Porous Titanium Filter Cartridges Customized Size Excellent Permeability
USD $6 - $36 /Piece
Min.Order:5 Pieces
Baoji Yinggao Metal Materials Co., Ltd.
Porous Titanium Filter Cartridges Customized Size Excellent Permeability
TOPTITECH's Porous Titanium Filter Cartridges, customized in size with excellent permeability, are specifically designed to meet the demands of applications involving harsh operating conditions and aggressive fluids and gases. These cartridges feature a rugged and fixed pore structure constructed from sintered titanium powder. As a result of this construction, the filter elements exhibit exceptional resistance to heat, high pressures, and frequent cleaning/backwash cycles. The seamless design ensures optimal mechanical strength and corrosion resistance.
TOPTITECH's Porous Titanium Filter Cartridges, customized in size with excellent permeability, are versatile solutions suitable for a wide range of applications. These cartridges, designed by TOPTITECH, cater to various needs, including handling corrosive liquids and gases, cryogenic fluids, high viscosity solutions, process steam, high-temperature liquids and gases, and catalyst recovery. With their superior performance and reliability, these filter cartridges from TOPTITECH are the ideal choice for critical filtration requirements in diverse industries.
Parameter
Material: GR1 titanium powder
Diameter: 60mm
Length: 40”
Pore size: 20um
Porosity: 30%-40%
Connection: M20/M30/M42/M36/222/215/226/DOE or customized by the drawing
Features
Exceptional Corrosion Resistance: Our Porous Titanium Filter Cartridges exhibit outstanding resistance to corrosion, making them highly suitable for applications involving aggressive fluids and gases. The sintered titanium construction ensures long-lasting durability in corrosive environments, providing reliable filtration performance.
Unparalleled Sintered Titanium Composition: Our filter cartridges are exclusively fabricated using sintered titanium, ensuring a robust and reliable pore structure. This all-titanium construction guarantees superior strength, exceptional thermal stability, and resistance to chemical reactions, ensuring optimal performance in demanding operating conditions.
Reusable and Cost-Effective Backwashing Capability: Designed for maximum economy, our Porous Titanium Filter Cartridges are backwashable, allowing for efficient cleaning and reuse. This feature significantly extends the cartridge's lifespan, reducing replacement costs and minimizing operational downtime.
Versatile End Configurations and Gasket/O-Ring Options: To accommodate various filter housing requirements, our cartridges are available in multiple end configurations. Additionally, we offer a wide range of gasket and O-ring options, ensuring compatibility with most standard filter housings. This versatility allows for easy installation and ensures a secure, leak-free seal for optimal filtration performance.
Permeability of Porous Titanium Filter Cartridges
Porous Titanium Filter Cartridges are vital for liquid or gas filtration. Permeability refers to fluid passage through the cartridges under specific conditions. It is typically measured in liters/hour or cubic meters/hour.
Permeability of Porous Titanium Filter Cartridges is influenced by pore size, structure, material quality, and application environment. Larger pores and higher porosity enhance permeability, allowing increased fluid flow. However, excessively large pores may compromise filtration efficiency by permitting the passage of larger particles or contaminants.
Material quality also impacts permeability. High-quality cartridges exhibit uniform pore size distribution and optimal structure, ensuring consistent permeability.
Application environment factors like temperature, pressure, and fluid properties affect permeability. High temperature or pressure can cause expansion or deformation, affecting permeability. Fluid properties, such as viscosity and surface tension, also influence permeability.
Hence, when selecting Porous Titanium Filter Cartridges, it is crucial to consider these factors and determine the suitable permeability range based on specific filtration requirements. Adjusting pore size, porosity, and material selection can achieve the desired permeability performance.