All categories
Featured selections
Trade Assurance
Buyer Central
Help Center
Get the app
Become a supplier
  • GPU HeatSink With Two Fan Replacement for Retrofit Quadro RTX A4000 Graphics Card Cooler Heat Sink
  • GPU HeatSink With Two Fan Replacement for Retrofit Quadro RTX A4000 Graphics Card Cooler Heat Sink
  • GPU HeatSink With Two Fan Replacement for Retrofit Quadro RTX A4000 Graphics Card Cooler Heat Sink
GPU HeatSink With Two Fan Replacement for Retrofit Quadro RTX A4000 Graphics Card Cooler Heat Sink
Ready to Ship
In stock Fast dispatch

GPU HeatSink With Two Fan Replacement for Retrofit Quadro RTX A4000 Graphics Card Cooler Heat Sink

  • >= 1 Pieces
    $48.88

Customization:

Customized logo(Min.Order: 1000 pieces)
Customized packaging(Min.Order: 1000 pieces)

GPU HeatSink With Two Fan Replacement for Retrofit Quadro RTX A4000 Graphics Card Cooler Heat Sink

Product overview

Core functionalities

Applicable scenarios

Unique advantages

  • High-Performance Cooling: Dual 80mm fans (30CFM airflow) paired with a copper-and-aluminum heatsink deliver efficient thermal management for NVIDIA Quadro RTX A4000 GPUs under heavy workloads.
  • Retrofit Compatibility: Designed as a direct replacement cooler for existing A4000 graphics cards, ensuring seamless integration into legacy systems.

Key features

  • 1. Advanced Material Technology

  • With a copper-and-aluminum hybrid heatsink, you can achieve superior heat dissipation compared to all-aluminum solutions*, ensuring optimal GPU performance in high-demand scenarios.

  • 2. Retrofit-Friendly Design

  • With a retrofit design tailored for the Quadro RTX A4000, you can easily upgrade existing systems without full replacement*, simplifying maintenance and extending hardware lifespan.

  • 3. High-Performance Cooling System

  • With 30CFM airflow and 3000 RPM fans (powered by fluid bearings), you can maintain stable temperatures even during intensive GPU workloads*, outperforming standard cooling solutions.

  • 4. Professional-Grade Reliability

  • Designed for professional workstations, this cooler ensures uninterrupted operation for tasks like 3D rendering and animation*, with a 50,000-hour fan lifespan for long-term durability.

  • 5. Energy-Efficient Operation

  • With 3W power consumption and adaptive 4-pin fan control, you can reduce energy costs while maintaining peak cooling efficiency*, balancing performance and sustainability.

Product details

GPU HeatSink With Two Fan Replacement for Retrofit Quadro RTX A4000 Graphics Card Cooler Heat Sink

The GPU HeatSink With Two Fan Replacement is a high-performance cooling solution designed to retrofit NVIDIA Quadro RTX A4000 graphics cards. Engineered with a dual-fan system and hybrid copper-aluminum heatsink, this cooler ensures optimal thermal management for professional workloads like 3D rendering, AI computing, and scientific simulations.

Technical specifications

FeatureSpecificationBenefit
Heatsink MaterialCopper & AluminumEnhanced thermal conductivity and durability
Fan Size80x80x25mmOptimized airflow for GPU cooling
Air Volume30CFMEfficient heat dissipation under load
Fan BearingFluid Dynamic BearingProlonged operational life with minimal noise
Fan Speed Control3000 RPM (PWM adjustable)Adjustable cooling performance
Power Consumption3WEnergy-efficient operation
Connection Type4-Pin PWMCompatible with advanced motherboard controls

Customization guide

Adjustable fan speed settings (via PWM) allow users to balance noise levels and cooling performance. The modular design supports retrofitting into existing workstations, while the hybrid copper-aluminum heatsink can be customized for specific thermal conductivity requirements.

Get inspired

Maximize your Quadro RTX A4000’s potential with this dual-fan cooler. Whether you’re rendering 4K videos or running AI algorithms, its robust cooling ensures stable performance even during prolonged workloads.

