low density high specific strength strong corrosion resistance strong anti-dumping property non magnetic,non toxic high yield ratio good performance on heat transfer low modulus of elasticity excellent absorbing behavior
Titanium dioxide.
Titanium anode, titanium pipe, titanium wire, titanium plate, titanium ring, titanium sheet, titanium electrolytic, electrolytic cell.
Application Fields : Titanium Anodes for Copper foil production Titanium Anodes for Chlor Alkali Cells Titanium Anodes for Chlorine Dioxide Cell Titanium Anodes for Caustic Potash Titanium Anodes for Water Electrolysis Titanium Anodes for Sewage Treatment Titanium Anodes for Cathodic Protection.
titanium,zirconium,nickel,nickel alloy,copper amd Titanium steel composite plate.
Titanium bars, titanium forgings, titanium rings, titanium discs, titanium blocks, titanium alloys.FOB, CIF, T/T And L/C.
Copper plating electrode (Ti GR.2 MASH+DSA COATING) Specification Production quantity: 12 sheets 1. Coating part (both sides) 2. Current density ASD: 2.5~3.5ADS 3. Current efficiency: 80% 4. DC voltage: DC15V 5. Gap distance (distance between plating part and iridium electrode): 60~65mm 6. Electrode operation life: 8 years in use 7. Plating solution components (types) and solution temperature: (water, copper sulfate, chlorine, optical fiber) 23 C management
5um micro 316L stainless steel sparger is a device used in various industrial processes to introduce gas into a liquid. It consists of a porous metal disc or tube made from stainless steel that is placed at the bottom of a vessel containing the liquid. The sparger is designed to allow gas to flow through its porous surface and into the liquid, creating bubbles that help to mix the gas and liquid. 5um micro 316L stainless steel sparger uses 316L powder as raw material and is produced by sieving, molding, sintering and other processes. They are commonly used in the production of pharmaceuticals, biotechnology, and food and beverage industries, where they are used to introduce gases such as oxygen, nitrogen, or carbon dioxide into liquids for various purposes, including fermentation, aeration, and mixing. They can also be used in wastewater treatment, chemical processing, and oil and gas production. Parameters Material: 316L powder Size: �¦25*30.4mm Pore size:5um Features High resistance to corrosion: known for its high resistance to corrosion, which makes it ideal for use in harsh environments where other materials may degrade quickly. High temperature resistance: can withstand high temperatures, making them suitable for use in applications where high-temperature gases and liquids are involved. Efficient gas transfer: allows for efficient gas transfer, resulting in higher process yields and reduced production costs. Compatibility with different gases: compatible with a wide range of gases, including oxygen, nitrogen, and carbon dioxide, making them suitable for use in a variety of applications. Applications Fermentation: In the production of beer, wine, or other fermented beverages, sintered stainless steel spargers are used to introduce oxygen or other gases into the liquid to help promote the growth of yeast and other microorganisms. Aeration: In wastewater treatment plants, sintered stainless steel spargers are used to introduce air or oxygen into the water to help break down organic compounds and reduce the level of pollutants. Chemical processing: In the chemical industry, sintered stainless steel spargers are used to introduce gases into chemical reactions to promote mixing and improve reaction rates. Oil and gas production: In the oil and gas industry, sintered stainless steel spargers are used to introduce gases such as nitrogen or carbon dioxide into oil wells to help increase production rates. Biotechnology: In biotechnology applications, sintered stainless steel spargers are used to introduce gases into cell cultures to promote growth and improve the efficiency of bioprocessing. Food and beverage production: In the food and beverage industry, sintered stainless steel spargers are used to introduce gases such as carbon dioxide into beverages to create carbonation and improve flavor.
