LRASM: The Navy’s Game Changer Missile Russia and China Should Fear?

Posted: May 3, 2018 | Author: | Filed under: Uncategorized | Tags: , , , , | 7 Comments

A US LRAsM. Wikipedia Common’s image

Sebastien Roblin

April 21, 2018

On October 11, 1967, the Israeli destroyer Eilat was sunk by three P15 cruise missiles fired by two dinky sixty-one-ton patrol boats of the Egyptian Navy firing from nearly twenty miles away. The realization dawned on navies across the world that long-range “over-the-horizon” missiles had replaced the gun, torpedo and aerial bomb as the preeminent antiship weapon in naval warfare. German air-launched antiship missiles had already scored some notable successes during World War II, but now it was clear that even small surface combatants could be capable launch platforms.

A decade later, the U.S. Navy debuted the AGM-84 Harpoon missile, a subsonic sea-skimming weapon with a 488-pound warhead that came in variants that could fire from a ship, a submarine or an airplane. The Harpoon still serves with dozens of countries on platforms including Type 209 submarines of the Turkish Navy, modified Fokker 50 airliners of the Singaporean Air Force and early-model Arleigh Burke–class destroyers of the U.S. Navy. The land-attack SLAM-ER variant remains an important standoff weapon for Navy fighters. The antiship Harpoon has also seen action in a number of naval skirmishes, sinking several missile boats.

However, the Harpoon’s striking range of seventy to 150 miles (depending on type) has fallen far behind competing antiship missiles. Quite simply, after the end of the Cold War, Russian and Chinese surface-warfare capabilities appeared modest, so the U.S. Navy became preoccupied with planning for littoral operations. Even harpoon-launch capabilities were removed from Oliver Hazard Perry–class frigates and U.S. attack submarines, and not built into later Arleigh Burke–class destroyers. Navy surface warships did eventually gain the capability to use longer-range SM-6 missiles against both air and sea targets, but these employ a small 140-pound warhead, less optimized against large ships.

Meanwhile, Russia and China developed antiship missiles that outranged their U.S. equivalents, many of them specially designed to overcome anti-missile defenses using supersonic speed and evasive maneuvers. Notable examples include the Russian ramjet-powered P-800 Oniks cruise missiles (capable of streaking at naval targets up to 370 miles away while flying two-and-a-half times the speed of sound); the Russian-Indian BrahMos, which weighs six thousand pounds and performs an S-shaped evasive maneuver before impact; and the Chinese YJ-18, derived from the Kalibr cruise missile, which accelerates to Mach 3 on its terminal approach.

Enter the LRASM

The Navy has finally pushed into production a next generation surface-to-surface missile under its “Offensive Anti-Surface Weapon” program—by adapting a weapon already in use with the Air Force. The AGM-158 Joint Air-to-Surface Standoff Missile is a stealthy and highly precise surface-skimming cruise missile with a range of 230 miles, or 620 for the Extended Range AGM-158B. The shorter-range AGM-158A model saw its combat debut on April 4, 2018, when two B-1B bombers launched nineteen of the stealth missiles at a Syrian research center in Barzeh.

Lockheed Martin went ahead and developed the antiship AGM-158C model, designated rather plainly by the Navy as the “Long Range Anti-Ship Missile.” Rather than a Russian-style supersonic missile that’s too fast for a ship’s defenses to intercept, the LRASM is the missile an enemy vessel simply won’t see coming until too late. The missile retains the basic model’s inertial and jam-resistant GPS navigation system, its high-efficiency F107 turbofan engine and its thousand-pound penetrator/fragmentation warhead—more than twice the weight of the Harpoon’s.

However, unlike the ground targets the JASSM was designed to destroy, ships are mobile. Therefore, the LRASM carries multiple sensors allowing it to autonomously search for and identify adversary warships, while sorting out civilian, friendly or low-priority enemy vessels, by matching their radar profile to data in an onboard database. The missile also transmits data, including day/night camera feed, back to its launch platform via a two-way data link, which allows the launcher in turn to feed it during course corrections.

An LRASM is first fired using targeting data from the firing platform towards its target, which it approaches at medium altitude. However, if the data link is disrupted the missile’s guidance algorithm allows it to acquire and home in on a target without external direction, or to maneuver around neutral or hostile ships that interpose themselves in its path.

Guidance of the missile is handed over to a radio-frequency sensor (or Electronic Support Measure) as soon as an appropriate target enters range. Rather than exposing itself by using its own radar to search for a target, the missile stealthily homes in on an enemy adversary’s radar signals—the very radar intended to warn the target of a missile attack.

In the terminal stage, the missile descends to skim low over the ocean’s surface, and the RFS seekers hands over guidance to an infrared sensor which has sufficient fidelity to target specific locations of an enemy vessel to maximize damage. If multiple LRASMs are inbound on the same target, their networked software allows them to time their terminal approach for a simultaneous swarming attack, helping them oversaturate enemy defensive fire. The LRASM also dispose of electronic counter-countermeasures (ECCM) to overcome enemy defense systems.

