Mk-41 Vertical Launching System Parts

End item NSN parts
Filter By: Hexagon Head Cap Screws
page 1 of 1
Part Number
NSN
NIIN
0014767 Hexagon Head Cap Screw
006882111
01438 Hexagon Head Cap Screw
000712511
0702087 Hexagon Head Cap Screw
002693219
10082475 Hexagon Head Cap Screw
002693219
10333130 Hexagon Head Cap Screw
000712511
10383837 Hexagon Head Cap Screw
006882111
10KP192 Hexagon Head Cap Screw
007247219
13-644 Hexagon Head Cap Screw
002693219
179850 Hexagon Head Cap Screw
002693219
17C622 Hexagon Head Cap Screw
006882111
186612 Hexagon Head Cap Screw
006882111
1C6167P21 Hexagon Head Cap Screw
002693219
1C6175P19 Hexagon Head Cap Screw
006882111
1C644 Hexagon Head Cap Screw
002693219
2077-6809-001 Hexagon Head Cap Screw
006882111
251409 Hexagon Head Cap Screw
002693219
29420462 Hexagon Head Cap Screw
006882111
303857 Hexagon Head Cap Screw
006882111
358000 Hexagon Head Cap Screw
006882111
35A2A323 Hexagon Head Cap Screw
007247219
Page:

Vertical Launching System, Mk-41

Picture of Mk-41 Vertical Launching System

The Mark 41 Vertical Launching System (Mk 41 VLS) is a shipborne missile canister launching system which provides a rapid-fire launch capability against hostile threats.

Refinement of the initial concept of Aegis system in the 1960s continued through the 1960s and 1970s, and the Mk 41 was conceived in 1976.

The Mk 41 is capable of firing the following missiles: RIM-66 Standard, RIM-67 Standard, RIM-161 Standard Missile 3, RIM-174 Standard ERAM, RGM-109 Tomahawk, RUM-139 VL-ASROC, RIM-7 Sea Sparrow, and RIM-162 ESSM.

Mk 57 VLS is the development of Mk 41 VLS. Developed by Raytheon, the primary improvement of Mk 57 GMVLS (guided missile vertical launching system) over Mk 41 is its exhaust gas management system that can accommodate new missile designs having up to 45 percent greater rocket motor mass flow rate than that of Mk 41. The unique symmetric geometry of the U-shaped gas management system facilitates the egress of gases, while minimizing flow into witness cells and reversed flow into the active cell. Elimination of a missile deluge system significantly reduces maintenance and personnel requirements, and protects against accidental missile wet-down.

Compare Now »
Clear | Hide