• Front Inner CV-Joint (left/Right) for AUDI A1, A3 I, A3 II, A3 III, Q3, RS3, S3, TT, VOLKSWAGEN Golf, Jetta, New Beetle, Passat, Polo IV, Tiguan – 2311-5021/2Q0 498 104 X- (B00HAP9LEO)

    CV-joints, also known as constant velocity joints, are essential components in a vehicle’s drivetrain system. They are responsible for transferring power from the transmission to the wheels while allowing for smooth and flexible rotation at various angles. 

    Compatibility: CV-joints are designed to fit specific vehicle makes and models. It is crucial to ensure compatibility with your vehicle before purchasing a CV-joint to ensure proper fitment and functionality.

    Purpose: The primary purpose of CV-joints is to provide a flexible connection between the transmission and the wheels. They allow the wheels to maintain a constant velocity while accommodating the up-and-down motion of the suspension system. This flexibility is necessary for smooth and efficient power transfer, especially during turns and uneven road surfaces.

    Benefits:

    1. Flexibility and Range of Motion: CV-joints allow the wheels to turn at different angles while maintaining a constant velocity. This flexibility ensures smooth and efficient power transfer, resulting in improved handling and maneuverability.

    2. Reduced Vibrations: CV-joints are designed to absorb and dampen vibrations generated by the drivetrain. By minimizing vibrations, they contribute to a smoother and more comfortable driving experience.

    3. Enhanced Durability: High-quality CV-joints are built to withstand the demands of daily driving. They are designed to handle the stresses and forces exerted during acceleration, braking, and turning, ensuring long-lasting performance and reliability.

    4. Improved Fuel Efficiency: By maintaining a constant velocity and minimizing power loss, CV-joints contribute to improved fuel efficiency. They help optimize the transfer of power from the engine to the wheels, resulting in better fuel consumption.

    5. Reduced Maintenance: Properly functioning CV-joints require less maintenance compared to worn-out or damaged ones. Regular inspection and maintenance of CV-joints can help prevent costly repairs and ensure the longevity of the drivetrain system.

    When considering purchasing CV-joints, it is essential to consult your vehicle’s manufacturer specifications and seek professional advice to ensure compatibility and proper installation. Additionally, selecting high-quality CV-joints from reputable sources will help ensure optimal performance and longevity.

  • Front Right Lower Ball Joint for AUDI A1 – 1.40 L, (10~ 18); VOLKSWAGEN Polo GTI, Polo IV, Voyage, SKODA Roomster, Fabia; SEAT Cordoba II, Ibiza III- 2320-9N5FR/6RF 407 366- (B00HAPBB6K)

    A ball joint is a crucial component in a vehicle’s suspension system. It connects the control arm to the steering knuckle, allowing for smooth and controlled movement of the wheels.  A ball joint is typically sold as an individual part or as part of a suspension kit.

    The purpose of a ball joint is to provide flexibility and articulation in the suspension system, allowing the wheels to move up and down while maintaining proper alignment. This enables the vehicle to navigate bumps, potholes, and uneven road surfaces more effectively, providing a comfortable and stable ride.

    Benefits of using genuine ball joints include:

    1. Quality and Reliability: Genuine ball joints are manufactured to meet the specifications and standards set by the original equipment manufacturer (OEM). They are designed to withstand the demands of daily driving and provide long-lasting performance. Using genuine ball joints ensures that you are getting a high-quality product that is reliable and durable.

    2. Optimal Performance: Genuine ball joints are engineered to fit seamlessly into the suspension system of specific vehicle makes and models. They are designed to provide the correct range of motion and articulation, ensuring optimal performance and handling. Using genuine ball joints helps maintain the vehicle’s intended suspension geometry, resulting in better control and stability.

    3. Safety: Ball joints play a critical role in maintaining the integrity of the suspension system. Genuine ball joints are designed to withstand the forces and stresses encountered during driving, ensuring safe and predictable handling. Using genuine ball joints helps minimize the risk of premature failure or separation, which can lead to loss of control and potential accidents.

    4. Warranty Coverage: Genuine ball joints often come with warranty coverage from the manufacturer. This provides added peace of mind, as any potential defects or issues with the ball joint can be addressed through the warranty process.