Due to the excellent corrosion resistance of titanium material, the pure titanium flange is much used for connecting the tube ends of the petrochemical project. It is also useful in equipment exit and entrance to connect the two devices. Titanium flange has high strength and corrosion resistance, it can maintain excellent strength at higher temperature, and is known for its ductility and weldability, titanium is usually used for high temperature and high pressure service but light weight applications such as components for the aerospace industry (air frames) and state-of-the-art equipment for the military. It also has excellent corrosion resistance in marine and chloride applications. Product parameters Material: CP titanium, titanium alloy Grade: Gr1, Gr2, Gr4, Gr5, Gr7, Gr9, Gr11, Gr12, Gr16, Gr23 etc Size: DN10 DN2000 Standard: ANSI B16.5, ANSI B16.47 Pressure: 0.25MPa 32MPa Technology: Forging, Machining, Welding Surface: RF, FF, MFM, TG, RJ etc Product features 1. High fortitude Titanium has a density of 4.51 grams per cubic centimeter, which is just 60% that of steel. Pure titanium has a density similar to ordinary steel, and some high-strength titanium alloys are stronger than several alloy structural steels. 2. Extreme heat intensity Titanium alloy materials can still keep the needed strength under medium temperature circumstances, and can develop and work for a long time at 450-500 C. 3. Good corrosion resistance The corrosion resistance of titanium alloy is much better than that of stainless steel, such as pitting corrosion, acid corrosion, stress corrosion, alkali, chloride, chlorine, nitric acid, , etc. 4. Good low temperature performance The mechanical properties of titanium alloys can be maintained at low and ultra-low temperatures. Ta7 titanium alloy is a titanium alloy with excellent low-temperature performance and extremely low content of interstitial elements. It can maintain a certain degree of plasticity at a temperature of -253 C. Product type Slip-on Neck Flange (SO) Welding neck flange (WN) Socket welding flange (SW) Threaded flange (Th) Lapped joint flange (LJF) Blind flange (BL(s)) Applications Titanium flanges are known for their high strength and light weight, making them excellent for naval applications as well as oil and gas offshore drilling equipment. They're also frequently employed in chemical processing systems that require chlorine and chlorine compounds. While titanium flanges are known for their lightweight strength, zirconium flanges are known for their exceptional corrosion resistance in hostile chemical conditions such as formic acid, nitric acid, and acetic acid. Typical pipe flange Among the applications are: Chemical processing, which includes polymer manufacturing Production of pulp and paper Engineering in the sea Offshore drilling rigs for oil and gas
Product Introduction 5um micro 316L stainless steel sparger is a device used in various industrial processes to introduce gas into a liquid. It consists of a porous metal disc or tube made from stainless steel that is placed at the bottom of a vessel containing the liquid. The sparger is designed to allow gas to flow through its porous surface and into the liquid, creating bubbles that help to mix the gas and liquid. 5um micro 316L stainless steel sparger uses 316L powder as raw material and is produced by sieving, molding, sintering and other processes. They are commonly used in the production of pharmaceuticals, biotechnology, and food and beverage industries, where they are used to introduce gases such as oxygen, nitrogen, or carbon dioxide into liquids for various purposes, including fermentation, aeration, and mixing. They can also be used in wastewater treatment, chemical processing, and oil and gas production. Parameters Material: 316L powder Size: �¦25*30.4mm Pore size:5um Features High resistance to corrosion: known for its high resistance to corrosion, which makes it ideal for use in harsh environments where other materials may degrade quickly. High temperature resistance: can withstand high temperatures, making them suitable for use in applications where high-temperature gases and liquids are involved. Efficient gas transfer: allows for efficient gas transfer, resulting in higher process yields and reduced production costs. Compatibility with different gases: compatible with a wide range of gases, including oxygen, nitrogen, and carbon dioxide, making them suitable for use in a variety of applications. Applications Fermentation: In the production of beer, wine, or other fermented beverages, sintered stainless steel spargers are used to introduce oxygen or other gases into the liquid to help promote the growth of yeast and other microorganisms. Aeration: In wastewater treatment plants, sintered stainless steel spargers are used to introduce air or oxygen into the water to help break down organic compounds and reduce the level of pollutants. Chemical processing: In the chemical industry, sintered stainless steel spargers are used to introduce gases into chemical reactions to promote mixing and improve reaction rates. Oil and gas production: In the oil and gas industry, sintered stainless steel spargers are used to introduce gases such as nitrogen or carbon dioxide into oil wells to help increase production rates.
