The Sharp Sword UCAV is one of China’s most high-tech drones, with a flying wing body and internal bomb bad that maximizes its stealth and range. This image is from its first flight on November 21, 2013.
The Sharp Sword UAV (unmanned aerial vehicle), China’s stealthy attack drone, just won second place in the National Science and Technology Advancement Prizes.
Considering the secrecy surrounding stealth drones to come out of China—there are relatively few photos of the Sharp Sword available, particularly as opposed to, say, the J-20 fighter the Sharp Sword’s victory is pretty noteworthy.
The drone, known as Lijian in Mandarin Chinese, is being paraded as a huge win for Chinese aviation technology. And it is.
The Lijian uses a flying wing body (just like the B-2 bomber and X-47B drone) in order to minimize its radar cross section. It has two bomb bays that can possibly up to 2 tons of ordnance.
The Sharp Sword is the first non-NATO stealthy unmanned combat aerial vehicle (UCAV). Built by Aviation Industry Corporation of China, with much of the work done by the Hongdu Aviation Industry Group, the Sharp Sword first flew in November 2013. Looking a bit like a mini-B-2 flying wing bomber, the UCAV has two internal bomb bays and a likely payload of about 4,400 pounds. Its engine is a non-afterburning WS-13 turbofan engine, with serpentine inlet to hide the engine from enemy radars (the first Sharp Sword does not use a stealthy nozzle due to its technology demonstrator status).
It has a length of about 33 feet, and a wingspan of about 46 feet.
Stealthy flying wing UCAVs, like the Sharp Sword, are more survivable (by virtual of stealth) than traditional UAVs like the Predator, and have more onboard room for mission avionics, plus computers for artificial intelligence.
Other similar foreign systems include the American X-47B, the British Taranis, and the French Neuron. Stealthy UCAVs have a number of advantages over their manned counterparts: they can fit the same internal payload onto a smaller airframe, and have much longer ranges, in addition to the typical advantages of unmanned aerial vehicles, like longer flight times.
Future iterations of the Sharp Sword are likely to be among the launch systems for Chinese combat AI.
Reporting from the Chinese Internet suggests that a second, even stealthier Sharp Sword began flying last year (with a stealthy engine). If flight testing with the prototypes goes as well as the initial flight tests did with the first airframe, the Sharp Sword could enter service as early as 2019-2020.
Initially, it’s believed that the Sharp Sword will be used for reconnaissance in areas with dense air defense networks, as well as tailing foreign warships.
As the Chinese develops a familiarity with the Sharp Sword, it could be used for combat operations as a first through the door weapon against highly defended, high-value targets, as well as an aerial tanker for other drones and carrier aircraft (akin to plans for the U.S. MQ-25).
There is even the possibility of carrier version for China’s planned next generation of catapult equipped aircraft carriers.
Eventually, advances in distributed systems and artificial intelligence could help the Sharp Sword be a robotic wingman to manned aircraft in an unmanned/manned operational concept. It could even take on autonomous missions of its own.