    Compatibility is an essential consideration when purchasing ball joints through e-commerce platforms. It is crucial to ensure that the ball joint is compatible with your specific vehicle make, model, and year. This information is typically provided in the product description or specifications. Using an incompatible ball joint can lead to improper fitment, compromised performance, and potential safety hazards. It is recommended to consult your vehicle’s manual or seek professional advice to ensure compatibility before making a purchase.

  • Front Left Lower Ball Joint for AUDI A1 – 1.40 L, (10~ 18); VOLKSWAGEN Polo GTI, Polo IV, Voyage, SKODA Roomster, Fabia; SEAT Cordoba II, Ibiza III – 2320-9N5FL/6R0 407 365- (B00HAPB9SA)

    A ball joint is a crucial component in a vehicle’s suspension system. It connects the control arm to the steering knuckle, allowing for smooth and controlled movement of the wheels.  A ball joint is typically sold as an individual part or as part of a suspension kit.

    The purpose of a ball joint is to provide flexibility and articulation in the suspension system, allowing the wheels to move up and down while maintaining proper alignment. This enables the vehicle to navigate bumps, potholes, and uneven road surfaces more effectively, providing a comfortable and stable ride.

    Benefits of using genuine ball joints include:

    1. Quality and Reliability: Genuine ball joints are manufactured to meet the specifications and standards set by the original equipment manufacturer (OEM). They are designed to withstand the demands of daily driving and provide long-lasting performance. Using genuine ball joints ensures that you are getting a high-quality product that is reliable and durable.

    2. Optimal Performance: Genuine ball joints are engineered to fit seamlessly into the suspension system of specific vehicle makes and models. They are designed to provide the correct range of motion and articulation, ensuring optimal performance and handling. Using genuine ball joints helps maintain the vehicle’s intended suspension geometry, resulting in better control and stability.

    3. Safety: Ball joints play a critical role in maintaining the integrity of the suspension system. Genuine ball joints are designed to withstand the forces and stresses encountered during driving, ensuring safe and predictable handling. Using genuine ball joints helps minimize the risk of premature failure or separation, which can lead to loss of control and potential accidents.

    4. Warranty Coverage: Genuine ball joints often come with warranty coverage from the manufacturer. This provides added peace of mind, as any potential defects or issues with the ball joint can be addressed through the warranty process.

    Compatibility is an essential consideration when purchasing ball joints through e-commerce platforms. It is crucial to ensure that the ball joint is compatible with your specific vehicle make, model, and year. This information is typically provided in the product description or specifications. Using an incompatible ball joint can lead to improper fitment, compromised performance, and potential safety hazards. It is recommended to consult your vehicle’s manual or seek professional advice to ensure compatibility before making a purchase.

  • Front Left lower Arm for AUDI A1, VOLKSWAGEN Cross Polo, VOLKSWAGEN Polo GTI, VOLKSWAGEN Polo V, SEAT Ibiza FR, SEAT Toledo IV, SKODA Rapid, SKODA Fabia – 6R0 407 151 A/ 6R0407151A. (B00DZFC6T0)

    The lower arm, also known as the control arm or wishbone, is a vital component of a vehicle’s suspension system. It plays a crucial role in connecting the chassis to the wheel hub, allowing for controlled movement and maintaining proper alignment. Here is a description of the lower arm, its purpose, specifications, variety, benefits, and the importance of using genuine parts:

    Description: The lower arm is a sturdy, metal component that resembles a triangular or wishbone shape. It is typically made of forged or cast aluminum or steel, ensuring strength and durability. The lower arm is equipped with bushings or ball joints at its connection points, allowing for smooth and controlled movement.

    Purpose: The primary purpose of the lower arm is to provide support and control the vertical movement of the suspension system. It helps to absorb shocks and vibrations from the road, ensuring a comfortable and stable ride. Additionally, it assists in maintaining proper wheel alignment, tire contact with the road surface, and steering responsiveness.

    Specifications: Lower arms are designed to meet specific vehicle requirements, including dimensions, mounting points, and load-bearing capacity. These specifications vary depending on the make, model, and year of the vehicle. It is crucial to select the correct lower arm that matches the vehicle’s specifications to ensure proper fitment and performance.