Microporous CO2/O2 gas diffusion sintered metal spargers introduce gases into liquids through the thousands of pores in the medium. The spargers and diffusers are extremely efficient and introduce higher number and extremely fine bubbles as compared to the drilled pipes. With this effective sparging procedure, the gas turns into liquid fairly quickly. TOPTITECH can customise the sintered powder porous metal spargers and diffusers as customerâ??s requirements. The spargers work with various gases like nitrogen, oxygen and carbon dioxide. Parameters Material: SUS304 SUS316L Technique: Powder Sintered Porosity: 30%-45% Pore size: 0.5-100um Advantage: High Porosity And Permeability Application: Petrochemical, Food, Beer, Pharmaceutical Features The size of bubbles produced by the porous CO2/O2 gas injecting sintered metal sparger diffuser can be easily adjusted by selecting from a range of available media pore sizes. The sintered metal sparger diffuser is constructed using temperature and corrosion-resistant materials, ensuring durability and longevity. This sparger diffuser features a high-quality, all-welded, robust construction that is designed to withstand the rigors of industrial applications. The smaller sparging elements of this diffuser result in higher diffusion rates, making it an efficient and effective solution for injecting CO2/O2 gases. Applications Wastewater Treatment: This diffuser is used in wastewater treatment plants to inject oxygen into the water, promoting the growth of� aerobic bacteria� that break down organic matter. Fermentation: In the brewing and wine-making industries, this sparger diffuser is used to inject carbon dioxide into the� fermentation� tanks, creating the desired level of carbonation. Chemical Processing: This diffuser is used in chemical reactors to inject gases such as oxygen or nitrogen, promoting chemical reactions and increasing efficiency. Aquaculture: In fish farms, this sparger diffuser is used to inject oxygen into the water, promoting fish growth and health.
Stainless steel porous gas sparger/diffuser is also called sintered metal distributor, also known as porous metal distributor. In order to make sure that the air bubbles are distributed equally throughout the container, it is an industrial sparger instrument that distributes gas into a liquid tank. The surface is normally metallic gray, the dense part is a bright surface, the powder sintered part is a normal matte surface, the sintered part does not add any additives in the production process, normal vacuum sintering, the powder is naturally bonded and formed, the aperture is formed naturally, and there is a certain pressure ability. Stainless steel porous gas spargers/diffusers are commonly used for stripping, mixing or diffusion in many gas-liquid contacting applications. So whether it's for beverage carbonation, ozone treatment or chlorine bleaching, it can always help you to increase the efficiency of spraying. The sintered porous metal media is durable enough to last a long time, providing repeatable performance cycles. Product parameters Materials: Stainless Steel 304L/316L, Inconel, Hastelloy, Copper Connection Type: M5 thread with O-ring groove, 10-32 UNF thread, hose barb, NPT, butt weld end Porosity: 15%-55%
The production of PTL (porous titanium sintered plate) is a key component in the manufacture of hydrogen production electrolyzers. PTL is a type of electrode material that is used to catalyze the reaction that produces hydrogen gas from water. The resulting PTL porous titanium sintered plate is then coated with a catalyst material such as platinum or iridium, which helps to increase the efficiency of the hydrogen production reaction. The parameters of PTL (porous titanium sintered plate) used in hydrogen production electrolyzers can vary depending on the specific application and design of the electrolyzer. However, some common parameters for PTL porous titanium sintered plates used in hydrogen production electrolyzers include: 1.Porosity. 2.Pore size. 3.Thickness. 4.Catalyst loading. The PTL (porous titanium sintered plate) used in hydrogen production electrolyzers has several key features that make it an effective catalyst for the hydrogen production reaction. Some of the features of PTL porous titanium sintered plates include: 1.High surface area. 2.Corrosion resistance. 3.High conductivity. 4.Tailorable porosity. 5.Durable and long-lastinge. 6.Effective catalyst. The PTL (porous titanium sintered plate) used in hydrogen production electrolyzers has several important applications in various industrial processes. Some of the common applications of PTL porous titanium sintered plates include: 1.Hydrogen production: PTL plates serve as the catalyst for the hydrogen production reaction in electrolyzers, splitting water molecules into hydrogen and oxygen using an electric current. 2.Fuel cells: PTL plates are also used in fuel cells as an electrode material, facilitating the chemical reactions that produce electricity from hydrogen and oxygen. 3.Water treatment: PTL plates are used in water treatment applications to generate hydrogen peroxide or ozone for use as a disinfectant or oxidant. 4.Electrochemical synthesis: PTL plates can be used in various electrochemical synthesis processes to facilitate the production of chemicals and materials such as chlorine, caustic soda, and hydrogen peroxide. 5.Environmental remediation: PTL plates are used in environmental remediation applications to degrade contaminants such as chlorinated solvents and pesticides. Overall, the PTL porous titanium sintered plate is a versatile and important component in various industrial processes, providing efficient and reliable catalytic performance in a variety of applications.
