China planning supersonic missile that can fly, swim
Photo: South China Morning Post
Chinese scientists plan boron-powered supersonic missile that can fly and also swim like a traditional torpedo, according to researchers involved in the project.
The 5-metre (16.4 feet) missile will be able to cruise at 2.5 times the speed of sound at about 10,000 metres (32,800 feet) – the same altitude as a commercial airliner – for 200 kilometres (124 miles) before diving and skimming across the waves for up to 20km.
Once it is within about 10km (6.2 miles) of its target, the missile will go into torpedo mode, travelling underwater at up to 100 metres per second (200 knots) using supercavitation – the formation of a giant air bubble around it which significantly reduces drag, the researchers said.
It will also be able to change course at will or crash-dive to a depth of up to 100 metres (328 feet) to evade underwater defence systems without losing momentum.
Lead scientist Li Pengfei and his team said no existing ship defence system is designed to handle such a fast “cross-media” attack. “This can greatly improve the missile’s penetration capability,” they said.
One of the biggest challenges for the developers is the power system, because of the need to produce considerable thrust while breathing in either air or water. But Li’s team said the problem could be solved by using boron – a light element that reacts violently when exposed to both, releasing a huge amount of heat.
The team, from the college of aerospace science and engineering in the National University of Defence Technology in Changsha, Hunan province, unveiled a blueprint for the missile’s power system in the Sept 8 issue of the peer-reviewed Journal of Solid Rocket Technology, published by the Chinese Society of Astronautics.
– Chinese team claims ‘highly reliable’ communications during hypersonic flight –
Boron was briefly added to jet fuel by the United States Air Force in the 1950s to increase the power of supersonic bombers. But the project was abandoned because the ignited boron particles were hard to control and formed a layer of debris which gradually reduced engine performance.
The hypersonic race has rekindled interest in boron in recent years. China, for instance, has built air-breathing scramjet engines using solid fuel containing boron nanoparticles to accelerate missiles to five times the speed of sound or faster, according to openly available information.
The US military has similar programs. A study by the National Aeronautics and Space Administration (Nasa) funded by the US Navy last year found that nanotubes made using boron nitride, a combination of boron and nitrogen, could potentially be used to power hypersonic weapons travelling at speeds above 6,400km (4,000 miles) per hour.
But most boron-powered engines are designed to work only in the air. Researchers usually choose aluminium or magnesium as fuel to drive supercavitating torpedoes as they react more easily with water.
Li’s team said they have designed a boron-powered ramjet engine that could work both in the air and underwater.
– US admiral says China’s anti-ship ballistic missiles may not win a war –
There are some unique components, such as adjustable inlets and exhaust nozzles to maintain the boron’s burn efficiency in different environments, but the biggest change is in the fuel rods, according to their paper.
Boron usually accounts for about 30%of the total fuel weight in an air-breathing missile because of the many other chemicals required to control and prolong the strong combustion.
Li’s team has doubled the share of boron in the fuel and estimates the result could produce a thrust greater than that of aluminium in water.
“The cross-media ramjet uses a fuel-rich solid propellant, which burns with the external air or seawater entering into the ram to generate high-temperature gas and generates thrust through the nozzle,” the paper said.
“It has the high specific impulse and simple structure as an ideal power source for a cross-media anti-ship missile.”
This screen grab from a video by the People’s Liberation Army (PLA) Eastern Theater Command made available on the Eurovision Social Newswire (ESN) platform via AFPTV shows a missile being fired during a Chinese military exercise in China on Aug 4, 2022. (Photo: AFP)
The team said the increased boron content could cause some problems in mass production, ignition and combustion control, but these “can be solved by the modification of boron particles, improvement of manufacturing process, and the study of grain mass properties”.
Adjusting the thrust of a solid fuel engine is difficult. The boron powder, for instance, behaves as both solid and fluid when injected into the combustion chamber, making physical modelling or regulation of the burning process challenging.
And once started, the process cannot be stopped.
China has made some significant progress on solid propellent technology in recent years, including the application of multiple layers of coating on nanofuel particles to rein in their explosive behaviours.
– Chinese scientists work on hypersonic missile that can hit moving car –
Last year, China Aerospace Science and Technology Corporation built and tested a 3.5 metre (11.5ft) wide motor that generates 500 tonnes of thrust, the most powerful rocket engine ever built using a single segment of solid propellant.
And the Chinese Academy of Sciences’ new civilian solid-fuelled rocket Lijian One, with advanced combustion control technology, is twice as big as the DF-41, China’s largest road-mobile intercontinental ballistic missile.
But there are risks for China in relying on borofuels for mass-produced weapons, according to a material scientist in Beijing who is studying the volatile element.
China imports about half of its boron ores from overseas – mainly from the US – and it is about 100 times more expensive than aluminium.
“There is a growing concern that boron will become a target in the trade war,” said the researcher, who asked not to be named because of the issue’s sensitivity.
Author
