Broaching-type fasteners are versatile components suitable for applications on printed circuit boards and various other brittle materials. They find frequent use on materials made of glass laminate or epoxy bases. These fasteners are specifically designed for materials that are too thin to support traditional threading methods effectively.

OneMonroe offers a range of broaching-type industrial fasteners, making them available in various thread sizes and materials. This versatility allows you to select the right fastener to meet your specific requirements and work effectively with the materials at hand.

Unit of Measure
Items
SKF_CD

SKF00256C - 2-56 Nuts for PC Boards

SKF_CD

SKF00256D - 2-56 Nuts for PC Boards

SKF_CD

SKF00440C - 4-40 Nuts for PC Boards

SKF_CD

SKF00440D - 4-40 Nuts for PC Boards

SKF_CD

SKF00632C - 6-32 Nuts for PC Boards
Description N/A Stainless 2-56 Nuts for PC Boards - SKF00256C N/A Steel 2-56 Nuts for PC Boards - SKF00256D N/A Stainless 4-40 Nuts for PC Boards - SKF00440C N/A Steel 4-40 Nuts for PC Boards - SKF00440D N/A Stainless 6-32 Nuts for PC Boards - SKF00632C
Long Description N/A CAPTIVE PART # - CKFS2256, BROACH-TYPE NUT, SS, THREAD - 2-56 N/A CAPTIVE PART # - CKF2256, BROACH-TYPE NUT, CRS, ELECTRO-TIN, THREAD - 2-56 N/A CAPTIVE PART # - CKFS2440, BROACH-TYPE NUT, SS, THREAD - 4-40 N/A CAPTIVE PART # - CKF2440, BROACH-TYPE NUT, CRS, ELECTRO-TIN, THREAD - 4-40 N/A CAPTIVE PART # - CKFS2632, BROACH-TYPE NUT, SS, THREAD - 6-32
Weight
N/A 0.0008 N/A - N/A 0.0007 N/A 0.0007 N/A 0.0012
UOM N/A M
Thread
N/A 2-56 N/A 2-56 N/A 4-40 N/A 4-40 N/A 5-32
Material
N/A Stainless Steel N/A Low Carbon Steel N/A Stainless Steel N/A Low Carbon Steel N/A Stainless Steel
Finish N/A Passivated N/A Electro Tin N/A Passivated N/A Electro Tin N/A Passivated
Hole Diameter
N/A 0.147 +.003in (.08mm)/-.000 N/A 0.147 +.003in (.08mm)/-.000 N/A 0.166 +.003in (.08mm)/-.000 N/A 0.166 +.003in (.08mm)/-.000 N/A 0.213 +.003in (.08mm)/-.000
Min Material Thickness N/A 0.16 N/A 0.16 N/A 0.17 N/A 0.17 N/A 0.22
Min. Dist to Edge N/A 0.06