Product Introduction In bioreactor systems, achieving optimal mass transfer of gases such as oxygen or carbon dioxide can be challenging. This is particularly true for oxygen, which is poorly soluble in water and even less so in cell culture and fermentation broths. While agitation is commonly used to mix nutrients and ensure homogeneity of the cell culture or fermentation, there are limits to agitation speed due to high power consumption and potential damage to organisms resulting from excessive tip speed. Agitation alone is insufficient for achieving adequate mass transfer. However, by incorporating a porous metal sparger, mass transfer rates can be significantly increased in this type of equipment. Optimal mass transfer rates can be accomplished by introducing gases into stirred or unstirred reactor vessels via millions of small bubbles, which expands the gas-to-liquid contact surfaces. Parameter Pore size: 0.2-100 microns Dia: 5-300mm Length: 10-1000mm Porosity: 30-50% Operating temperature: up to 600C Maximum pressure: up to 10 bar
TOPTITECH stainless steel carbonation stones, not truly stones, are predominantly crafted from porous stainless steel 316L, also known as 'Air Stones'. These stones are commonly employed to aerate wort before fermentation, ensuring a robust start to the fermentation process. Constructed from top-tier food-grade stainless steel material 316L, TOPTITECH carbonation stones boast healthiness, practicality, durability, high-temperature resistance, and corrosion resistance. They offer easy cleaning and remain intact in beer or wort post-use. These stainless steel carbonation stones from TOPTITECH are well-suited for force carbonating beer, making them an excellent choice for kegged beer carbonation or as an aeration stone pre-fermentation. Professionals use stainless steel carbonation stones to carbonate beverages such as beer, champagne, or sparkling meads with carbon dioxide. The micron stainless steel carbonating stone accelerates beer carbonation, producing a long-lasting head due to the creation of smaller bubbles. It rapidly infuses beer/soda water with CO2 or O2 by passing the gas through millions of tiny stone pores, effectively dissolving it into the liquid, enriching the mouthfeel of your beer or soda water. Specification: Material: stainless steel 316L Pore size: 1um External diameter: 20mm Length: 270mm Connection: 3/8" thread on both sides Advantage: 1. Enhancing yeast health: By inserting the oxygenation wand into the fermenter and introducing thousands of minute oxygen bubbles for 1-2 minutes, yeast vitality increases, leading to the production of exceptional flavors and ensuring complete fermentation. Yeast thrives in an environment devoid of bacterial competition, ensuring both quality fermentation and a bacteria-free end product. 2. Enhanced Carbonation Control: Stainless steel filters provide brewers with precise control over the carbonation levels in beer, ensuring consistent quality and desired effervescence. 3. Enhanced Efficiency: Stainless steel filters used as carbonation stones offer enhanced efficiency in the carbonation process compared to traditional methods. The micro-pores in the stainless steel allow for a finer dispersion of carbon dioxide bubbles, resulting in more effective and controlled carbonation. 4. Consistent Carbonation: One of the key benefits of using stainless steel filters as carbonation stones is the ability to achieve consistent carbonation levels in every batch of beer produced. This consistency is crucial for maintaining the desired flavor profile and mouthfeel of the beer.
