ASTM A356 Ductile Iron Casting Manufacturer Nodular Graphite Cast Iron PartsProduct Description and ProcessASTM A356 Ductile Iron Casting Process Cast Iron Foundry Auto Parts SupplierProduction process:green sand casting processpre-coated sand casting processresin sand casting processWeight range: from 50 gram to 2,Website:000 kilograms for ductile iron casting productMachining process:CNC machine, machining center, lathe, mill machine, drill machine, etc.Surface treatment process:paint coating, electrophoretic paint coating, electrogalvanizing coating, black oxide coating, phosphate treatment, Â powder coating, etc.Product Material and UsesNormally production with gray iron HT200, HT250, ductile iron 65-45-12, 60-40-18, 80-55-06, 80-60-03, 100-70-03, etc.The ductile iron casting products are widely used for Auto-cars, trains, trucks, vehicle components, mining machinery components, agricultural machinery parts, textile machinery parts, construction machinery parts, etc.Ductile iron castings have many advantagesDuctile iron â?? also referred to as spheroidal or nodular iron â?? is actually a group of irons that exhibit high strength, flexibility, durability and elasticity due to their unique microstructure. Cast ductile iron normally contains over 3 percent carbon; it can be bent, twisted or deformed without fracturing. Its mechanical properties are similar to steel, and far exceed those of standard cast irons.Ductile iron castings are solid metal objects that result from molten ductile iron being poured into voids in a mold. The ductile iron subsequently cools and solidifies in the shape of the void it occupies.What is in Ductile Iron? (Composition)If you were to do a chemical analysis of ductile iron, this is what you would normally find:Iron ~94%Carbon 3.2 â?? 3.60%Silicon 2.2 â?? 2.8%Manganese 0.1 â?? 0.2%Magnesium 0.03 â?? 0.04%Phosphorus 0.005 â?? 0.04%Sulfur 0.005 â?? 0.02%Copper
Definite chilled iron rolls have a high-hardness layer of white cast iron at the surface. These rolls have the advantage of selecting the harder best performing material on the working surface, which is primarily a Cr-Ni-Mo alloyed chill cast iron & a relatively softer material inside. White chill iron is less soft,strong and incapable of withstanding high dynamic stresses but owing to its greater hardness , has enough strength and better wear resistance against thermal shock occurring at the time of accident in the rolling operation compared to other chilled rolls. These rolls have high compressive strength.It retains a fair proportion of its strength at elevated temperature, for example, in hot rolling . Chilled to graphite being smoother, the hardness associated with the definite chilled structure allows deeper grooving. A very fine surface finish is required , rolls for hoop and skelp mills must be chosen with special attention to strength and hardness so the rolls will match the roughing , intermediate and finishing stands. The rolls are double poured duplex rolls and are manufactured by the advance centrifugal process. These make excellent work rolls for two, three and four-high mills, turning out of high grade ferrous and non-ferrous sheet and strip or section. High Alloy Clear Chill Rolls have proved well suited for the finishing stand of rod and light section mills, for continuous small and medium hot strip mills, and for strip mills of older design. These rolls are manufactured for section mills producing rounds, squares, flats, Hexagon, Gate Channel as well as mills producing Tor steel and Tmt bars. Material Specifications Process Hardness Clear Carbon Chilled Cast Iron Centrifugal Spun Cast 430 - 550 HB Ni-Cr Alloyed Chilled Cast Iron Centrifugal Spun Cast 500 - 630 HB Grey Cast Iron Centrifugal Spun Cast 180 - 350 HB Applications - Rolling Mills TMT Type Rolling Mills
1 Summary This specification defines the SUM for high Capacity Alkaline cells LR6 1.1 Type IECLR6 OtherAAE914006 JISAM3 1.2 Reference standard IEC 60086-1 --- Primary Batteries - Part 1: General IEC 60086-2 --- Primary Batteries - Part 2: Physical and electrical specification 1.3 Execution standard GB/T 8897.2 2 Chemistry composition Zinc ,EMD , Potassium hydroxide, Graphite 0.00% Mercury & Cadmium 3. Normal voltage1.5V 4. Average weight: 23.0g 5. Nominal Capacity 2500mAh (condition: 43 load resistance, discharge 4 hours per day at 20+/-2°C, end-point voltage 0.9V ) 6 Electrical performance Test conditionLoad Resistance ( ±0.5%) 3.9©Time0.3s, Temperature20±2ã O.C.V C.C.V Accept Level V V 30 days after delivery 1.55 1.45 45 for 3 months 1.52 1.40 MIL-STD105E?¡AQL=0.4 Normal temperature for 12 Months 1.52 1.40 7 Service Life Test condition: 20±2 and 60±15%RH (Discharge Method) Minimum Average Duration ITEM Load Cutoff 30days 45 for 3 Normal Temperature Time Resistance VoltageV After delivery months for 12 Months 43© 4h/d 0.9 90h 81h 81h 3.9© 1h/d 0.8 390min 361min 361min 10© 1h/d 0.9 18.5h 17 h 17 h (IEC ITEM) 1.8© 15sec/min 0.9 600 Cycles 540 Cycles 540 Cycles 250mA 1h/d 0.8 420min 380min 380min 3.9© 24h/d 0.9 350min 315min 315min (REF ITEM)
