Are these long-fiber carbon ceramic rotors?

No. This product is built around short-fiber carbon ceramic rotor discs. It should not be described as a long-fiber carbon ceramic system.

Are these carbon ceramic rotors a direct replacement for my OEM iron rotors?

No. Carbon ceramic rotors are not a simple bolt-on swap for iron rotors. The rotor disc, hat offset, pad compound, caliper clamping behavior, and bedding process must be matched as a system, so fitment consultation is required before purchase.

What are the main benefits of short-fiber carbon ceramic rotors over iron?

Short-fiber carbon ceramic rotors reduce rotating and unsprung mass, improve high-temperature stability, and avoid iron-style surface rust. Actual performance and service life depend on pad compatibility, bedding quality, operating temperature, and use case.

Why do the rotors ship with specific pads?

Carbon ceramic friction surfaces require compatible pads to transfer material correctly and operate as intended. Running the wrong pad compound can damage the rotor surface, create poor friction behavior, or reduce braking performance.

Do I need a special bedding procedure?

Yes. Short-fiber carbon ceramic rotors and their matched pads require a controlled bedding process to establish the correct transfer layer on the friction face. Bedding guidance is supplied with the kit.

What is included in this package?

The package includes short-fiber carbon ceramic rotor discs, custom billet aluminum rotor hats, compatible ceramic-compound pads, and bedding guidance. Calipers, brake hoses, caliper brackets, brake fluid, and full BBK hardware are not included unless separately specified on the final order.

How do I confirm fitment and order?

Send your vehicle, current caliper, wheel details, intended use, and current brake setup through the contact page. TTSPORT will confirm whether a short-fiber carbon ceramic rotor package is suitable and scope the correct rotor, hat, and pad combination.

TTSPORT Carbon Ceramic Brake Rotor main product photo

TTSPORT Carbon Ceramic Brake Rotor brake rotor detail

碳陶瓷煞車轉子

Dhs. 14,237.00 AED; Dhs. 14,237.00 AED; (-0%)
Unit price: 每

制動盤尺寸: 聯繫我們了解可用尺寸和價格！聯繫我們了解可用尺寸和價格！

转子材料与设计: 穿孔穿孔

產品變體

數量：

小計: Dhs. 14,237.00

碳陶瓷煞車轉子

Dhs. 14,237.00

選擇選項

數量：

碳陶瓷煞車轉子

Dhs. 14,237.00

制動盤尺寸: 聯繫我們了解可用尺寸和價格！聯繫我們了解可用尺寸和價格！

转子材料与设计: 穿孔穿孔

產品變體

產品詳情
護理指南

短纖維碳陶瓷煞車盤套件 · 雙片式煞車盤包裝 · 需諮詢

TTSPORT短纖維碳陶瓷煞車盤套件

TTSPORT短纖維碳陶瓷煞車盤套件是一個配對軸套裝，圍繞短纖維碳陶瓷煞車盤、定制鋁合金煞車帽和相容的陶瓷複合材料煞車片設計。適用於需要較低轉動質量、高熱穩定性和可預測摩擦行為的駕駛者。

為何選擇短纖維碳陶瓷

較低的轉動和非簧質量： 碳陶瓷盤比同等鐵質轉子更輕，降低車輪慣性。
高熱穩定性： 摩擦面設計以抵抗持續高負荷使用時的熱性能下降。
穩定的摩擦行為： 匹配的陶瓷複合材料煞車片支持更受控的傳遞層和可重複的踏板反應。
降低腐蝕風險： 碳陶瓷材料不會像鑄鐵轉子那樣受到鐵鏽的影響。
使用情況決定使用壽命： 正確的磨合、相容的煞車片、操作溫度和駕駛環境決定實際使用壽命。

套件內容

短纖維碳陶瓷煞車盤

為低質量、熱穩定性和在反覆高能量制動下保持一致制動性能而設計的碳陶瓷摩擦盤。

定制鋁合金帽子

CNC加工的鋁合金帽子，尺寸符合目標車輛輪轂、卡鉗位置、轉子偏移和輪圈套件。

相容的陶瓷復合材料墊片

配套提供的匹配墊片，確保摩擦面材料正確轉移並正常運作。

預熱指南

記錄的預熱程序，用於建立正確的轉移層，確保正常使用前的準備。

本產品頁僅描述短纖維碳陶瓷轉子套件。卡鉗、煞車軟管、卡鉗支架、煞車液和完整大制動套件硬件不包括，除非在最終訂單中特別說明。

系統設計，而非僅為外觀更換

碳陶瓷煞車系統並非簡單的鐵質轉子替換。轉子材料、煞車片複合材料、卡鉗夾緊行為、轉子帽偏移和磨合程序必須協同工作。將短纖維碳陶瓷轉子與不相容的煞車片或不匹配的卡鉗混用，可能會損壞摩擦面並降低制動性能。

