U.S. Marine Corps begins CH-53K helicopter receives

U.S. Marine Corps begins CH-53K helicopter receives

Sikorsky delivered the first CH-53 King Stallion helicopter to the U.S. Marine Corps (USMC) May 16. The aircraft is the first of an expected 200 helicopters for the Marine Corps’ fleet.

The helicopter will be stationed at Marine Corps Air Station New River in Jacksonville, North Carolina. Sikorsky, a Lockheed Martin company, expects to deliver its second CH-53K helicopter to the USMC in early 2019.

The CH-53K is the new build replacement for the U.S. Marine Corps’ aging CH-53E Super Stallion fleet. The CH-53E first flew in 1974 and entered service with the USMC in 1981.

“Our first delivery of a CH-53K to the Marine Corps marks the start of a new generation of true heavy lift helicopter deliveries by Sikorsky that bring unsurpassed and expanded capability across the modern battlefield to provide tremendous mission flexibility and efficiency in delivering combat power, humanitarian assistance or disaster relief for those in need,” said Dan Schultz, Sikorsky President and former CH-53 pilot. “With 18 additional aircraft in various stages of production already, the entire Sikorsky team, in partnership with our suppliers, is looking forward to additional deliveries to delight our customer.”

The CH-53K test program recently completed the following milestones: maximum weight single-point cargo hook sling load of 36,000 pounds (16,329 kilograms); forward flight speed of over 200 knots; 60 degrees angle of bank turns; altitude of 18,500 feet mean sea level (MSL); 12-degree slope landings and takeoffs; external load auto-jettison; and gunfire testing.

The heavy lift helicopter made its international debut and showcased its maneuverability and advanced fly-by-wire technology during demonstration flights at the recent ILA Berlin Air Show in Berlin, Germany.

The CH-53K is an all new aircraft, using modern intelligent design. The rugged CH-53K helicopter is designed to ensure reliability, low maintenance, high availability and enhanced survivability in the most austere and remote forward operating bases.
Source: www.defenceandtechnology.com
Google+ Linkedin

Leave a Reply

Your email address will not be published. Required fields are marked *

*

*

*

This site uses Akismet to reduce spam. Learn how your comment data is processed.