Rotary Kiln is one of the most important equipment among all the mining machineries. It is composed of cylinder, gears, supporting device, sealing for kiln tail, sealing for kiln head and other parts. Rotary Kiln is one of the most important equipment among all the mining machineries. It is composed of cylinder, gears, supporting device, sealing for kiln tail, sealing for kiln head and other parts. Kiln cylinder is a heated revolving part which is welding by high quality carbon steel plate. Cylinder is supported on the supporting device by tyres. And there is machanical or hydraulic pressure catch-wheel on one or several gears in order to control the turning of cylinder. By the gear rings in the middle of cylinder, gears drive the Cylinder to rotating with the speed under technical design requirement. Because of the need of installation or maintenance, the big size rotary kiln has auxiliary gears, which make cylinder rotates at low speed. In order to prevent cold air comes into cylinder and the leaking of gas and dust, the reliable kiln tail and head sealing equipment are installed on the feeding and discharging end. Application: Rotary Kiln is thermal equipment which takes heating treatment to lump, bulk and slurry materials. It can be widely used in different industries such as cement & construction, non-ferrous metals, ferrous metals, refractory materials, industrial chemicals, paper making and etc. Features & Advantages: Supporting Device adopts advanced main shaft structure, automatic temperature measuring device and electrical heating device. Catch-wheel mechanical wheel or hydraulic thrust wheel. Hydraulic thrust wheel is equipped with advanced hydraulic controlling system. Gears single driving or twin driving. Rotating speed is under control of adjustable-speed motor, DC motor, or frequency adjustable-speed motor. Reliable operation, energy-saving and high efficiency. Liners for tyres of cylinder fixed type, adjustable type, or floating type Simple structure, convenient replacement and maintenance without any damage to cylinder Sealing Device variety types are available in accordance to different design of rotary kiln; Such as air cylinder edge sealing, spring edge sealing, graphite block sealing and etc.
We design and manufacture devices for new type dry method cement production line, which capacity from 300t/d to 4000t/d clinker. And we can also assist the client in transacting purchaser`s credit or chinese government`s credit while exporting. Rotary kiln is the main equipment for sintering cemnet clinker. The rotary kilns produced by our company can be divided into dry process and wet process. They can also be used for chemical industry, metallurgy industry and etc. Throught technical renovations, the rotary kiln sintering system equipment made by our company has adopted high measuring precession plunger pump, variable speed adjusted valve, contact graphite block air seal and other national advanced technologies. In order to raise up automation degree, indurstrial tv has been used at the kiln head for monitoring of kiln, analog fluorescent screen has been used for display of process flow; infrared scanning system has been adopted for sintering zone to directly reflect the burning conditions on the computer. With the use of these new technologies, it is directly in vision, convienent in operation and reliable in use. Therefore, the rmalcondition can be raised. Compared to been raised 3-5% up, production has been increased 5-10% and heat consumption has been reduced 15% down. Rotary kiln belongs to building material equipment, which can be divided into cement kiln, metallurgy chemical kiln and lime kiln according to different materials. Cement kiln is used for making of cement clinker and there are dry and wet methods to make cement. Metallurgy chemical kiln is used for magnetic roasting of iron ore and oxidizing roasting of chrome and nickel in the steel factory; baking high-alumina mine in the refractory material factory; baking chamotte and alumina in the aluminium factory and baking chrome ore and chrome powder in the chemical plant. Lime kiln is used for baking active lime and dolomite in the steel factory and ferroalloy factory.