    Variety: Lower arms are available in various designs and configurations to accommodate different suspension systems and vehicle types. Some vehicles may have a single lower arm per wheel, while others may have multiple arms or complex multi-link setups. The variety ensures compatibility with different suspension geometries and vehicle designs.

    Benefits: Using a high-quality lower arm offers several benefits, including:

    1. Improved Handling and Stability: A properly functioning lower arm helps maintain proper wheel alignment, resulting in improved handling, stability, and control of the vehicle.

    2. Enhanced Comfort: The lower arm’s ability to absorb shocks and vibrations contributes to a smoother and more comfortable ride for the occupants.

    3. Extended Tire Life: By maintaining proper wheel alignment, the lower arm helps prevent uneven tire wear, extending the lifespan of the tires.

    Importance of Genuine Parts: It is crucial to use genuine lower arms and other original equipment manufacturer (OEM) parts for several reasons:

    1. Quality and Reliability: Genuine parts are manufactured to meet the highest quality standards and specifications set by the vehicle manufacturer. They are designed to fit and function seamlessly, ensuring optimal performance and reliability.

    2. Warranty Coverage: Genuine parts often come with warranty coverage, providing assurance and protection against defects or failures.

    3. Compatibility and Safety: Genuine parts are specifically engineered for the vehicle’s make and model, ensuring proper fitment and compatibility. This helps maintain the vehicle’s safety standards and reduces the risk of accidents or malfunctions.

    4. Longevity and Resale Value: Genuine parts are built to last, offering durability and longevity. Using genuine parts can help preserve the vehicle’s resale value and ensure its long-term reliability.

    In conclusion, the lower arm is a critical component of a vehicle’s suspension system, providing support, control, and alignment. Using genuine lower arms and other OEM parts is essential for optimal performance, safety, and longevity of the vehicle.

  • Front Right lower Arm for AUDI A1, VOLKSWAGEN Cross Polo, VOLKSWAGEN Polo GTI, VOLKSWAGEN Polo V, SEAT Ibiza FR, SEAT Toledo IV, SKODA Rapid, SKODA Fabia – 6R0 407 151 A/ 6R0407151A. (B00DZFC6T0)

    The lower arm, also known as the control arm or wishbone, is a vital component of a vehicle’s suspension system. It plays a crucial role in connecting the chassis to the wheel hub, allowing for controlled movement and maintaining proper alignment. Here is a description of the lower arm, its purpose, specifications, variety, benefits, and the importance of using genuine parts:

    Description: The lower arm is a sturdy, metal component that resembles a triangular or wishbone shape. It is typically made of forged or cast aluminum or steel, ensuring strength and durability. The lower arm is equipped with bushings or ball joints at its connection points, allowing for smooth and controlled movement.

    Purpose: The primary purpose of the lower arm is to provide support and control the vertical movement of the suspension system. It helps to absorb shocks and vibrations from the road, ensuring a comfortable and stable ride. Additionally, it assists in maintaining proper wheel alignment, tire contact with the road surface, and steering responsiveness.

    Specifications: Lower arms are designed to meet specific vehicle requirements, including dimensions, mounting points, and load-bearing capacity. These specifications vary depending on the make, model, and year of the vehicle. It is crucial to select the correct lower arm that matches the vehicle’s specifications to ensure proper fitment and performance.

    Variety: Lower arms are available in various designs and configurations to accommodate different suspension systems and vehicle types. Some vehicles may have a single lower arm per wheel, while others may have multiple arms or complex multi-link setups. The variety ensures compatibility with different suspension geometries and vehicle designs.

    Benefits: Using a high-quality lower arm offers several benefits, including:

    1. Improved Handling and Stability: A properly functioning lower arm helps maintain proper wheel alignment, resulting in improved handling, stability, and control of the vehicle.

    2. Enhanced Comfort: The lower arm’s ability to absorb shocks and vibrations contributes to a smoother and more comfortable ride for the occupants.

    3. Extended Tire Life: By maintaining proper wheel alignment, the lower arm helps prevent uneven tire wear, extending the lifespan of the tires.

    Importance of Genuine Parts: It is crucial to use genuine lower arms and other original equipment manufacturer (OEM) parts for several reasons:

    1. Quality and Reliability: Genuine parts are manufactured to meet the highest quality standards and specifications set by the vehicle manufacturer. They are designed to fit and function seamlessly, ensuring optimal performance and reliability.