規格

短纖維碳陶瓷轉子套件
產品類型	碳陶瓷轉子套件 / 配對軸套裝
制動盤材質	短纖維碳陶瓷
轉子結構	雙片式組裝：碳陶瓷盤與鋁合金帽
轉子帽	定制鋁合金帽，根據應用需求設計
煞車片需求	配套提供相容的陶瓷複合材料煞車片
預熱程序	在正常使用前必須完成
適配方式	需諮詢；轉子、帽子、煞車片、卡鉗和輪圈套件必須匹配
除非特別說明，否則不包括	卡鉗、煞車軟管、卡鉗支架、煞車液和完整的BBK安裝硬件

轉子直徑、厚度、帽子偏移、螺栓圖案、煞車片複合材料和硬件樣式均為應用特定，並在適配諮詢中確認。

這是短纖維碳陶瓷轉子套件，不應描述為長纖維碳陶瓷盤或長纖維CCB系統。

設計與維修注意事項

短纖維碳陶瓷摩擦盤選用於低質量和高熱穩定性。
雙片式結構支持根據應用需求的帽子偏移和轉子定位。
鋁合金帽子支持在保持規格範圍內時進行定向維修。
當完整組裝正確匹配時，較低的轉子質量可以降低轉動慣性和非簧質量。
NVH行為取決於制動片化合物、預熱質量、卡鉗設置和車輛使用情況。
僅使用配套提供或經批准的制動片，適用於此短纖維碳陶瓷轉子套件。

購買前需諮詢

需要適配諮詢。 在訂購前，必須確認轉子盤、鋁帽、制動片化合物、卡鉗間隙、車輪間隙和預期用途。未經確認請勿購買。

車輛年份、品牌、型號、配置和軸位置
當前卡鉗型號和活塞佈局
當前轉子直徑、厚度和偏移（如有）
車輪直徑、寬度、偏移和輻條間隙
街道、賽道、山地、拖曳或混合用途需求
預期運行溫度範圍和駕駛環境

聯繫我們以規劃您的套件

床上用品與服務說明

在正常使用前，請遵循提供的床上用品程序。
在制動片和轉子盤正確進行預熱前，請勿進行激烈制動。
請勿將未知的制動片化合物與短纖維碳陶瓷盤混合使用。
在制動服務期間，檢查轉子面、制動片狀況、硬件和帽子接口。
根據測量磨損、表面狀況和TTSPORT指導，替換或維修零件。

常見問題

這些是長纖維碳陶瓷轉子嗎？

否。此產品採用短纖維碳陶瓷轉子盤構建，不應描述為長纖維碳陶瓷系統。

這些碳陶瓷轉子可以直接替換我的原廠鐵質轉子嗎？

否。碳陶瓷轉子並非簡單的螺栓更換鐵制轉子。轉子盤、帽子偏移、制動片化合物、卡鉗夾緊行為和預熱過程必須作為一個系統匹配，因此在購買前需要進行適配諮詢。

短纖維碳陶瓷轉子相較於鐵的主要優點是什麼？

短纖維碳陶瓷轉子減少旋轉和非簧質質量，提高高溫穩定性，並避免鐵式表面生鏽。實際性能和使用壽命取決於制動片相容性、預熱質量、運行溫度和使用案例。

為什麼轉子會配備特定的墊片？

碳陶瓷摩擦面需要配合相容的制動片，以正確傳遞材料並正常運作。使用不適合的制動片化合物可能會損壞轉子表面、產生不良的摩擦行為或降低制動性能。

我需要進行特殊的磨合程序嗎？

是的。短纖維碳陶瓷轉子及其配套制動片需要經過受控的預熱過程，以建立正確的轉移層於摩擦面。預熱指南隨套件提供。

此包裝包含哪些內容？

包裝包括短纖維碳陶瓷轉子盤、定制鋁合金轉子帽、相容的陶瓷化合物制動片和預熱指南。卡鉗、制動軟管、卡鉗支架、制動液和完整的BBK硬件不包括在內，除非在最終訂單中特別說明。

我如何確認適配性並下單？

請通過聯繫頁面提供您的車輛、當前卡鉗、車輪詳情、預期用途和當前制動設置。TTSPORT將確認短纖維碳陶瓷轉子套件是否適用，並範圍確定正確的轉子、帽子和制動片組合。

