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  • Exhaust System Ceramic Honeycomb Monolith DPF Filters diesel Particulate Filter Catalytic Converter
  • Exhaust System Ceramic Honeycomb Monolith DPF Filters diesel Particulate Filter Catalytic Converter
  • Exhaust System Ceramic Honeycomb Monolith DPF Filters diesel Particulate Filter Catalytic Converter
  • Exhaust System Ceramic Honeycomb Monolith DPF Filters diesel Particulate Filter Catalytic Converter
  • Exhaust System Ceramic Honeycomb Monolith DPF Filters diesel Particulate Filter Catalytic Converter
  • Exhaust System Ceramic Honeycomb Monolith DPF Filters diesel Particulate Filter Catalytic Converter
Exhaust System Ceramic Honeycomb Monolith DPF Filters diesel Particulate Filter Catalytic Converter

Exhaust System Ceramic Honeycomb Monolith DPF Filters diesel Particulate Filter Catalytic Converter

$20.00-$300.00/ Piece|1 Piece/Pieces(Min. Order)

Customization:

Customized logo(Min.Order: 10000 pieces)
Customized packaging(Min.Order: 10000 pieces)
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Exhaust System Ceramic Honeycomb Monolith DPF Filters diesel Particulate Filter Catalytic Converter

Product overview

Core functionalities

Applicable scenarios

Unique advantages

  • Exhaust Filtration & Catalysis: Designed to reduce emissions by trapping particulate matter (PM) and facilitating catalytic reactions in exhaust gases. The honeycomb structure ensures efficient gas flow while maximizing surface area for chemical reactions.
  • Thermal Stability: Built with high-temperature-resistant ceramics (cordierite, alumina, or SiC) to withstand extreme temperatures in automotive and industrial applications.

Key features

  • 1. Advanced Material Technology

    • With high-temperature-resistant cordierite ceramic, alumina ceramic, and SiC ceramic materials, these filters ensure durability in extreme environments like automotive exhaust systems and industrial furnaces. Cordierite’s thermal shock resistance outperforms conventional ceramics*, enabling stable operation under rapid temperature fluctuations.

  • 2. Optimized Honeycomb Design

    • With a hexagonal honeycomb structure, the monolith maximizes catalytic efficiency by increasing surface area for pollutant conversion. This design improves particulate filtration and gas flow compared to flat-plate alternatives*, reducing emissions while maintaining engine performance.

  • 3. Extreme Thermal Performance

    • Withstanding temperatures up to 1,400°C, these ceramic filters outperform traditional silicon carbide ceramics in thermal stability*, ensuring reliable operation in high-temperature applications like diesel particulate filters (DPF) and furnace fixtures.

  • 4. Versatile Scenario Solutions

    • Designed for dual automotive and industrial use, these filters adapt to both compact car exhaust systems and large-scale furnace kilns. Their perforated top and customizable porosity enable tailored gas/fluid flow rates for home, commercial, or industrial environments*.

  • 5. Eco-Friendly Certification Compliance

    • Certified to meet EPA and EU emissions standards, these filters reduce particulate matter and NOx emissions, aligning with global environmental regulations. Their non-toxic ceramic materials also comply with industrial safety certifications for high-temperature applications.

  • Notes:

    • The selling points integrate material superiority, structural innovation, thermal resilience, application versatility, and regulatory compliance.

Product details

Exhaust System Ceramic Honeycomb Monolith DPF Filters diesel Particulate Filter Catalytic Converter

The Exhaust System Ceramic Honeycomb Monolith DPF Filters are precision-engineered components designed for high-temperature and high-pressure applications. Crafted from advanced ceramics like cordierite, alumina, and SiC, these filters combine durability with customizable perforation patterns to optimize gas/fluid flow in automotive exhaust systems, industrial furnaces, and environmental filtration setups.

Technical specifications

FeatureSpecificationBenefit
MaterialCordierite, Alumina, SiC ceramicsWithstands extreme temperatures (up to 1600°C) and chemical corrosion
Perforation DesignCustomizable pore size and densityEnsures controlled gas/fluid flow for efficient filtration or catalytic reactions
ShapeRound, circular honeycomb structureMaximizes surface area for enhanced reactivity in catalytic converters
ApplicationAutomotive exhaust, furnace fixtures, industrial filtrationReduces emissions and improves process efficiency in harsh environments

Customization guide

Adjustable parameters include porosity, perforation density, and size to meet specific flow rate requirements or thermal/chemical resistance needs. For instance, increasing pore density enhances filtration efficiency in diesel particulate filters (DPF), while reducing pore size improves gas retention in catalytic converters.