Highlystar is a trusted supplier of LCD screens to the display market, and we offer both standard and customized LCD Screen solutions to our customers. Our LCD screens range from automotive LCD screens, industrial LCD screens, and bar LCD screens, all of which are made from high quality materials and LCD modules. When you need a standalone LCD screens or integrated touch and cover integration, or customized high brightness backlighting, different types of interfaces, our team can develop the right solution for your project. LCD Screens An LCD screen, or Liquid Crystal Display screen, refers to the visual display component in devices that utilize LCD technology. It's the part of a device, such as a monitor, television, laptop, or smartphone, that presents images and information to the user. Here are some key points about LCD screens: Technology: LCD screens use liquid crystals to modulate light and produce images. The liquid crystals are sandwiched between layers of glass or plastic, and their alignment, controlled by electrical currents, determines the amount of light that passes through, forming pixels on the screen. Components: The main components of an LCD screen include a backlight source (such as LEDs), color filters, polarizers, glass substrates with electrodes, and liquid crystals. The arrangement and quality of these components impact the screen's overall performance. Resolution: The resolution of an LCD screen is determined by the number of pixels it contains. Higher resolutions result in sharper and clearer images. Common resolutions include Full HD (1920x1080), Quad HD (2560x1440), and 4K (3840x2160). Backlighting: Most LCD screens use a backlight source to illuminate the display evenly. LED backlighting is common due to its energy efficiency and ability to provide more control over brightness levels. Types of LCD Screens: TN: Often found in gaming monitors, offering fast response times. IPS: Known for better color reproduction and wider viewing angles than TN panels. VA: Strikes a balance between TN and IPS, offering good contrast ratios and viewing angles. Applications: LCD screens are ubiquitous and are used in various electronic devices, including computer monitors, TVs, laptops, tablets, smartphones, digital cameras, and more.
Highlystar specializes in manufacturing LCD panels tailored to meet the unique display requirements of clients in the aerospace, transportation, and custom concept car design sectors. Our global clientele benefits from our extensive range of standard and customized LCD panels, catering to applications in digital signage, transportation, automotive, medical, gaming consoles, and various other markets. Additionally, we excel in adapting off-the-shelf, mass-produced designs to new dimensions through high-volume remanufacturing and local value-added services. At Highlystar, our mission is to deliver professional LCD panels in both standard and custom sizes, catering to diverse industries. Fostering a collaborative culture, we successfully develop bespoke products by closely working with teams like yours. Feel free to reach out to us to explore how we can assist you. LCD Panels An LCD panel, or Liquid Crystal Display panel, is a flat-panel display technology that uses liquid crystals sandwiched between two layers of glass or plastic. The liquid crystals can be manipulated to control the passage of light, allowing for creating images on the display. Structure: LCD panels typically consist of several layers. These layers include a backlight source (such as LEDs), a rear polarizer, glass substrates with electrodes, liquid crystal molecules, color filters, and a front polarizer. The arrangement and properties of these layers determine the display's characteristics. Operation: When an electric current is applied to the liquid crystal molecules, they align in a way that allows light to pass through or block it, creating pixels. The combination of red, green, and blue pixels produces a full spectrum of colors. Backlighting: Most LCD panels use a backlight source to illuminate the display. Early LCDs used cold cathode fluorescent lamps (CCFLs), but modern LCDs often use light-emitting diodes (LEDs) for backlighting due to their energy efficiency and longer lifespan.
