Self-clinching standoffs are a type of fastener that is used to provide a secure connection between two objects. The standoff has a threaded end that is screwed into a hole in one object, and a crimped end that is inserted into a hole in the other object. The crimped end of the standoff expands when it is inserted into the hole, creating a secure connection. Self-clinching standoffs are typically made of steel or stainless steel and are available in a variety of sizes and finishes.
Unit of Measure

Item Description

N/A Captive SO-6440-14ZI Standoff, Through Threaded, Steel Zinc, #4-40x14

Product Major Category

N/A Fasteners (Self Clinching)

Measurement

N/A Unified

Search Measurement

N/A Unified

Thread Size

N/A 4-40

Material

N/A Steel

Search Material

N/A Steel

Search Material - Sub

N/A Steel, Heat Treated

Finish

N/A Zinc

Length

N/A 7/16

Product Category ID

N/A PRODUCTS-FASTENERS-CLINCHFASTENER-STANDOFFS

A

N/A .212 -0.005

Product Minor Category

N/A Standoffs - Clinch

Sheet Min

N/A 0.04

Hole Diameter

N/A .213 +0.003

C

N/A .125 -0.005

H

N/A 0.25

CL to Edge

N/A 0.27

060in CRS Max Tightening Torque

N/A 4.7 in.- lbs.

060in CRS Installation Force

N/A 2100 lbs.

060in CRS Push Out

N/A 220 lbs.

060in CRS Torque Out

N/A 18 in.- lbs.

060in CRS Pull Through

N/A 325 lbs.

060in 5052 H34 Aluminum Installation Force

N/A 1075 lbs.

060in 5052 H34 Aluminum Push Out

N/A 155 lbs.

060in 5052 H34 Aluminum Torque Out

N/A 10 in.- lbs.

060in 5052 H34 Aluminum Pull Through

N/A 270 lbs.

CR Similar to Brand Pem

N/A SO-6440-14ZI

Product Selector

N/A Standoff / Clinch

Product Guide

N/A Self-Clinching Standoffs Guide

About OneMonroe

N/A VMI - Custom Manufacturing, Technical Guides - Quality - Company Overview

Item Notes

N/A Product image(s) are representational. Please see manufacturer specification or contact a Sales Engineer for more information. Prop 65 Warning: This product may contain chemicals known to the State of California to cause cancer, and birth defects or other reproductive harm.