set 4

Brake Disc and Pad Kit Buyer's Guide

Summary A brake disc and pad kit is responsible for controlling your vehicle’s momentum and speed. A brake disc is attached to a wheel, while a caliper is attached and installed around the disc to create friction with the rotors. Brake pads, on the other hand, are the ones responsible for creating friction. These pads are fitted to either side of the caliper. By putting your foot on the brake, the pressure stored in the brake fluid pushes the piston against the caliper. There are three types of brake pads: organic, ceramic, and semi-metallic. There are four types of brake discs: flat, vented, drilled, and slotted or grooved. A complete brake disc and pad kit would cost around $250- $500. This price may vary depending on the year, make, and model of your vehicle. Brake systems need to be well maintained. This will ensure the system’s best performance. Ideally, brake pads need to be replaced every 50,000-70,000 miles. One of the major components of a car is its brake system. It is considered the most important safety mechanisms in every vehicle. Because of this, it is very important to ensure that your brake discs and pads are in good condition. What are the components of a brake pad and disc kit? A brake pad and disc kit is composed of two major components: brake pads and discs. Along with other parts of the brake system, this kit is responsible for controlling the vehicle’s momentum and speed. What role does each component play in the brake system? Brake discs are often the first choice when it comes to a modern vehicle’s braking system. It is more popular compared to drum brakes because it is more efficient and self-adjusting. A brake disc is attached to a wheel, while a caliper is attached and installed around the disc to create friction with the rotors. Brake pads are responsible for creating this friction. These pads are fitted to either side of the caliper. By putting your foot on the brake, the pressure stored in the brake fluid pushes the piston against the caliper. The caliper then squeezes the brake pads against the brake disc to restrict the ability of the wheel to move freely. The speed of the car slows down gradually when all four tires are restricted. Types of brake pads These are the three common types of brake pads: Organic brake pads Organic brake pads are made of non-asbestos based materials such as rubber, carbon compounds, glass, or fiberglass. These materials are bound together using resin which is much safer alternative to asbestos. Organic brake pads tend to produce less dust. It is also less expensive compared to other types of brake pads. However, because it is organic, it is easily worn out. It also creates moderate friction, making it only suitable for light vehicles. Ceramic brake pads These pads are made of materials similar to the ones used in pottery, only more dense and durable. Ceramic brake pads are equipped with fine copper fibers within that increase heat and friction. These pads are highly recommended because it produces less noise. and dust. It is similar to organic brake pads but is more expensive because of its high manufacturing cost. Ceramic brake pads are less likely to falter even during extreme weather conditions. Semi-metallic brake pads This type of pad is made of 30-70 percent metal which include copper, iron, steel, and composite alloy. These metals are combined with other fillers and graphite lubricants. Because metals are good conductors, this type of brake pad can withstand more heat. This gives the brake system a faster cool down time. Semi-metallic brake pads also have a very high braking performance, making it the number one choice for performance-driven drivers. One disadvantage in using this kind of brake pad is that it tends to produce more noise and brake dust compared to ceramic and organic brake pads. Types of brake discs Just like brake pads, brake discs also come in different types. A typical brake disc usually looks like a flat and smooth disc made of iron. Here are four common types of brake discs in terms of design: Flat disc Flat discs are the most common type of brake discs. These are efficient in terms of braking power because of its wide surface. This type of disc is usually ideal for smaller vehicles. Vented disc This type of look like two flat discs joined together with spokes in between. A gap between the two discs allows heat generated by the contact surfaces to escape freely. The only disadvantage of using this type of disc is its weight. Drilled disc A drilld disc is also vented for heat to pass through. Its weight is slightly reduced because of these holes, making it lighter compared to a vented disc. Slotted or grooved disc This type of brake disc is much more like the drilled disc. The grooves in this type of disc provide a way for heat, gas and other waste materials to pass through. A downside to this type of disc is that it makes noise when the grooves come in contact with the brake pads. Why is it important to have your brake discs and pads replaced regularly? Brake systems need to be well maintained. This will ensure the system’s best performance. Ideally, brake pads need to be replaced every 50,000-70,000 miles. Keep this in mind before you start looking into a brake pad or brake disc replacement. To get a more accurate estimate