These Heavy Duty Self-Clinching Nuts are available as either locking or non-locking. You may choose heat treated or non-heat treated, which offers an opportunity to upgrade fastening quality with appreciable cost reduction over weld nuts. They are perfect for aluminum and controlled steel applications.
All self-clinching fasteners install into a round hole that may be punched or drilled in ductile materials. Heavy Duty Self-Clinching Nuts provide a permanently attached fastener, which becomes an integral part of the panel or frame to eliminate problems associated with loose hardware. Self-Clinching fasteners provide added value by speeding initial assembly as well as servicing in the field, keeping costs to a minimum.
All self-clinching fasteners install into a round hole that may be punched or drilled in ductile materials. Heavy Duty Self-Clinching Nuts provide a permanently attached fastener, which becomes an integral part of the panel or frame to eliminate problems associated with loose hardware. Self-Clinching fasteners provide added value by speeding initial assembly as well as servicing in the field, keeping costs to a minimum.
Unit of Measure
Specifications
Thread |
N/A Class 2B, MIL- S-7742; (6H ISO metric) |
Thread Size |
N/A M6x1.0 |
Knob |
N/A Non-Locking |
Dimension B |
N/A 12.8 mm |
Maximum Dimension A |
N/A 8.72 mm |
Maximum Dimension D |
N/A 1.48 mm |
Hole Inside Diameter |
N/A 8.75 mm |
Minimum Center of Hole to Edge of Panel |
N/A 10 mm |
Minimum Panel Thickness |
N/A 1.48 mm |
Non Locking C1 |
N/A 5.0 in0.12 mm |
Non Locking C1 Tolerance (±) |
N/A 0.005 in |
Use In |
N/A CFH-Materials with Rockwell Hardness of B-80 or less and CFHN & CFHNL-Materials with Rockwell Hardness of B-60 or less. |
Locking Performance |
N/A Prevailing torque complies with the requirements of IFI-100/107 for Grade B (inch) and ANSI B18:161M Class 9 (metric) locknuts. |
Features and Benefits
Features and Benefits |
N/A Self-clinching fasteners are pressed into holes in sheet metal by applying a steady squeezing force. This results in the cold-flow of sheet material, which is displaced by the knurl, into the undercut area on the shank of the fastener. Once fully embedded, the knurled area prevents torque-out during tightening of the mating part. |