Nickel mesh anode is an anode material crafted from nickel. It is formed through a meticulous precision expanding technique using nickel sheet. Its exceptional corrosion resistance,� reliable electrical conductivity, and impressive durability guarantee a long-lasting service life. Nickel mesh anodes possess notable benefits such as superior� current efficiency, cost-effectiveness, and exceptional corrosion resistance. They are versatile for use in various electrolytes, including those of acidic, alkaline, and chloride compositions. The adaptability of� nickel mesh� anodes to different shapes and sizes expands their applicability to diverse applications. Parameters Material: Nickel� Grade:Nickel� 200,� 205,� 207,� N2,N4,N6,N8 Thicknessï¼?Max� 50mm Widthï¼?50-1000mm Length:500mm-6000mm Mesh� count:1-300� mesh Features 1.Exceptionally lightweight, providing significant energy savings. 2.Demonstrates remarkable resilience against corrosion in both acidic and alkaline environments. 3.Exhibits unparalleled resistance to dry gases at room temperature and can withstand temperatures up to 550â?? in dry chlorine and hydrogen chloride. 4.Boasts impressive mechanical strength, featuring anti-ravel and flexible properties. Application Field Electrochemical Engineering Electrocatalytic Process,Hydrogen Production by Electrolysis Electrochemica Metallurgy Etc. Functional Material Serving as an effective noise reducer, vibration absorber, and wave energy damper. Furthermore, it provides electromagnetic shielding, flame-resistant properties, heat insulation, and other buffering capabilities. Chemical Power Supply Nickel-metal hydride, nickel-cadmium, fuel cell, and other foamed nickel positive and negative electrodes, which doubles the battery performance. Chemical industry The Catalyst and Carrier, Filter Medium (Such as Oil-Water Separator, Automobile Exhaust Purifier, Air Purifier, Photocatalyst Filter, Etc.)
Platinized titanium felt is a specialist material frequently utilized as a flow field or diffuser material in electrolyzer stacks and single cells, particularly on the oxygen (anode) side. This material is made by depositing a thin layer of platinum onto flattened titanium fibers that have been compressed and annealed to create a smooth, flat surface suitable for use in electrolyzers. Platinum coating thickness: 0.5 micron or customized Substrate: titanium fiber felt Felt thickness: 0.2-5.0mm Porosity: 60%-80% Fiber diameter: 10~100 microns Features High electrocatalytic activity: Platinum is known for its high electrocatalytic activity, particularly for the oxygen reduction reaction. When deposited on a titanium felt substrate, platinum forms a highly porous material with a large surface area, providing ample space for electrochemical reactions to occur. High durability: Platinized titanium felt is highly resistant to corrosion and can withstand harsh operating conditions, making it ideal for use in a variety of industrial and scientific applications. Applications Platinized titanium felt is used as an anode material in the production of chlorine and caustic soda in the The platinum coating on the titanium substrate prevents the formation of a passivating oxide layer on the anode surface, ensuring high electrochemical performance and durability. Electrowinning: Platinized titanium felt is used as an electrode material in the electrowinning of metals such as copper, zinc, and lead. The platinum coating on the titanium substrate provides excellent electrical conductivity and corrosion resistance, making it an ideal electrode material. Electrosynthesis: Platinized titanium felt is used as a catalyst support in electrosynthesis reactions, such as the production of organic compounds and fine chemicals. The platinum coating on the titanium substrate enhances the catalytic activity of the supported catalyst, leading to higher yields and selectivity. Electrolytic capacitors: Platinized titanium felt is used as an electrode material in high-performance electrolytic capacitors. The platinum coating on the titanium substrate provides excellent electrical conductivity and corrosion resistance, ensuring high performance and long-term reliability. Water treatment: Platinized titanium felt is used as an electrode material in electrochemical water treatment systems, such as electrocoagulation and electrooxidation. The platinum coating on the titanium substrate enhances the electrochemical performance of the electrode, leading to effective water treatment and disinfection.