for your vehicle, you can consult your car’s user manual. If you notice that your brake system is already worn out, have it checked by a trusted mechanic immediately. Look for unusual signs like noise or sparks coming from the brakes. When choosing the right brake disc and pad kit for your vehicle, remember to take into consideration your driving habits, weather conditions of where you live. These factors can have a major effect on the durability of your brake discs and pads. What to consider when buying brake pads and discs The move to use the brake disc and pad kit over the older drum brake system turned out to be a beneficial to the automotive world. It allows a more precise stopping capability and faster cooling time. This makes your modern vehicle more manageable to drive on the road. Older cars are catching up as well. Owners would go for disc brake conversions to make their classics more roadworthy. Regardless of your vehicle, we believe that you should be able to pick the kit that suits your needs and environment. We lay down for you some guidelines on how to buy one. Are you keeping it stock or are you going for upgrades? If you are driving a modern car, then there is a high likelihood that you got front disc brakes already. You will have to consider whether or not you are keeping your brake set-up stock. Keeping the brakes stock is ideal when you have no other modifications done to the vehicle. But we advise that you go for an aftermarket upgrade if you have began to beef up the your ride with performance goodies. On the other hand, if you are going for a disc brake conversion, you will have to look for a suitable kit that will be able to handle the momentum of your vehicle. More than that, it should provide you a sense of improvement in handling and braking. The bottom line: you should be getting the kit that complies or even surpasses the required stopping power needed to match the engine output and weight of your vehicle. Going sub-par will only put you in harm's way. Find the kits that are designed to fit your vehicle. When shopping for the right kit for your vehicle, you should narrow down your selection to those that would fit your current set-up. That is unless you are willing to upgrade your wheels, spindles, suspension, and other components. You should make use of the vehicle manual and product catalogs to match the right application. Also, consider the environment and activities where your vehicle operates. Remember that the kits have different calipers, mounts, rotor diameter sizes, pad compound and finishes. Once you have sorted these things out, then you are good to go. How much does a brake and pad kit cost? A complete brake disc and pad kit would cost around $250- $500. This price may vary depending on the year, make, and model of your vehicle. These kits are often sold in 2-wheel and 4-wheel sets, but a lot of the parts in the kit can also be purchased individually. For example, a set of brake pads sold separately will cost around $30 each. How to install a brake disc and pad kit If you experience grinding, vibration, or hear squealing sounds whenever you step on the brakes, it’s time to check your braking system. Most probably, you’ll need to invest in a new brake disc and pad kit. Installing this kit is easy. Tools needed: Jack and jack stands Wrench, lug wrench, and socket Screwdriver Rubber mallet C-clamp or brake pad spreader Brake lubricant and brake part cleaner Sand paper or wire brush Step 1: Prepping up your vehicle Loosen the lug nuts but don’t remove them yet. Jack up the car, place jack stands underneath, and lower your ride until it lands on the stands. Then completely loosen the lug nuts to remove the wheel. Step 2: Removing old pads Depending on your car make and model, you might need to first remove the calipers and the attached hose. Then siphon out the brake fluid from the master cylinder. Remove the cap from the brake fluid reservoir and use a paper towel or rag to cover the reservoir and prevent contaminants from getting in. In order to access the pads, you need to press the pistons attached to the caliper out of the way. Depending on your vehicle make and model, you can use a C-clamp to push back the pistons or a screwdriver to screw them in and release the pads. Step 3: Removing old discs Using a rubber mallet or screw driver, loosen the rotor until you can slide it off from the lug studs. If the rotor is attached with a set screw, you’ll need an impact driver to remove it. Step 4: Installing the new discs Clean the new discs with a carb cleaner. Then attach them by reversing the removal method. Re-attach the pad bracket, calipers, and hose that you’ve removed previously. Tighten bolts with a socket, clean the caliber’s slide pins with a wire brush, and apply lubricant on the surfaces that’ll slide together. Step 5: Attaching the new pads Screw in or compress the caliper piston with a C-clamp. Make sure you’ve opened the bleeder screw before compressing to let the brake fluid come out. Attach the new pads into the bracket or caliper by using a flat screwdriver to pry open the bracket. Reattach the reassembled caliper onto the pad bracket. Reinstall the wheels and tighten the lug nuts. Take your car for a test drive and see if the brakes are working smoothly.
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