    2. Warranty Coverage: Genuine parts often come with warranty coverage, providing assurance and protection against defects or failures.

    3. Compatibility and Safety: Genuine parts are specifically engineered for the vehicle’s make and model, ensuring proper fitment and compatibility. This helps maintain the vehicle’s safety standards and reduces the risk of accidents or malfunctions.

    4. Longevity and Resale Value: Genuine parts are built to last, offering durability and longevity. Using genuine parts can help preserve the vehicle’s resale value and ensure its long-term reliability.

    In conclusion, the lower arm is a critical component of a vehicle’s suspension system, providing support, control, and alignment. Using genuine lower arms and other OEM parts is essential for optimal performance, safety, and longevity of the vehicle.

  • Front Brake Pads For TOYOTA Belta, Allion, Corolla Axio, Passo, Porte/Spade, Probox, Spade, Vios, Vitz, Yaris, Yaris (USA), LIFAN Lifan X50, PERODUA Alza – (PN1508/MS-1508)

    Ceramic brake pads are composed of a mix of ceramic fibers, non-ferrous filler materials, and a binding resin. They are engineered to withstand high temperatures generated during braking and provide reliable stopping power.

    Advantages:

    1. Performance: Ceramic brake pads offer excellent stopping power, providing consistent and smooth braking performance across a wide range of temperatures.
    2. Durability: They are known for their longevity, as ceramic compounds tend to wear down brake rotors less compared to other materials like semi-metallic pads. This leads to reduced rotor wear and potentially longer brake pad lifespan.
    3. Low Noise: Ceramic brake pads typically produce less noise during braking compared to metallic counterparts. This can enhance driving comfort and reduce brake squeal.
    4. Less Dust: Ceramic pads generate less brake dust compared to semi-metallic pads. This can help in maintaining cleaner wheels and reduce the need for frequent cleaning.
    5. Resistance to Fade: They have good thermal stability, meaning they are less prone to brake fade, a phenomenon where braking efficiency decreases due to overheating during prolonged or aggressive braking.

    Purpose of Use:
    Ceramic brake pads are widely used in various automotive applications, from daily commuting vehicles to high-performance sports cars. They are particularly favored in situations where low noise, minimal dust, and consistent braking performance are desired. Additionally, their resistance to fade makes them suitable for heavy-duty or high-temperature braking situations, such as towing or driving in mountainous terrain. Overall, ceramic brake pads offer a balanced combination of performance, durability, and comfort for a wide range of driving conditions.

    Specifications
    Type
    BRAKE PADS
    Location
    Front Axle Brake
    Position
    Left/Right
    Length-1
    122.7
    Pcs In Set
    4
    Thickness-1
    17
    Width-1
    49
  • Brake Shoes For TOYOTA Allion, Aqua, Comfort, Corolla, Corolla Altis, Corolla Axio, Corolla Axio/Fielder, Corolla Fielder, Ist, JPN TAXI, Passo, Porte/Spade, Prius C, Probox, Ractis, Scion IQ EV, Scion XD, Spade, Verso-S, Vitz, Wish, Yaris, SUBARU Trezia, PERODUA Alza, MITSUOKA NOUERA 6-02, DAIHATSU Boon Luminas – (FN2389/MK-2389)

    Ceramic brake shoes are composed of a ceramic friction material bonded to a metal backing plate. The ceramic friction material is typically made of finely ground ceramic fibers mixed with other reinforcing materials and bonded together with a resin. This composition provides excellent heat resistance, friction characteristics, and durability, making ceramic brake shoes a popular choice for drum brake systems.

    Placement:
    Ceramic brake shoes are installed inside the drum brake assembly, which is typically mounted on the rear wheels of many vehicles. Inside the drum, the brake shoes are positioned on either side of the brake drum, with one end of each shoe attached to the wheel cylinder and the other end connected to the brake anchor or backing plate. When hydraulic pressure is applied to the wheel cylinder, it forces the brake shoes to press against the inner surface of the brake drum, generating friction and slowing down the vehicle.

