Adafruit
White Nylon Screw and Stand-off Set – M2.5 Thread
A comprehensive 420-piece white nylon screw and standoff set in M2.5 thread — the standard mounting size for most breakout boards, development boards, and si...
A comprehensive 420-piece white nylon screw and standoff set in M2.5 thread — the standard mounting size for most breakout boards, development boards, and single-board computers including Raspberry Pi, Feather, and similar platforms. Comes in a snap-open storage box.
Nylon hardware is non-conductive, lightweight, and easy to file or trim to size. It won't interfere with antennae, magnetometers, or sensitive electronics.
Key Features
- 420 Pieces – Screws, nuts, and hex standoffs in multiple lengths
- M2.5 Thread – Fits standard 2.5 mm mounting holes
- Non-Conductive Nylon – No electrical interference or short-circuit risk
- Snap-Open Storage Box – Keeps all pieces organised
Package Contents
- 120× M2.5 Hex Nuts
- 80× M2.5 × 4 mm Screws
- 80× M2.5 × 6 mm Screws
- 40× M2.5 × 10 mm Screws
- 20× 6 mm F-F Hex Standoffs
- 20× 8 mm F-F Hex Standoffs
- 20× 10 mm F-F Hex Standoffs
- 10× 12 mm F-F Hex Standoffs
- 20× 6 mm M-F Hex Standoffs
- 10× 12 mm M-F Hex Standoffs
Ideal For
- Mounting PCBs, breakout boards, and HATs
- Raspberry Pi and development board enclosures
- Prototyping and maker projects
- Applications where non-conductive hardware is required
Jargon buster
Plain-language definitions for the technical terms used above.
- breakout
- A breakout is a small circuit board that makes a tiny or hard-to-solder component easier to connect to with standard pins. It matters because this OLED module can be wired into a microcontroller project without needing to solder directly to the display’s fine contacts.
- M2.5
- A metric screw thread size with a 2.5 mm nominal diameter. It matters for mounting because screws, standoffs, and holes must use the same size to fit securely without damaging the board.
- Thread
- A low-power wireless mesh networking standard designed for smart home and IoT devices. It matters because Thread devices can relay messages through each other, helping build reliable networks for sensors and controllers.
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