Sodium Silicate also known as water glass or sodium met silicate is a versatile chemical with a wide range of application across various industries Its chemical formula is NaSiO It is a combination of Soda Ash and Silica Sand resulting in a viscous clear liquid or solid form it must be thick and white or slightly grey color It can be pale grey or green if its in the form of lumps Depending upon the specification Silicate is composed of Sodium Oxide Na2O and Silicon Dioxide SiO2 in varying ratios The combination of both decides the viscosity alkalinity and solubility Sodium Silicate comes in two forms ie Solid Glass and Liquid and in two grades ie Neutral and Alkaline The viscosity ranges from Solid Glass like substance to Thin Liquid Sodium Silicate can be primarily produced in two ways Furnace method and Soda Ash method Sodium Silicate has an exceptional properties that makes it vital and very useful Silicates versatility makes it an important ingredient in Paper and Ceramics industry Electrodes and Cement Industry Detergent and Textile Industry It also has its application in areas such as Manufacturing Construction Water Treatment Plant Fireproofing and Automotive It helps in enhancing final products performance by increasing efficiency Jyoti Chemical provided material is clear free from dirt and other visible impurities We dont compromise in quality of raw material Our offered silicate is exactly as per your specified demand of different industrialized sectors We offer you Sodium Silicate in all options from 50 KG Carboys to Tanker load
Sodium Silicate also known as water glass or sodium met silicate is a versatile chemical with a wide range of application across various industries Its chemical formula is NaSiO It is a combination of Soda Ash and Silica Sand resulting in a viscous clear liquid or solid form it must be thick and white or slightly grey color It can be pale grey or green if its in the form of lumps Depending upon the specification Silicate is composed of Sodium Oxide Na2O and Silicon Dioxide SiO2 in varying ratios The combination of both decides the viscosity alkalinity and solubility Sodium Silicate comes in two forms ie Solid Glass and Liquid and in two grades ie Neutral and Alkaline The viscosity ranges from Solid Glass like substance to Thin Liquid Sodium Silicate can be primarily produced in two ways Furnace method and Soda Ash method Sodium Silicate has an exceptional properties that makes it vital and very useful Silicates versatility makes it an important ingredient in Paper and Ceramics industry Electrodes and Cement Industry Detergent and Textile Industry It also has its application in areas such as Manufacturing Construction Water Treatment Plant Fireproofing and Automotive It helps in enhancing final products performance by increasing efficiency Jyoti Chemical provided material is clear free from dirt and other visible impurities We dont compromise in quality of raw material Our offered silicate is exactly as per your specified demand of different industrialized sectors We offer you Sodium Silicate in all options from 50 KG Carboys to Tanker load
Special Ultra-pure Bromine Free Grade Salt khanan international traders enjoys a prominent position in producing the particular grade Ultra-Pure Bromine-Free salt. For this purpose, the R&D department of the company has designed an indigenous electrode ionization plant to extract impurities providing the customer with the purest of salt. This plant extracts Bromine and has been working smoothly and problem-free since the beginning. The plant has been designed for high inputs of Bromine since raw Brines have a lot of variations. The production of a Special Ultra-Pure Bromine-Free Grade of salt has only become possible in Pakistan due to the hectic, dedicated, and ambitious efforts of our R&D department. It has taken us more than three years to make this particular grade completely Bromine-free. The Bromine content in our regular Pyrogen-free stages ranges from 10 to 40 ppm. With time, we have learned more and more about the system. This has made it possible for us to extract impurities other than Bromine. Currently, these impurities are going to waste. The R&D department is researching how we can minimize this waste and convert these impurities into useful and valuable products. The production of a Special Ultra-Pure Bromine-Free Grade of salt has only become possible in Pakistan due to the hectic, dedicated, and ambitious efforts of our R&D department. It has taken us more than three years to make this particular grade completely Bromine-free. The Bromine content in our regular Pyrogen-free stages ranges from 10 to 40 ppm. With time, we have learned more and more about the system. This has made it possible for us to extract impurities other than Bromine. Currently, these impurities are going to waste. The R&D department is researching how we can minimize this waste and convert these impurities into useful and valuable products.