Get inspired

Whether you need a lightweight solution for automotive exhaust systems or a corrosion-resistant filter for industrial furnaces, our ceramic monoliths adapt to your workflow. Their modular design allows seamless integration into existing systems, ensuring optimal performance in high-demand scenarios.

Choose your model

ParameterBase Model (Cordierite)Advanced Model (Alumina)Pro Model (SiC)
Thermal ResistanceUp to 1200°CUp to 1400°CUp to 1600°C*
Pressure DropStandard (≤2 kPa)Reduced by 15%Reduced by 30%
Filtration Efficiency85% (PM2.5)95% (PM0.3)99.9% (PM0.1)
Chemical ResistanceAcid/alkali mediumAcid/alkali strongExtreme (molten metals)

Supplier's note

  1. Three Technical Breakthroughs:

    • SiC Ceramic (Pro Model): Tripled chemical resistance compared to industry standards, enabling safe handling of molten metals and corrosive exhaust gases.
    • Alumina Honeycomb Structure (Advanced Model): 15% lower pressure drop than traditional cordierite, enhancing airflow efficiency in automotive catalytic converters.
    • Modular Perforation Design: Adjustable pore sizes (0.1–5 mm) optimize filtration or catalytic activity for applications like furnace kilns or home heating systems.

  2. Optimal Version Selection:

    • Automotive OEMs: Choose the Advanced Model for its balance of thermal stability (1400°C) and low-pressure-drop alumina ceramic, ideal for diesel particulate filters.
    • Industrial Furnace Operators: Opt for the Pro Model to leverage SiC’s extreme heat resistance (1600°C) and PM0.1 filtration for metalworking environments.
    • Home Appliance Manufacturers: The Base Model offers cost-effective cordierite ceramic with sufficient durability for residential heating systems.

*Pro Model exceeds ISO 16150-4 standards for thermal shock resistance.

Frequently asked questions

  • Which Exhaust System Ceramic Honeycomb Monolith is best for automotive diesel engines?

  • How do I maintain ceramic catalytic converters in high-temperature industrial environments?

  • What’s the difference between cordierite and alumina ceramic for catalytic converters?

  • Can Exhaust System Ceramic Honeycomb Monoliths be customized for unique exhaust designs?

  • Are these ceramic filters certified for emission control standards?

  • Which ceramic material is best for home furnace exhaust systems?

  • How do ceramic honeycomb monoliths improve catalytic converter performance?

  • What makes your ceramic DPF filters durable in corrosive exhaust environments?

Product comparison

CategoryUsage ScenariosCharacteristicsAdvantagesDisadvantages
Thermal ResistanceIndustrial furnaces, high-temperature exhaust systemsIndustry Standard: 1200°C ▲0Our Base: 1300°C ▲1 (ASTM C1172 compliant)Our Advanced: 1600°C ▲2 (ASTM C1172 compliant)
Handles extreme temps without deformation (ideal for furnace kilns).Advanced versions may require specialized cooling systems for prolonged use.

| Weight Efficiency | Automotive, portable equipment | Industry Standard: 2.5 kg ▲0 | Our Base: 2.0 kg ▲1 (cordierite ceramic) | Our Advanced: 1.8 kg ▲2 (SIC ceramic) |
| | | | Reduces vehicle weight, improving fuel efficiency (designed for cars). | Advanced materials may increase manufacturing complexity and cost. |

| Chemical Resistance | Chemical plants, corrosive environments | Industry Standard: 20 chemical exposures ▲0 (ASTM D543) | Our Base: 50+ exposures ▲1 (ASTM D543) | Our Advanced: 100+ exposures ▲2 (ASTM D543) |
| | | | Withstands harsh chemicals (e.g., sulfuric acid) in industrial settings. | Base versions may degrade faster in extreme pH conditions. |

| Pressure Drop | Exhaust systems, ventilation | Industry Standard: 1.2 kPa ▲0 | Our Base: 1.0 kPa ▲1 (ISO 5011) | Our Advanced: 0.8 kPa ▲2 (ISO 5011) |
| | | | Low resistance improves airflow efficiency (ideal for open-plan offices). | Advanced designs may require recalibration of exhaust systems. |

| Filtration Efficiency | Emission control, air purification | Industry Standard: 85% ▲0 | Our Base: 90% ▲1 (ISO 16915) | Our Advanced: 95% ▲2 (ISO 16915) |
| | | | Meets EPA standards for particulate reduction (designed for DPF filters). | Higher efficiency may clog faster, requiring frequent maintenance. |

| Cost-Effectiveness | Budget-sensitive applications | Industry Standard: $200/unit ▲0 | Our Base: $220/unit ▲1 | Our Advanced: $280/unit ▲2 |
| | | | Base offers good value for moderate-use scenarios (e.g., home furnace fixtures). | Advanced versions may be cost-prohibitive for small-scale industrial users. |

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