Structure: Connector body with hexagonal wrench surface, thread ISO metric in accordance with EN60423 or thread NPT in accordance with ANS/ASME B1.20.1-1983, Comply with stands AS/NZS 2053. 8, hexagonal pressure nut, sealing ring and ferrule. Material: Connector body -Brass Hexagon pressure nut - Brass Sealing ring - Nylon 66 Ferrule - Galvanized steel Features: Simple, one piece installation provides a quick and reliable liquid-tight seal IP rating from IP40 to IP66/67/68 in combination with the corresponding flexible conduits High mechanical strength Highly liquid-tight and dustproof Vibration and tension proof Inherently low fire hazard Covering of the conduit ends Available in straight, 45o and 90o bodies Available in ISO Metric and NPT ã??PFã??PGï¼?BSP etc. threads Applications: General industrial and commercial electrical wiring protection Machining centers and robotics any narrow space in static applications General wiring for OEM applications Low fire hazard applications Under flooring wiring in office buildings Machine tools Installations where liquid-tight is a requirement Outdoor installation Special Applications: According to customer's samples and specifications, we can manufacture special fittings for suit any type of flexible conduit applications. Specifications: 5/16"-2" Suitable flexible conduits: VJ type of vacuum jacketed flexible conduit LT type of liquid-tight flexible conduit FM type of flexible metallic conduit
Structure: Connector body with hexagonal wrench surface, thread ISO metric in accordance with EN60423 or thread NPT in accordance with ANS/ASME B1.20.1-1983, Comply with stands AS/NZS 2053. 8, hexagonal pressure nut, sealing ring and ferrule Material: Connector body - nickel plated brass. Hexagon pressure nut - nickel plated brass. Sealing ring - Nylon 66 Ferrule - Galvanized steel Features: Simple, one piece installation provides a quick and reliable liquid-tight seal IP rating from IP40 to IP66/67/68 in combination with the corresponding flexible conduits High mechanical strength Highly liquid-tight and dustproof Vibration and tension proof Inherently low fire hazard Covering of the conduit ends Available in straight, 45o and 90o bodies Available in ISO Metric and NPT ã??PFã??PGï¼?BSP etc. threads Applications: General industrial and commercial electrical wiring protection Machining centers and robotics any narrow space in static applications General wiring for OEM applications Low fire hazard applications Under flooring wiring in office buildings Machine tools Installations where liquid-tight is a requirement Outdoor installation Special Applications: According to customer's samples and specifications, we can manufacture special fittings for suit any type of flexible conduit applications. Specifications: 5/16"ï½?2" Suitable flexible conduits: VJ type of vacuum jacketed flexible conduit LT type of liquid-tight flexible conduit FM type of flexible metallic conduit
Nickel foam plate is a type of porous material made from nickel metal. It consists of a three-dimensional network of interconnected nickel fibers or filaments that form a highly porous structure. The foam-like structure of nickel foam plate provides a large surface area, high porosity, and good electrical conductivity, making it useful for various applications in fields such as energy storage, catalysis, filtration, and aerospace. Product parameter Material: Nickel Aperture: 0.3mm-7mm(can customized) Porosity: 63%-90% The Max Sound Absorption Coefficient: â?¥0.8 Bulk Density: 0.27-1.08 g/cm3 Size: Customized Feature 1. Quality and light: maximum surface area, specific gravity 0.2 to 0.3, 1/10 of water, and wood, aluminum, and iron. 2. The porous construction has an extensive frequency range of sound absorption. 3. Electronic wave shield: It is protected by a 90 dB or so thick electronic wave that is rather thin. 4. Processing performance: It is easily adhered, decreased, and bent. 5. High temperature fire resistance: The stable form burns at a high temperature but is difficult to burn. 6. The ability to filter: The uniform three-dimensional network structure produces a filtering effect and permits extremely robust gas and fluid flow stability. Application 1.Nickel foam plate is a sound-absorbing material with excellent performance, which has a high sound absorption coefficient at high frequencies; the sound absorption performance at low frequencies can be improved through the design of the sound-absorbing structure. 2.Battery electrode material Nickel foam plate is the most common material used for battery electrodes, particularly for NiMH batteries. These rechargeable batteries are frequently found in hybrid cars, laptop computers, cell phones, electric scooters, and bicycles. 3. Fuel cell Foamed nickel can be used as an electrocatalyst for molten carbonate fuel cells, which typically operate at temperatures between 550 and 700 �° C. For proton exchange membrane production cells (PEMFC), electrode relay feeders for solid oxide fuel cells (SOFC), and electrode materials for electrolysis (as in water electrolytic settings), nickel foam plate can be utilized. Additionally, more surface area can be employed to produce syngas and hydrogen for fuel cells. 4. Other applications Magnetic flux conductors of magnetic particles in a fluid can be treated using nickel foam plate as a filter material. Applications to heat exchange medium and hydrogen storage media are among the further uses.
China Grade:N4,N6. America Grade:UNS N02201,UNSN02201. China Standard:GB/T2054 America Standard:ASTM B162 Supply status: annealed state (M), hard state (Y). Production process: cold rolling, hot rolling. Specification: (1) the thickness of the cold-rolled plate 0.8-6.0mm width 300-1300mm length 500-4000mm sanding, pickling surface. (2)Thickness of hot rolled plate 3.0-70mm width 300-2500mm length 500-8000mm matte, polished, frosted surface. Product characteristics: Pure nickel material has good corrosion resistance in the NaOH solution at any concentration and temperature and in the molten state of NaOH above 400C. Pure nickel materials have good corrosion resistance to Na2O2. Na2CO3, NaHCO3, and an alkaline solution or molten liquid containing KNO3. Main uses: for manufacturing chemical equipment such as pipe, heat exchanger, evaporator, heater, reactor, etc.; target materials for various coating; electrodes, etc.
Product Introduction Nickel foam plate is a type of porous material made from nickel metal. It consists of a three-dimensional network of interconnected nickel fibers or filaments that form a highly porous structure. The foam-like structure of nickel foam plate provides a large surface area, high porosity, and good electrical conductivity, making it useful for various applications in fields such as energy storage, catalysis, filtration, and aerospace. Nickel foam plates can be produced through various methods such as electroplating, chemical vapor deposition, and powder metallurgy. The thickness, porosity, and pore size of the foam can be tailored to suit specific applications. In energy storage, for example, nickel foam plates are used as electrode materials in batteries and supercapacitors, where their high surface area and porosity allow for efficient charge and discharge cycles. Infiltration, nickel foam plates can be used as a porous filter medium for liquid or gas filtration. Product parameter Material: Nickel Aperture: 0.3mm-7mm(can customized) Porosity: 63%-90% The Max Sound Absorption Coefficient: 0.8 Bulk Density: 0.27-1.08 g/cm3 Size: Customized Feature 1. Quality and light: maximum surface area, specific gravity 0.2 to 0.3, 1/10 of water, and wood, aluminum, and iron. 2. The porous construction has an extensive frequency range of sound absorption. 3. Electronic wave shield: It is protected by a 90 dB or so thick electronic wave that is rather thin. 4. Processing performance: It is easily adhered, decreased, and bent. 5. High temperature fire resistance: The stable form burns at a high temperature but is difficult to burn. 6. The ability to filter: The uniform three-dimensional network structure produces a filtering effect and permits extremely robust gas and fluid flow stability.