What is the white oil in the lithium battery separator? The lithium battery separator is a special polymer film that separates the lithium ion electrolyte from the positive and negative electrodes, preventing electrolyte mixing, as well as problems such as short circuit and overcharging of the battery. The white oil in the lithium battery separator plays a key role in lithium-ion batteries. Specifically, the main points are as follows: 1. Prevent fusing Overcharging of lithium batteries will cause the internal temperature of the battery to rise. If the temperature is too high, it will damage the internal components of the battery and even cause fuses. The white oil in the lithium battery separator can form a certain degree of viscosity and lubricity at high temperatures, slowing down the flow rate of the electrolyte, thus delaying the heating process of the battery, preventing overheating inside the battery, and protecting the safety of the battery. 2. Reduce self-discharge Lithium batteries will also self-discharge when not in use, resulting in loss of power. The white oil in the lithium battery separator can reduce the self-discharge rate, thereby reducing power loss. 3. Improve battery performance The white oil in the lithium battery separator can also reduce the internal resistance of the battery and improve the battery's power transmission efficiency, thereby improving battery performance. In general, the white oil in the lithium battery separator plays a very important role. It can improve the safety of lithium batteries, extend the service life of the battery, and improve the performance of the battery. Therefore, in the production process of lithium batteries, the white oil in the separator has become more and more important.
Triacs Belong To The Thyristor Family And Are Closely Related To Silicon-Controlled Rectifiers (Scr). However, Unlike Scrs, Which Are Unidirectional Devices (I.E. Can Conduct Current Only In One Direction), Triacs Are Bidirectional And So Current Can Flow Through Them In Either Direction. Another Difference From Scrs Is That Triacs Can Be Triggered By Either A Positive Or A Negative Current Applied To Its Gate Electrode, Whereas Scrs Can Be Triggered Only By Currents Going Into The Gate. In Order To Create A Triggering Current, A Positive Or Negative Voltage Has To Be Applied To The Gate With Respect To The A1 Terminal (Otherwise Known As Mt1). Once Triggered, The Device Continues To Conduct Until The Current Drops Below A Certain Threshold, Called The Holding Current. The Bidirectionality Makes Triac Very Convenient Switches For Ac Circuits, Also Allowing Them To Control Very Large Power Flows With Milliampere-Scale Gate Currents. In Addition, Applying A Trigger Pulse At A Controlled Phase Angle In An Ac Cycle Allows One To Control The Percentage Of Current That Flows Through The Triac To The Load (Phase Control), Which Is Commonly Used, For Example, In Controlling The Speed Of Low-Power Induction Motors, In Dimming Lamps And In Controlling Ac Heating Resistors Two Modes Of Led Panel Light Dimming: Mobile App Based Dimming- The Customer Sitting In Any Part Of The Room/ House Can Control The Intensity Of The Light By Using His Mobile App The Manual Mode Facilitates Control By Varying The Triac Manually Through The Knob Provided In The Control Unit. Optional: Wifi App Based Dimming Occupancy Based Dimming
Triacs Belong To The Thyristor Family And Are Closely Related To Silicon-Controlled Rectifiers (Scr). However, Unlike Scrs, Which Are Unidirectional Devices (I.E. Can Conduct Current Only In One Direction), Triacs Are Bidirectional And So Current Can Flow Through Them In Either Direction. Another Difference From Scrs Is That Triacs Can Be Triggered By Either A Positive Or A Negative Current Applied To Its Gate Electrode, Whereas Scrs Can Be Triggered Only By Currents Going Into The Gate. In Order To Create A Triggering Current, A Positive Or Negative Voltage Has To Be Applied To The Gate With Respect To The A1 Terminal (Otherwise Known As Mt1). Once Triggered, The Device Continues To Conduct Until The Current Drops Below A Certain Threshold, Called The Holding Current. The Bidirectionality Makes Triac Very Convenient Switches For Ac Circuits, Also Allowing Them To Control Very Large Power Flows With Milliampere-Scale Gate Currents. In Addition, Applying A Trigger Pulse At A Controlled Phase Angle In An Ac Cycle Allows One To Control The Percentage Of Current That Flows Through The Triac To The Load (Phase Control), Which Is Commonly Used, For Example, In Controlling The Speed Of Low-Power Induction Motors, In Dimming Lamps And In Controlling Ac Heating Resistors Two Modes Of Led Panel Light Dimming: Mobile App Based Dimming- The Customer Sitting In Any Part Of The Room/ House Can Control The Intensity Of The Light By Using His Mobile App The Manual Mode Facilitates Control By Varying The Triac Manually Through The Knob Provided In The Control Unit. Optional: Wifi App Based Dimming Occupancy Based Dimming