    Advantages:

    1. Excellent Heat Resistance: Ceramic brake shoes have superior heat resistance compared to organic or semi-metallic brake shoes, making them less prone to brake fade and performance degradation under high-temperature conditions.
    2. Consistent Performance: They offer consistent braking performance across a wide range of operating temperatures, providing reliable stopping power and predictable brake pedal feel.
    3. Low Noise and Dust: Ceramic brake shoes produce minimal noise and brake dust during operation, contributing to a quieter and cleaner braking experience.
    4. Longevity: Due to their durable construction and wear-resistant properties, ceramic brake shoes typically have a longer service life compared to other types of brake shoes, reducing the frequency of replacement intervals.
    5. Gentle on Brake Drums: The ceramic friction material is less abrasive than metallic counterparts, resulting in reduced wear on the brake drum surfaces and potentially extending the lifespan of the brake drum assembly.

    Reasons for Using Genuine Parts:

    1. Quality Assurance: Genuine ceramic brake shoes are manufactured to meet the exact specifications and quality standards set by the vehicle manufacturer, ensuring compatibility, reliability, and optimal performance.
    2. Fit and Compatibility: Genuine parts are designed to fit seamlessly into the specific drum brake assembly of the vehicle without the need for modifications or adjustments, reducing the risk of installation errors and compatibility issues.
    3. Warranty Coverage: Using genuine parts may come with warranty coverage provided by the vehicle manufacturer or authorized dealers, offering protection against defects and malfunctions for a specified period.
    4. Maintaining Performance: Genuine parts are engineered to deliver the intended braking performance and safety standards of the vehicle, ensuring proper operation and peace of mind for the driver and passengers.
    5. Preserving Resale Value: Equipping the vehicle with genuine parts, including ceramic brake shoes, helps maintain its originality, performance, and reliability, which can positively impact its resale value over time.

    In summary, ceramic brake shoes offer several advantages over other types of brake shoes, and using genuine parts ensures optimal performance, compatibility, and reliability for the vehicle’s braking system.

    Specifications
    Type
    BRAKE SHOE
    Location
    Rear Axle Brake
    Position
    Left/Right
    Pcs In Set
    4
    Radius
    114
    Thickness
    5.2 / 7.2
    Width
    35
  • Front Brake Pads For LEXUS GS200T, GS250, GS300, GS300H, GS350, GS430, GS450H, GS460, IS200t, IS250/300, IS300, IS300C, IS300H, IS350,IS350C, RC200t, RC300, RC300h, RC350, TOYOTA Crown, Crown (CHINA), Crown Athlete, Crown Majesta, Mark X – (PN1547/MS-1547)

    Ceramic brake pads are composed of a mix of ceramic fibers, non-ferrous filler materials, and a binding resin. They are engineered to withstand high temperatures generated during braking and provide reliable stopping power.

    Advantages:

    1. Performance: Ceramic brake pads offer excellent stopping power, providing consistent and smooth braking performance across a wide range of temperatures.
    2. Durability: They are known for their longevity, as ceramic compounds tend to wear down brake rotors less compared to other materials like semi-metallic pads. This leads to reduced rotor wear and potentially longer brake pad lifespan.
    3. Low Noise: Ceramic brake pads typically produce less noise during braking compared to metallic counterparts. This can enhance driving comfort and reduce brake squeal.
    4. Less Dust: Ceramic pads generate less brake dust compared to semi-metallic pads. This can help in maintaining cleaner wheels and reduce the need for frequent cleaning.
    5. Resistance to Fade: They have good thermal stability, meaning they are less prone to brake fade, a phenomenon where braking efficiency decreases due to overheating during prolonged or aggressive braking.

    Purpose of Use:
    Ceramic brake pads are widely used in various automotive applications, from daily commuting vehicles to high-performance sports cars. They are particularly favored in situations where low noise, minimal dust, and consistent braking performance are desired. Additionally, their resistance to fade makes them suitable for heavy-duty or high-temperature braking situations, such as towing or driving in mountainous terrain. Overall, ceramic brake pads offer a balanced combination of performance, durability, and comfort for a wide range of driving conditions.

