Serving our customers with quality and safety first.
0.141in. and 0.151in. ⁓5/32"
0.239in.
0.025in. and 0.031in.
45.0 rockwell c and 53.0 rockwell c
steel
fed std 66, aisi C1060 thru C1080 or sae 1060 thru 1080 fed std single material response
cadmium
QQ-P-416, ty 2, cl 3 fed spec single treatment response
split HELICAL-Right hand
1 style and a class
Split helical-right hand
Steel
0.025 inches minimum and 0.031 inches maximum
0.239 inches maximum
0.141 inches minimum and 0.151 inches maximum
Schedule B number: 7318210000
nmfc 194160
Spring washers and other lock washers, iron or steel
FSC 5310 ⁓ Nuts and washers
Note-nuts and washers, including specially designed, are to be classified in this fsc. a. nuts are a small metal block made in a variety of shapes such as square and hexagonal which is drilled and internally threaded. b. washers are a perforated piece of metal, leather, or other materials of various shapes or forms. they are used primarily as a seat for a bolt, nut, screw, rivet or nail to distribute pressure and prevent endwise motion over an area and/or to prevent movement between two parts by means of restraining features created by the shape of its edges.
Excluding bearing thrust washers (fsc 3120); shims (fsc 5365); ring spacers (fsc 5365); plate spacers (fsc 5365); lock rings (fsc 5365).
split helical-right hand cadmium surface treated 0.025" material thickness 0.239" outside diameter 0.141" hole diameter
1. | MS35337-41 | Cage 96906 |
2. | FFW84 | Cage 81348 |
3. | 946151-1060 | Cage 06481 |
4. | HC799G06L | Cage 06845 |
5. | N405P7C6 | Cage 24446 |
6. | 4198008-001 | Cage 05869 |
7. | 310-3260-000 | Cage 79807 |
8. | 5953020 | Cage S0522 |
9. | 93618-107 | Cage 49671 |
10. | 93618-707 | Cage 49671 |
11. | 93618-807 | Cage 49671 |
12. | MECD368613-31 | Cage 74082 |
13. | G289598-2 | Cage 92663 |
14. | 10444 | Cage 82423 |
15. | G289598-2 | Cage 64959 |
Nothing similar to this part number was found in our inventory
A washer which is usually round with a centrally located hole. its edges and two bearing surfaces are so designed that applied pressure brings into play the spring tension and/or frictional locking principle which materially resists any tendency toward turning. it may be made of one or two pieces