Nickel fiber felt is a versatile material made from high-quality nickel fibers, featuring wide-ranging applications and excellent performance characteristics. This felt-like material is composed of uniformly distributed and interconnected nickel fibers, forming an open porous structure. Nickel fiber felt finds widespread applications across multiple industries. In the field of fuel cells, nickel fiber felt is used as a Gas Diffusion Layer (GDL) to enhance the performance and durability of Proton Exchange Membrane Fuel Cells (PEMFCs) and Solid Oxide Fuel Cells (SOFCs). It promotes efficient reactant distribution, enhances water management, and improves overall cell performance. Additionally, nickel fiber felt is extensively applied in redox flow batteries, electrolyzers, supercapacitors, and water treatment systems. In these applications, it serves as a GDL, optimizing electrochemical reactions, improving battery cycling performance, and providing excellent chemical stability and high surface area. Parameters Material: Pure nickel fiber Color: Light grey Size: Customized upon request Thickness: 0.2mm-2mm (Usually 0.25, 0.4, 0.6, 0.8, 1.0mm) Porosity: 60-90% (It can be customized upon request) Shape: customized (polygon, round, ring, disc, etc.) Features High Porosity Uniform Wire Diameter Lightweight and Flexibility Excellent Temperature Resistance Applications: Fuel Cells: Nickel fiber felt is extensively used as a GDL in proton exchange membrane fuel cells (PEMFCs) and solid oxide fuel cells (SOFCs). It facilitates efficient reactant distribution, enhances water management, and improves overall cell performance. Redox Flow Batteries: Nickel fiber felt is employed as a GDL in redox flow batteries, enabling efficient electrolyte flow and maintaining consistent electrode performance. Electrolyzers: It is utilized as a GDL in electrolyzers to enhance the electrochemical reactions during hydrogen production. Supercapacitors: Nickel fiber felt finds applications as a current collector and GDL in supercapacitors, enabling high power density and rapid charge/discharge cycles. Water Treatment: It is used in electrochemical water treatment systems, such as electrocoagulation and electrochemical oxidation, due to its excellent chemical stability and high surface area. Manufacturing flow
Electrolytic cup for mouthwash, Sterilization rate 99.99% Making a cup of mouthwash only takes 3 mins. It can be used as a mouthwash maker, toothbrush Sterilizer, denture cleaning and other oral care products. Efficacy: disinfection, antisepsis, dental ulcer care. Ingredients: water. Alcohol-free / Tasteless / Mild and non-irritating / No chemical additives / No residue / Non-toxic / Eco-friendly Working principle Adding mouthwash electrolyte into water then electrolysis produces slightly acidic electrolytic water (SAEW), the main bactericidal component is hypochlorous acid (HOCL). Hypochlorous acid is a commonly used medical cavity antibacterial agent. The concentration of Hypochrous Acid in this homemade mouthwash is just right to inhibit the growth of bacteria in the mouth without killing the good bacteria. A perfect balance of safety and bacteriostasis. How to use? Step 1 Use the oral care cup with a cup of tap water or pure water. Step 2 Add the mouthwash electrolyte into the water. Step 3 Put the cup on the wireless power charger. Step 4 Wait for 3 minutes and power off automatically after electrolysis is complete. Step 5 The mouthwash will be effective within 30 minutes. Over 30 minutes without using, you can pick up the cup and place it on the charger to do the electrolysis again. Name: Electrolytic cup for mouthwash Size: 75.5x75.7x115mm Capacity: 320ml Cup body material: Food grade ABS+PC+Silicon Electrode material: Non-diaphragm Titanium Platinum Ruthenium Iridium electrolytic plate Weight: 130g Water Quality requirement: All kinds of potable water, such as purified water, mineral water, tap water Power supply: wireless magnetic induction power supply Rated power: 8W Electrolytic Power: DC9V (MAX) Electrolytic voltage: 7.5W (MAX) Waterproof: IPX5
