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(66 product groups)
Nylon is a popular material for PCB (Printed Circuit Board) spacers for several reasons and that's why our range is packed with a huge choice of PCB spacers for your various applications.
Insulation: Nylon is an excellent electrical insulator. This is crucial in electronic applications, as it prevents the flow of electrical current between conductive elements, reducing the risk of short circuits.
Non-Conductive: Unlike metals, nylon does not conduct electricity. This property is essential for isolating electronic components and preventing unintended electrical connections.
Durable and Lightweight: Nylon is known for its durability and strength-to-weight ratio. It can withstand mechanical stress without deforming or breaking, which is crucial for providing stable support to PCBs.
Corrosion Resistance: Nylon is highly resistant to corrosion, making it suitable for environments where exposure to moisture or chemicals is a concern.
Chemical Resistance: It is also resistant to many chemicals, providing protection in environments where exposure to various substances is possible.
Temperature Stability: Nylon retains its structural integrity over a wide range of temperatures, making it suitable for use in both high-temperature and low-temperature environments.
Cost-Effective: Nylon is a cost-effective material compared to some alternatives like metal or specialized plastics. This makes it an economical choice for PCB spacer applications.
Reduced Vibrational Transmission: Nylon can help dampen vibrations, reducing the transmission of mechanical energy through the spacers. This can be beneficial in environments where vibration may affect electronic components.
Overall, the combination of electrical insulation, durability, chemical resistance, and cost-effectiveness makes nylon an excellent choice for PCB spacers. It provides the necessary support and insulation while ensuring the reliability and longevity of electronic systems.
These collar spacers are a two-piece application; the pin and the retainer. They were designed to capture the PC board. The combination of the mating parts forms a completely enclosed nylon spacer. The use of a binding head type screw is recommended.
These spacers are our most popular style. Both ends easily snap in by hand and lock into place. Available in many different styles for different spacer lengths, hole diameters, panel thicknesses and materials
These spacers have a fir tree fastener on one end and a locking bayonet nose on the other. The blind hole mount is flexible and will lock into round, threaded, punched or drilled blind holes
These spacers have fir tree fasteners on both ends for a secure lock. The blind hole mount is flexible and will lock into round, threaded, punched or drilled blind holes
These spacers have a fir tree fastener on one end and a releasable bayonet nose on the other. The blind hole mount is flexible and will lock into round, threaded, punched or drilled blind holes
These push spacers are designed to support heavily loaded circuit boards. No through hole is required in the board which allows for easy access to the underside of the board. These have a flanged base to keep them steady
These push spacers have a flexible "spring" spacer that absorbs vibration and shock. They mount to the chassis to support the PC board.
These push spacers are designed to support heavily loaded circuit boards. No through hole is required in the board which allows for easy access to the underside of the board. These are mounted into a small and protrudes very little under the board. They have a cupped base that provides a tight fit to the board as well as covering the hole completely.
These spacers have a keyslot design that allows for easy removal to facilitate removal. The keyslot design leaves minimal protrusion below the board. The larger base on the keyslot side is for easy identification of mounting end
These spacers have a keyslot design that allows for easy removal to facilitate removal. The keyslot design leaves minimal protrusion below the board. The larger base on the keyslot side is for easy identification of mounting end
These reverse mount supports reinstalled from the underside of the chassis. They have a thin buttonhead for minimal protrusion under the chassis. The top of these is a locking arrowhead that holds the PC Board in place.
These reverse mount supports reinstalled from the underside of the chassis. They have a thin buttonhead for minimal protrusion under the chassis. The top of these is a locking bayonet nose that holds the PC Board in place.
These reverse mount supports reinstalled from the underside of the chassis. They have a thin buttonhead for minimal protrusion under the chassis.
These supports are mounted from the bottom of the chassis leaving little protrusion on the outside. They mount into a .375 x .313 square hole in the chassis to prevent rotation. It locks the PC Board in place with an edge holding arm that is releasable.
These reverse mount supports reinstalled from the underside of the chassis. They have a thin buttonhead for minimal protrusion under the chassis. The top of these flat requiring nop through hole to support heavily loaded PC Boards.
These reverse mount supports reinstalled from the underside of the chassis. They have a thin buttonhead for minimal protrusion under the chassis. The top of these is a snap-fit design allowing the PC to be removed.
Designed to mount easily on chassis with plastic SR snap rivet. Allows mounting to a range of panel thicknesses, up to .341” thick. Button head on rivet for minimal protrusion on chassis underside
Designed to mount easily on chassis with plastic SR snap rivet. Allows mounting to a range of panel thicknesses, up to .341” thick. Button head on rivet for minimal protrusion on chassis underside
Designed to mount easily on chassis with plastic SR snap rivet. Allows mounting to a range of panel thicknesses, up to .341” thick. Button head on rivet for minimal protrusion on chassis underside
These innovative spacers are mounted to the panel with a rivet that is designed into the part. As you push the head of the spacer down, the legs expand locking it into place. They are available in 13 metric spacer lengths in a UL94 V-2 rated nylon.
These self-retaining spacers snap into the board and maintain spacing even when the screw is removed. Available in many spacing, screw and panel thickness options
These are edge locking supports that require no hole in the top board. They have an integrated locking pin on the bottom to prevent rotation. The UBM grips the PC Board on the side and the UBMC grips the board and is easily released. They have a wide base that minimizes rocking.
These spacers snap together on top of each other to stack any number of boards. Item MB-1-156 Can top off the stack
These self-retaining spacers snap into the board and maintain spacing even when the screw is removed. This version is stackable for multiple level PC board applicatiopns.
These spacers are locking on both ends. They are availabe in two different styles and many spacer options
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