- Home /
- Stainless Steel Fasteners /
- Metal Thread Screws /
- CSK Phillips Head Screws /
- CSK Phillips Metric Metal Thread /
- M2.5 Metal Thread CSK Phillip Head Screws
Shop Now
- Balustrades & Fencing
- Building and Construction Supplies
- Consumables
- Hand Tools
- Materials
-
Stainless Steel Fasteners
- Assortment trays
- Bolt Products
- Lag Screws
- Masonry
- Metal Thread Screws
- Miscellaneous Fasteners
- Nails
- Nuts
- Rivets
- Self Drilling Screws
- Self Tapping Screws
- Socket Drive Metal Threads
-
Stainless Decking Screws
-
Anchormark
- Anchormark Boardwalk Screws Stainless St
- Anchormark Cladding Screws Stainless Ste
- Anchormark Decking Screws Stainless Stee
- Anchormark Hard wood to Soft Wood Deckin
- Anchormark S2 Cladding Screws Stainless
- Anchormark S2 Timber to Aluminium Deckin
- Anchormark S2 Timber to Metal Decking Sc
- Anchormark Timber Panel Screws Stainless
- Anchormark Timber Screw Stainless Steel
- Anchormark Timber to Metal Screws Rustpe
- CSK Square Drive Screws
-
Anchormark
- Washer Products
- Stainless Steel Marine and Hardware Supplies
- Wire/Rigging
- Workwear
M2.5 Metal Thread CSK Phillip Head Screws
Description
M2.5 CSK Phillips Metal Thread Screws – Stainless Steel
M2.5 CSK (Countersunk) Phillips Metal Thread Screws in stainless steel are precision fasteners designed for neat, flush installation in small-scale assemblies. Featuring a countersunk head with a Phillips drive, these screws offer a clean, low-profile finish and easy installation using a standard Phillips screwdriver—ideal for applications requiring both accuracy and convenience.
Manufactured from corrosion-resistant stainless steel, they provide excellent durability and resistance to rust, making them suitable for electronics, robotics, instrumentation, and other precision engineering projects. The M2.5 metric thread ensures a reliable, secure fit in pre-tapped holes or with matching M2.5 nuts.
Available in various lengths, these stainless steel screws combine strength, clean aesthetics, and long-term performance in tight-tolerance environments where every detail counts.