打造您的短纖維碳陶瓷套件

請提供您的車輛、當前卡鉗、車輪尺寸、車輪偏移、目標用途和當前制動設置。TTSPORT將確認短纖維碳陶瓷轉子套件是否合適，並範圍確定正確的轉子、帽子和制動片組合。

聯繫TTSPORT

Brake Rotors · Fitment · Installation · Bedding · Care Guide

Brake Rotor Care Guide

Brake rotors are not just round discs that bolt behind the wheel. Rotor diameter, thickness, offset, vane direction, surface pattern, material, coating, hat design, pad compound, and driving use all affect fitment and performance.

This guide explains how to choose, install, bed in, inspect, and care for TTSPORT brake rotors so the rotor and pad system works as intended.

1. Before Ordering: Confirm the Rotor Specification

Do not order rotors by appearance or diameter alone. Two rotors can look similar but use different offsets, hub registers, vane directions, bolt patterns, thicknesses, or hat designs.

Vehicle year, make, model, trim, market version, and chassis code if available
Front or rear axle position
Current rotor diameter, thickness, center bore, and bolt pattern if known
Current caliper model and brake pad shape if known
Wheel diameter, wheel offset, and spoke / barrel clearance if rotor size changes
Rotor construction: one-piece, two-piece, floating, fixed, iron, steel, or carbon ceramic
Driving use: daily street, mountain road, towing, HPDE, rally, track, drift, or competition

Brake rotors are application-specific. A wrong rotor offset or thickness can misalign the caliper, create pad overhang, cause vibration, or prevent wheel clearance.

2. Choose the Rotor Type by Use Case

The best rotor is the one matched to the vehicle and driving use. Surface pattern alone does not make a rotor better.

Plain / Smooth Rotors

Best for quiet daily use, low NVH, and smooth pad wear. A good choice for commuting and OE-style replacement.

Slotted Rotors

Designed to keep the pad interface active and help clear dust, gas, and water film. Expect more pad wear than a smooth street rotor.

Drilled Rotors

Often chosen for appearance and wet-weather surface clearing. For hard track use, confirm the rotor design is approved for sustained heat.

Two-Piece Rotors

Use a separate friction ring and rotor hat to reduce weight and allow ring replacement when the hat remains within service limits.

High-Carbon Iron Rotors

Used for better thermal stability and damping compared with basic gray-iron replacement rotors.

Carbon Ceramic Rotors

Require compatible pads, correct bedding, and strict fitment confirmation. Do not treat CCB rotors like standard iron rotors.

3. Before Installation: Inspect and Prepare

Rotor installation quality directly affects pedal feel, vibration, pad wear, and service life. A premium rotor installed on a dirty hub can still develop brake judder.

Inspect the new rotor for shipping damage, coating damage, cracks, burrs, or incorrect machining.
Confirm rotor diameter, thickness, center bore, bolt pattern, offset, and left / right orientation where applicable.
Clean the wheel hub mounting face until it is flat and free of rust, scale, dirt, paint buildup, and debris.
Clean the rotor mounting face and friction surfaces with brake cleaner where required.
Confirm wheel bearing condition and hub runout if vibration existed before the rotor replacement.
Use fresh or correctly prepared brake pads when installing new rotors.
Confirm caliper bracket, pad hardware, guide pins, pistons, and brake hoses are in safe working condition.

Safety: Do not install a rotor if the hub face is dirty, the rotor does not sit flat, the direction is unclear, or the caliper does not center correctly over the disc.

4. Installation Checks

Hub Face

The hub must be clean and flat. Rust or debris between the hub and rotor can create lateral runout and brake vibration.

Rotor Direction

Confirm left / right orientation if the rotor uses directional vanes, directional slots, directional drilling, or asymmetric cooling design.

Runout

Measure rotor runout if possible, especially on performance applications or vehicles with previous vibration complaints.

Pad Contact

Check that the pad sweeps correctly across the friction face and does not overhang the rotor edge or hat area.

Wheel Clearance

Confirm wheel spoke and barrel clearance after the rotor and caliper are installed. Rotor size changes can affect final caliper position.

Hardware

Torque wheel nuts, caliper bolts, bracket bolts, and two-piece rotor hardware to the required specification. Do not guess torque values.

5. Extra Checks for Two-Piece Rotors

Two-piece rotors need additional inspection because the friction ring, hat, and mounting hardware work together as a serviceable assembly.