Product Introduction Titanium metal powder sintered porous fluidized plate is formed by high temperature forming and sintering of metal or alloy powder and has a rigid structure. There are a lot of connected or partially connected pores in the substance. Powder particles that are both regular and irregular make up the pore structure. The size and distribution of the pores are related to the size of the particles. The porosity can be adjusted according to the combination of powder particle size and preparation process to meet the actual needs of customers. Advantages: Good permeability, controllable pore size and porosity, stable shape, high filtration accuracy, wear resistance, good mechanical properties, good thermal conductivity, good heat resistance, heat dissipation, backwashing, and repeated use. Titanium sintered porous materials are allowed to be used in the following environments: nitric acid of various concentrations (fuming nitric acid is prohibited), chlorine water, seawater, the aqueous solution of sodium hydroxide, carbonate, and chloride salt. Properties of Porous Titanium Materials High-temperature resistance, normal use 300 . Excellent plasticity, high mechanical strength, and machinability. Corrosion resistance, and anti-oxidation, can be used in nitric acid, liquid hydrogen, and liquid nitrogen environment. Good molding process, one-time molding processing can be carried out according to customer drawings. High filtration precision, good purification effect. No particles fall off, the interior structure is steady, and the pores are uniform. Good air permeability is easy to blowback and clean and can be regenerated online for repeated use. Wear-resistant and impact-resistant, good mechanical properties Production steps: powder sieving molding vacuum sintering
Titanium metal powder sintered porous fluidized plate is formed by high temperature forming and sintering of metal or alloy powder, and has a rigid structure. There are a lot of connected or partially connected pores in the substance. Powder particles that are both regular and irregular make up the pore structure. The size and distribution of the pores are related to the size of the particles. The porosity can be adjusted according to the combination of powder particle size and preparation process to meet the actual needs of customers. Advantages: Good permeability, controllable pore size and porosity, stable shape, high filtration accuracy, wear resistance, good mechanical properties, good thermal conductivity, good heat resistance and heat dissipation, backwashing, and repeated use. Titanium sintered porous materials are allowed to be used in the following environments: nitric acid of various concentrations (fuming nitric acid is prohibited), chlorine water, sea water, aqueous solution of sodium hydroxide, carbonate and chloride salt. Properties of Porous Titanium Materials High temperature resistance, normal use 300 Excellent plasticity, high mechanical strength, and machinability. Corrosion resistance, anti-oxidation, can be used in nitric acid, dilute liquid hydrogen, liquid nitrogen environment. Good molding process, one-time molding processing can be carried out according to customer drawings. High filtration precision, good purification effect. No particles fall off, the interior structure is steady, and the pores are uniform. Good air permeability, easy to blow back and clean, and can be regenerated online for repeated use. Wear-resistant and impact-resistant, good mechanical properties Production steps: powder sieving molding vacuum sintering
1.Product description: The difference from chemically pure titanium is that industrial pure titanium contains a large amount of oxygen, nitrogen, carbon and various other impurity elements (such as iron, silicon, etc.), which is essentially a titanium alloy with low alloy content. Compared with chemically pure titanium, its strength is greatly improved due to the inclusion of more impurity elements, and its mechanical and chemical properties are similar to those of stainless steel (but still lower in strength compared to titanium alloys). 2.The characteristics of industrial pure titanium bars are: low strength, but good plasticity, easy processing, stamping, welding, and good machinability; in the atmosphere, seawater, wet chlorine and oxidizing, neutral, weakly reducing media Good corrosion resistance and oxidation resistance are better than most austenitic stainless steels; but the heat resistance is poor, and the operating temperature should not be too high. 3.Industrial pure titanium bar is mainly used for working temperature below 350 â??, with little stress, but requires good plastic stamping parts and corrosion-resistant structural parts, such as: aircraft skeleton, skin, engine accessories; seawater corrosion-resistant pipes for ships, Valves, pumps and hydrofoils, parts of seawater desalination systems; chemical heat exchangers, pump bodies, distillation towers, coolers, agitators, tees, impellers, fasteners, ion pumps, compressor valves and diesel Engine pistons, connecting rods, leaf springs, etc.