Choose your model

ParameterBase ModelAdvanced ModelPro Model
Airflow (CFM)30CFM+15% (34.5CFM)+30% (39CFM)*
Fan RPM3000 RPM3450 RPM3900 RPM
Heatsink MaterialAluminumCopper + AluminumPure Copper
Power Efficiency3W3W (10% quieter)3.5W (20% faster airflow)

Supplier's note

  1. Technical Breakthroughs:

    • Hybrid Copper-Aluminum Heatsink: Combines copper’s thermal conductivity with aluminum’s structural rigidity, outperforming single-material designs by 20% in heat dissipation.
    • Fluid Dynamic Bearings: Extend fan lifespan to 50,000 hours, eliminating frequent replacements.
    • Dual-Fan Synchronization: Reduces hotspots by 30% compared to single-fan solutions.
  2. Version Selection Guide:

    • Base Model: Ideal for standard workloads (e.g., 2D editing) where cost efficiency is prioritized.
    • Advanced Model: Perfect for professionals needing balanced cooling and noise control (e.g., animation studios).
    • Pro Model: Required for high-intensity tasks like real-time ray tracing or scientific simulations, where its pure copper heatsink and 39CFM airflow ensure peak GPU stability.

With fluid dynamic bearings, you can ensure years of maintenance-free operation. The Pro version’s 39CFM airflow—30% higher than industry standards—enables safe handling of 7x24 rendering tasks, while its copper core maintains temperatures 15°C lower than aluminum-only designs. Pair this with PWM control for seamless integration into high-end workstations.

Frequently asked questions

  • Which GPU cooler suits small studios needing quiet, high-performance cooling for NVIDIA RTX A4000?

  • How do I clean the fans of the RTX A4000 heatsink replacement to prevent dust buildup?

  • Copper vs Aluminum in GPU heatsinks: Which material combo is best for the RTX A4000?

  • Can this cooler be customized for non-standard GPU configurations?

  • Is the RTX A4000 heatsink compatible with industrial-grade workstations?

  • What makes this cooler better than standard GPU fans for retrofitting?

  • Can I adjust fan speed manually for the RTX A4000 heatsink?

  • Does this heatsink meet industrial durability standards for professional GPUs?

Product comparison

CategoryUsage ScenariosCharacteristicsAdvantagesDisadvantages
Airflow PerformanceHigh-Load GPU Workloads (3D Rendering)30 CFM (Industry: 25 CFM) ▲
Advanced: 35 CFM (ISO 1117-1 certified)
▲ Base: 20% higher cooling capacity ▲
Advanced: 40% cooler under load
Higher airflow may increase noise (43 dBA vs. 38 dBA standard)
Bearing TypeLong-Running ServersFluid Dynamic Bearing (FDB) ▲
(50% less friction vs sleeve bearings)
▲ Base: 50,000-hour lifespan ▲
Advanced: 70,000-hour lifespan (MTBF certified)
Higher cost due to premium bearing technology
Heat DissipationOverclocked GPU UseCopper Core + Aluminum Fins ▲
(Thermal Conductivity: 380 W/mK)
▲ Base: 15% faster heat dissipation ▲
Advanced: 25% lower GPU temps
Requires larger chassis space for copper-aluminum hybrid design
Fan Speed ControlSilent Office Workstations3000 RPM (PWM Adjustable) ▲
Advanced: 3500 RPM (smart throttling)
▲ Base: 30% quieter at idle (35 dBA) ▲
Advanced: Adaptive noise reduction
Higher RPM may reduce fan lifespan under constant max load
Material DurabilityIndustrial Environments6061-T6 Aluminum Frame ▲
(Salt Spray Test: 500+ hours per ASTM B117)
▲ Base: 3x corrosion resistance ▲
Advanced: Military-grade anodizing
Heavier than plastic alternatives (800g vs 600g standard)
Power EfficiencyEnergy-Conscious Data Centers3W Fan Power ▲
(85% efficiency via 4-pin PWM control)
▲ Base: 20% lower TDP ▲
Advanced: 30% energy savings (80 PLUS Gold)
Requires compatible PSU for advanced power management features

Related searches

The Product Description is generated by third-party, and Alibaba.com is not liable for any risks related to inaccuracies or the infringement of third-party rights.

The information in this Product Description may differ from the details on the product listing page on Alibaba.com. Additionally, the contents may not be updated in real-time with the product listing page on Alibaba.com, and there may be delays in reflecting the most updated information. The description on product listing page takes precedence. You shall not rely on this Product Description in making transaction decisions.

The comparison data is based on manufacturer information and industry standards. Actual results may vary depending on individual use cases. It is advisable to verify details with the supplier for the most accurate information.