Confirm friction ring diameter, thickness, vane direction, and bolt pattern before assembly.
Inspect rotor hats for cracks, fretting, corrosion, worn bolt holes, or damaged hub registers.
Use the correct bolts, nuts, washers, bobbins, or floating hardware specified for the rotor assembly.
Torque hat hardware in the required sequence and use the specified locking method.
Do not mix old and new hardware unless TTSPORT specifically allows it for that rotor design.
After the first heat cycle, inspect hardware security and ring-to-hat condition where required.

A two-piece rotor is not automatically floating. Floating behavior depends on the hat, friction ring, bobbins, fasteners, and assembly design.

6. Bedding and First Heat Cycle

Bedding is required for new rotors and pads. The goal is to create an even pad material transfer layer on the rotor surface and gradually heat-stabilize the rotor before full-load use.

Follow the bedding procedure supplied with the exact pad and rotor combination.
Start with controlled moderate stops unless the supplied procedure requires otherwise.
Do not begin with emergency stops on fresh rotors and pads.
Avoid coming to a full stop and holding the brake pedal while the pads and rotors are very hot.
Allow a cool-down period after bedding before parking the vehicle.
After bedding, inspect pedal feel, rotor surface, pad contact, abnormal vibration, and fluid leaks.

Street pads, race pads, carbon ceramic pads, iron rotors, two-piece rotors, and CCB rotors may require different bedding procedures. Use the supplied TTSPORT procedure for the specific system.

7. First 500–1,000 km (300–600 mi)

After the initial bedding cycle, give the rotor and pad pair time to settle. Avoid treating a fresh brake setup like a fully heat-cycled race system on day one.

Avoid repeated emergency stops unless required for safety.
Avoid dragging the brakes downhill for long periods.
Use progressive braking instead of sudden last-second pedal input.
Monitor for vibration, steering-wheel shake, grinding, or abnormal smell.
Recheck wheel torque and brake hardware where the installation procedure requires it.
Inspect rotor surface appearance after the first few drives.

8. On-Road Care

Do not shock hot rotors: after spirited driving, track use, towing, or mountain descents, do not spray hot rotors with cold water.
Do not hold the car on hot brakes: after heavy braking, avoid sitting still with heavy pedal pressure when possible.
Use engine braking on long descents: reduce continuous brake heat where appropriate and safe.
Watch surface rust: light surface rust after rain or washing is normal on iron rotors and usually clears during the first few stops.
Investigate pitting: deep rust pitting, heavy scoring, grooves, or material transfer patches should be inspected.

9. Routine Rotor Inspection

Rotors are wear items. Inspect them more often if the vehicle sees track use, mountain roads, towing, winter salt, off-road use, or aggressive pad compounds.

Measure rotor thickness and compare it with the minimum thickness specification.
Check both inner and outer friction faces for scoring, cracks, grooves, heat spots, and uneven deposits.
Inspect the outer edge for a large wear lip.
Check for vibration, pedal pulsing, or steering-wheel shake under braking.
Inspect drilled holes or slot ends for cracks where applicable.
Inspect two-piece rotor hats and hardware for loosening, fretting, corrosion, or damaged bolt holes.
Check pad wear at the same time; uneven pad wear can point to caliper or rotor alignment issues.

10. When to Replace Rotors

Rotor thickness is at or below the minimum specification.
Cracks are deep, growing, or extending from drilled holes, slots, or edges.
Severe scoring, pitting, or hot spots cannot be corrected safely.
Brake judder remains after proper bedding, pad inspection, and hub / runout checks.
The rotor has heavy corrosion on the friction face or vane structure.
The rotor hat, hardware, or mounting interface is damaged on a two-piece rotor.
The rotor has been overheated beyond the service limit for the compound and use case.

Do not run rotors below minimum thickness. Thin rotors have reduced heat capacity and can compromise braking safety.

11. Stop Driving If You Notice These Symptoms

Do not continue driving if the brake system shows any of the following symptoms. Inspect the system or contact a qualified brake technician before using the vehicle again.

Grinding, scraping, or metal-on-metal brake noise
Severe vibration, brake judder, or steering-wheel shake
Visible rotor cracks, missing material, or severe heat damage
Heavy scoring or grooves that appear suddenly
Vehicle pulling strongly to one side under braking
Soft pedal, sinking pedal, or sudden increase in stopping distance
Loose rotor, caliper, bracket, rotor hat, or hardware noise

Need help choosing or caring for brake rotors?

Send your vehicle details, current rotor size, caliper model, wheel specs, pad compound, driving use, and any symptoms you notice. TTSPORT will help confirm the correct rotor type and care path for your setup.