3M™ Lapping Film Sheet 261X is the standard of 3Ms lapping films. The product is made from precisely graded aluminum oxide particles coated on a 3 mil polyester film. The product provides uniform finishes on various substrates and delivers consistent cut rate, finish and life.
Features and Benefits
For polishing ferrule ends of fibre optic connectors Available in a variety of colour-coded finishing grades Supplied in a packs of 50 sheets Sheet size is 216 x 280mm
Applications
Lapping film is used for fine polishing and sharpening of a number o fmaterials, and is often used for polishing optical fibre optic connectors.
Why choose 3M?
3M is a leading innovator of abrasive technologies, constantly evolving to provide ideal solutions to industrial and commercial applications. With 3M you can be assured of a wide selection of quality products.
Buffer out minute defects in fibre-optic connectors with this aluminium-oxide lapping film from 3M. It delivers precise cutting ability and high abrasive power that ensures consistent results on a wide range of materials including glass and ceramics. The film is ideal for polishing fibre-optic connectors as well as lube-buffing hard-disk drives. It's compatible with a variety of sanding and buffing machines and is hard-wearing, so offers an extended service life. This 0.3-micron film is colour-coded white for quick and easy identification of its grit size.
• Strong polyester backing from improved durability • Can be used more than once to reduce waste and enhance workplace efficiency • Tight particle distribution for precision and a uniform finish • Non-toxic and doesn't produce dust, so won't pose a health risk to personnel
Applications
• Telephone exchanges • Plant equipment • Local area networks • Security systems
Can I use this lapping film in dirty industrial conditions?
Yes, you can use this 3M lapping film in harsh industrial conditions as it has good resistance to water, oil and most solvents. If you need to store it, make sure it's kept at a temperature between +10°C and +30°C.