Serving our customers with quality and safety first.
0.890in. and 0.912in. ⁓59/64"
1.464in.
0.219in. and 0.239in.
45.0 rockwell c and 53.0 rockwell c
steel comp 1060 or steel comp 1070 or steel comp 1078 or steel comp 1080
66 fed std all material responses
phosphate
MIL-P-16232, ty z mil spec single treatment response
split HELICAL-Right hand
2 style and a class
Split helical-right hand
Steel comp 1060 or steel comp 1070 or steel comp 1078 or steel comp 1080
0.219 inches minimum and 0.239 inches maximum
1.464 inches maximum
0.890 inches minimum and 0.912 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 phosphate surface treated 0.219" material thickness 1.464" outside diameter 0.890" hole diameter
1. | NASM35338 | Cage 80205 |
2. | 02010-00022 | Cage 61888 |
3. | 116125 | Cage 7X677 |
4. | 405132503 | Cage S5686 |
5. | MS35338-71 | Cage 80205 |
6. | 116125 | Cage 45RP7 |
7. | 116125 | Cage 12204 |
8. | 116125 | Cage 21450 |
9. | MS35338-71 | Cage 96906 |
10. | 116125 | Cage 92679 |
11. | 116125 | Cage 24617 |
12. | 116125 | Cage 31007 |
13. | 405132503 | Cage 1919A |
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