    Specifications
    Type
    BRAKE PADS
    Location
    Front Axle Brake
    Length-1
    118.6
    Pcs In Set
    4
    Thickness-1
    17.3
    Width-1
    77.5
  • Front Brake Pads For LEXUS ES300, ES330, GS300, IS250, IS250/300, IS250C, TOYOTA Camry, Crown, Crown Athlete, Crown Majesta, Crown Royal Saloon, Isis, Mark X, Solara coupe (USA), Windom, Wish, Yaris/Vios/Limo – (PN1479/MS1479)

    Ceramic brake pads are composed of a mix of ceramic fibers, non-ferrous filler materials, and a binding resin. They are engineered to withstand high temperatures generated during braking and provide reliable stopping power.

    Advantages:

    1. Performance: Ceramic brake pads offer excellent stopping power, providing consistent and smooth braking performance across a wide range of temperatures.
    2. Durability: They are known for their longevity, as ceramic compounds tend to wear down brake rotors less compared to other materials like semi-metallic pads. This leads to reduced rotor wear and potentially longer brake pad lifespan.
    3. Low Noise: Ceramic brake pads typically produce less noise during braking compared to metallic counterparts. This can enhance driving comfort and reduce brake squeal.
    4. Less Dust: Ceramic pads generate less brake dust compared to semi-metallic pads. This can help in maintaining cleaner wheels and reduce the need for frequent cleaning.
    5. Resistance to Fade: They have good thermal stability, meaning they are less prone to brake fade, a phenomenon where braking efficiency decreases due to overheating during prolonged or aggressive braking.

    Purpose of Use:
    Ceramic brake pads are widely used in various automotive applications, from daily commuting vehicles to high-performance sports cars. They are particularly favored in situations where low noise, minimal dust, and consistent braking performance are desired. Additionally, their resistance to fade makes them suitable for heavy-duty or high-temperature braking situations, such as towing or driving in mountainous terrain. Overall, ceramic brake pads offer a balanced combination of performance, durability, and comfort for a wide range of driving conditions.

    Specifications
    Type
    BRAKE PADS
    Location
    Front Axle Brake
    Length-1
    131.6
    Pcs In Set
    4
    Thickness-1
    17.3
    Width-1
    58.5
  • Rear Brake Pads For TOYOTA Auris, Belta, Blade, Corolla, Corolla Altis, Corolla Axio, Corolla Rumion,Corolla Sport, Matrix, Prius, Ractis, Scion IM, Urban Cruiser, Verso-S, Vios, Vitz, Yaris, Zelas,HAVAL H1, Great Wall Motors Hover M4, Tengyi, JAC Refine, S2, S3, LEXUS CT200h, PONTIAC (GM) VIBE II, SUBARU Trezia- (PN1519/MS-1519)

    Ceramic brake pads are composed of a mix of ceramic fibers, non-ferrous filler materials, and a binding resin. They are engineered to withstand high temperatures generated during braking and provide reliable stopping power.

    Advantages:

    1. Performance: Ceramic brake pads offer excellent stopping power, providing consistent and smooth braking performance across a wide range of temperatures.
    2. Durability: They are known for their longevity, as ceramic compounds tend to wear down brake rotors less compared to other materials like semi-metallic pads. This leads to reduced rotor wear and potentially longer brake pad lifespan.
    3. Low Noise: Ceramic brake pads typically produce less noise during braking compared to metallic counterparts. This can enhance driving comfort and reduce brake squeal.
    4. Less Dust: Ceramic pads generate less brake dust compared to semi-metallic pads. This can help in maintaining cleaner wheels and reduce the need for frequent cleaning.
    5. Resistance to Fade: They have good thermal stability, meaning they are less prone to brake fade, a phenomenon where braking efficiency decreases due to overheating during prolonged or aggressive braking.

    Purpose of Use:
    Ceramic brake pads are widely used in various automotive applications, from daily commuting vehicles to high-performance sports cars. They are particularly favored in situations where low noise, minimal dust, and consistent braking performance are desired. Additionally, their resistance to fade makes them suitable for heavy-duty or high-temperature braking situations, such as towing or driving in mountainous terrain. Overall, ceramic brake pads offer a balanced combination of performance, durability, and comfort for a wide range of driving conditions.

    Specifications
    Type
    BRAKE PADS
    Location
    Rear Axle Brake
    Length-1
    98.5
    Length-2
    98.5
    Pcs In Set
    4
    Thickness-1
    14.3
    Thickness-2
    14.3
    Width-1
    42.5
    Width-2
    42.5

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