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Standard Solenoids AMI offers a wide range of standard solenoid designs. All standard solenoids include a persistent switch and a switch heater installed on the top flange. However, our standard solenoids are also available without a persistent switch and switch heater. Please advise your AMI Technical Sales Representative if a persistent switch and switch heater are not required. Standard solenoids are wound with Niobium-Titanium (NbTi) alloy and can achieve magnetic fields up to 9 Tesla (90 kilogauss) at the normal boiling temperature of liquid helium (4.2K). Higher fields up to 11-12 Tesla, depending on the bore size, may be achieved when operated at 2K. The stored energy in a magnet can be increased by 50% or more when operating at reduced temperatures and high fields. Additional protective features may have to be incorporated into reduced temperature designs. It is recommended that you advise your AMI Technical Representative if you intend to operate at a reduced temperature. The six digit model number of our standard solenoid is descriptive of the parameters most frequently of interest to and specified by the user. It consists of the following components: A 90 10 - 3 The prefix of all AMI magnet models numbers designates the magnet type. An "A" designates a standard solenoid with a homogeneity up to ±0.1% in a 1 cm diameter spherical volume (DSV). Peak central magnetic field specified in kilogauss or tenths of Tesla (e.g. 90 = 90 kilogauss or 9.0 Tesla). Clear bore size specified in inches, in one half inch increments. A solenoid's bore is sized such that a cylinder of the specified diameter will fit into the bore of the solenoid (e.g. 10 = 1.0", 15 = 1.5", etc.). Field homogeneity, expressed as ±% in a 1 cm Diameter Spherical Volume (DSV) at the center of the solenoid. 1 = ±1.0% in 1 cm DSV 2 = ±0.5% in 1 cm DSV 3 = ±0.1% in 1 cm DSV The solenoid "A9010-3" in the above table is a 9.0 Tesla peak central field standard solenoid with a 1 inch clear bore, and a homogeneity of ±0.1% in a 1 cm DSV on the magnetic axis at the center of the solenoid Types of Magnets: Standard Solenoids The most frequently requested superconducting magnets are standard solenoids. Low and intermediate field solenoids are designed with uniform current densities throughout the windings. At higher fields, it is necessary to grade the conductor diameters in order to achieve the necessary current and field in a compact design. This can result in two or more sections of the coil with differing current densities. Typically, these magnets have bore diameters between 1 inch and 6 inches and homogeneities in the range of 1.0% to 0.1% in a 1 cm diameter spherical volume (DSV). Fields up to 9 Tesla are generated with NbTi solenoids. Higher fields generally require Nb3Sn conductors when operated at the normal boiling temperature of liquid helium (4.2K). Three tapped brass inserts are incorporated into the top flange of the magnet for mounting the magnet with the axial field in the vertical direction. For horizontal field mounting, a separate plate is provided on the side of the magnet and the current lugs and persistent switch can be mounted on it. These magnets are quite versatile, very robust and can be used for a great variety of purposes, including: Superconductivity Studies: Hall Effect; Fermi Surface Studies, Magnetoresistivity; Magnetocaloric, Magnetostriction Studies; Faraday Rotation; Bubble Chambers; Nuclear Beam Spin Flipping; Magnetization Measurements, Energy Storage, Magnetic Separation; Homopolar Motors; and Beam Focusing. Linear Solenoids, Continuous Duty (34 companies) Linear solenoids convert electrical energy into mechanical work via a plunger with an axial stroke in either a push or pull action. Continuous duty solenoids are rated for 100% duty cycle. Learn more about Linear Solenoids, Continuous Duty Linear Solenoids, Intermittent Duty (42 companies) Linear solenoids convert electrical energy into mechanical work via a plunger with an axial stroke in either a push or pull action. Intermittent duty solenoids are rated for off-on applications, less than 100% duty cycle. Learn more about Linear Solenoids, Intermittent Duty Rotary Solenoids, Continuous Duty (17 companies) Rotary solenoids include true rotary actuators and units that convert axial to linear motion via an inclined plane. Continuous duty solenoids are rated for 100% duty cycle. Learn more about Rotary Solenoids, Continuous Duty Rotary Solenoids, Intermittent Duty (20 companies) Rotary solenoids include true rotary actuators and units that convert axial to linear motion via an inclined plane. Intermittent duty solenoids are rated for off-on applications, or less than 100% duty cycle. Learn more about Rotary Solenoids, Intermittent Duty Solenoid Valves (243 companies) Solenoid valves are electro-mechanical devices that utilize a solenoid to control valve activation. Learn more about Solenoid Valves Specialty Solenoids (8 companies) Specialty or proprietary products and accessories related to solenoids. |
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