1mm Thickness Titanium Sintered Metal Porous Filter Plate is a type of filter plate made of titanium metal that has undergone a sintering process. In the sintering process, titanium particles are heated to a high temperature and pressed together to form a porous structure. This structure contains small channels or holes that allow fluids or gases to pass through while capturing solid particles or impurities. Parameter Material: GR1 titanium powder Filtration precision:20um Porosity: 30-40% Operating temperature: â?¤300â?? Diameter: 100mm Thickness: 1mm Applications 1. Due to its unique properties, the sintered titanium porous filter plate can be used as a gas diffusion layer in Polymer-Electrolyte-Membrane Fuel Cells (PEMFC), allowing for efficient transfer of reactants to the electrode. 2. The sintered titanium porous filter plate can be assembled as a filter, which is ideal for filtration under high temperatures and corrosive environments. This makes it a suitable material for use in industries such as chemical, pharmaceutical, and oil and gas. 3. The sintered titanium porous filter plate can be coated with Pt and other materials, enabling it to be used as an anode in electrochemical applications, such as fuel cells and electrolyzers. 4. Oil and Gas Industry: In the oil and gas industry, Sintered titanium porous filter plate is used to filter oil and gas during production and transportation. It is also used in the filtration of drilling fluids and completion fluids. 5. Pharmaceutical Industry: In the pharmaceutical industry, Sintered titanium porous filter plate is used to remove bacteria, viruses, and other impurities from liquids. It is also used to filter drugs and to remove particles from drug formulations. 6. Food and Beverage Industry: In the food and beverage industry, Sintered titanium porous filter plate is used to filter liquids, such as wine, beer, and fruit juice, to remove impurities and particles. Features 1.Strong mechanical strength with the capacity to maintain a consistent filter rating under high pressure. 2.Easy to clean and reuse with a range of filter cleaning options. 3.Resistant to heat and corrosion. 4.Easy to manufacture, weld, punch, shear, or otherwise shape into different sections. 5.A wide range of filter ratings are available.
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.)
30mesh platinum coated titanium anode mesh screen is a type of wire mesh that is made from titanium wire. It is a high-performance material that offers excellent corrosion resistance, high strength-to-weight ratio, and good biocompatibility. 30mesh platinum coatedâ??titaniumâ??anodeâ??mesh screen is commonly used in applications where high corrosion resistance and high strength are required. The mesh can be customized in terms of mesh size, wire diameter, and weave pattern to meet specific application requirements. Classification Pure titanium wire Tiâ?¥99.6%, black surface, black titanium mesh is suitable for seawater filtration and other industries with low purity of solution. High-purity titanium wire: the surface is bright and has no oxide layer, and the bright titanium mesh is suitable for the manufacture of titanium electrode mesh and chemical titanium filter mesh. Parameters Aperture: 0.2mm Mesh: 30 mesh Size: 107mm*197mm*0.45mm Color:white pure specifications in stock: 5 mesh, 15 mesh, 20 mesh, 30 mesh, 40 mesh, 60 mesh, 80 mesh, 150 mesh, 200 mesh, 400 mesh Weaving method: Plain woven, Dutch woven, Twilled woven Features Low density: Titanium woven wire mesh has an extremely low density, yet provides excellent tensile strength, making it an ideal material choice for high-performance applications. Excellent corrosion resistance: Titanium woven wire mesh has outstanding corrosion resistance, allowing it to be used in extreme environments, such as marine environments or strong acid and alkali environments. High temperature resistance: Titanium woven wire mesh can maintain stable performance in high temperature environments, making it an ideal choice for high temperature applications, such as support structures for thermal barrier coatings in aircraft engines. Excellent filtration performance: Due to the fine pores and high surface area of titanium woven wire mesh, it has excellent filtration properties and can be used for liquid or gas filtration and separation, such as in medical devices and chemical production. Applications Medicine Satellite and aerospace Environmental industry Electroplating industry Battery industry Surgery
titanium plates are used as filter elements in many fields such as , water treatment industry, food industry, bioengineering, chemical industry, petrochemical industry, metallurgical industry and gas purification. At the same time, the sintered porous titanium plate can also be used as a gas diffusion layer (GDL) in a new generation of fuel cells (PEMFC). offers porous titanium plates in a wide range of filter fineness and sizes. We can also perform mechanical processing on porous titanium plates, such as chamfering, punching, cutting, etc. Porous titanium plates are widely used as gas diffusion layers in the electrolysis industry. The gas diffusion layer is a key component used in electrolysis cells to transport hydrogen and oxygen to the electrode reaction surface and to transport the electric current generated by the reaction back into the electrolyte. The porous titanium plate has the following advantages as a gas diffusion layer: 1.High gas permeability: The porous titanium plate has uniform pore size distribution and high porosity, which can provide high-efficiency gas permeability, so that the gas diffusion layer has good gas transport performance during the electrolysis process. 2.Good conductivity: The porous titanium plate has good conductivity, which can effectively transport the current generated by the reaction to the electrolyte and improve the electrolysis efficiency. 3.Strong corrosion resistance: The porous titanium plate is made of high-purity titanium metal and has good corrosion resistance. In harsh environments such as strong acid and strong alkali, the porous titanium plate can maintain good stability and durability. Porous titanium plate (sintered titanium plate) specifications Filtration accuracy: 0.22um 100um (0.45um, 1um, 3um, 5um, 10um, 20um, 30um, 50um) Porosity: 30% 40% Pressure: 0.2Mpa/cm2 Temperature resistance: 300 Maximum working pressure: 0.2Mpa/cm 2 Sheet size range: 0.8-2.8mm thickness x
Sintered titanium porous plate for PEMFC is a porous material that is created from high-quality, spherical, and high-purity titanium powder as the raw material. It is rigidified by forging and sintering it at high temperatures. Low density, high specific strength, good corrosion resistance, and good biocompatibility are the qualities of sintered titanium porous plate for PEMFC. Parameters: Brand: TopTiTech Materials: pure titanium powder Filter rating: 0.22um-100um Porosity: 25-45% Penetrability: 3-800M /M hKPa Working pressure: 2.5MPa Working temperature: 300 Shape: Round disc sheet tube round bar cap Specific surface area: 10-40cm /cm Features 1. High flow rate, high resistance to high temperatures and pressures. 2. Resilient to the majority of corrosive fluids. 3.Even pore distribution and good air permeability. 4. Stable form and strong component strength. 5. Very strong mechanical resistance. 6. Consistent filtration precision even after numerous washings. 7.Backwashing assistance with minimal manual upkeep and expense. According to their physical and structural characteristics, titanium sintered porous materials are mostly used for filtering materials, electrodes, heat-transfer materials, catalyst carrier materials, and noise-cancelling materials. What exactly does sintering entail? It is the process of combining small particles into a single solid without actually melting the material by applying pressure and heat to the mixture.Ceramics, metals, plastics, and a few other types of materials are among the particles that can be sintered together. This procedure is particularly crucial in creating discrete particles as a unit.You can make sintered metal filters with it. The high temperature heating of the compaction contacts causes the constituent materials to fuse together as the materials eventually become wet.The temperature of the furnace, the temperature of the atmosphere and the temperature of the contacts are all in the heat and are the critical elements of the process.