All these systems do add a few hundred pounds to the missile, leaving it with a decreased range of at least 230 miles, though some sources suggest it may actually reach up to 350 miles.

The AGM-158C is entering service in 2018 with the Air Force’s B-1B bombers. The Navy’s carrier-based FA-18E or F Super Hornet jets will follow in 2019, and a few years later it will enter service with cruisers and destroyers equipped with the ubiquitous Mark 41 Vertical Launch System, which can pack a wide variety of munitions in its launch “cells.” The surface-to-surface LR-ASM variants would be fitted with Mark 114 rocket boosters which hare jettisoned after launch. You can see a surface test launch here.

For smaller frigate-sized vessels that don’t use the Mark 41 VLS (in U.S. service, Littoral Combat Ships or some future FFG(X) design), Lockheed Martin is developing a deck-mounted canister-launched version—though the U.S. Navy has chosen the cheaper, shorter-range Norwegian Naval Strike Missile to fulfill this role for now.

LRASM and Naval Strategy

All in all, the LR-ASM could significantly improve the striking power and reach of U.S. surface warships, and fits well with a new doctrine of “Distributed Firepower,” which emphasizes networking sensor data and spreading firepower over multiple launch platforms. Furthermore, the missile’s redundant guidance systems would remain effective even in a heavy electronic-warfare environment against a tech-savvy opponent. There are a few caveats to consider, however.

Long-range missiles can only be used to their fullest potential when combined with equally long-range sensors feeding targeting data to the launch platform—not something that can be taken for granted. Fortunately, between drones and aircraft capable of networking their sensor data, such as the F-35C stealth fighter and new Cooperative Engagement technology under development, the U.S. Navy has prospects for executing such a strategy.

A second consideration is that while the stealthy LRASM may evade radar direction and delay response of antiaircraft defenses until too late, its subsonic speed may leave it a comparatively easy target for shorter-range close-defense autocannons and heat-seeking missiles—though the LRASM supposedly has a reduced infrared signature.

A final issue is price: the LRASM appear to cost roughly $3 million per missile, making it a premium asset at over twice the cost of newer-model Harpoon missiles. This could limit the number fielded. Currently, the Navy seeks to acquire 467 LRASMs, though in the near term only twenty-three are on order.

Down the line, Lockheed Martin has explored creating a submarine-launched version of the LRASM, though that would require substantial modifications to enable underwater firing. Another concept is a supersonic, ramjet-powered LRASM-B similar along the lines of the BrahMos missile, which could prove difficult for short-range defenses to intercept. Like the Air Force, the Navy might also be interested in a longer-range variant of the LR-ASM, perhaps by lengthening the fuselage so it can carry extra fuel, or by lightening the warhead. Longer striking range would make it the LRASM practical as a land-attack weapon, though one that comes at a steeper price than the Tomahawk.

Currently, however, efforts are focused on bringing into service the air-launched AGM-158C, which has been successfully test-fired from B-1 bombers six times—most recently on March 20. The first full test launch from a Super Hornet is scheduled for later this year. A 2017 annual report from the Department of Testing & Evaluation is relatively satisfactory, though it does register concerns over cybersecurity and notes that there are difficulties modeling performance of the LRASM’s RFS sensor.

Large-scale naval warfare has been relatively rare since the end of World War II. Hopefully that won’t change in the twenty-first century. However, as China rapidly enlarges its navy with cost-efficient, hard-hitting and far-reaching warships, the U.S. Navy will be compelled to upgrade its neglected surface-warfare capabilities to defend its primacy.

Sébastien Roblin holds a master’s degree in conflict resolution from Georgetown University and served as a university instructor for the Peace Corps in China. He has also worked in education, editing and refugee resettlement in France and the United States. He currently writes on security and military history for War Is Boring.

Source: National Interest “LRASM: The Navy’s Game Changer Missile Russia and China Should Fear?”

Note: This is National Interest’s article I post here for readers’ information. It does not mean that I agree or disagree with the article’s views.

China offers export version of YJ-12 supersonic anti-ship missile

Posted: November 19, 2016 | Author: | Filed under: Uncategorized | Tags: , , , | Comments Off on China offers export version of YJ-12 supersonic anti-ship missile

The CM-302 missile exhibited at Airshow China 2016 is being marketed for export as the world's best anti-ship missile, according to Chinese news media. Source: Via sina.com.cn

The CM-302 missile exhibited at Airshow China 2016 is being marketed for export as the world’s best anti-ship missile, according to Chinese news media. Source: Via sina.com.cn

Andrew Tate, London and Neil Gibson, London – IHS Jane’s Defence Weekly

09 November 2016

The CM-302 missile exhibited at Airshow China 2016 is being marketed for export as “the world’s best anti-ship missile”, according to Chinese news media.

The missile’s manufacturer, state-owned China Aerospace Science and Industry Corporation (CASIC), reportedly justifies the claim on the grounds that the missile is supersonic throughout its flight, can be launched from air, land, and naval platforms, and used in a land attack role.

A report published by the China Daily newspaper also confirmed that the CM-302, which was allegedly one of the exhibits to have attracted the most enquiries at this year’s air show in Zhuhai, is closely related to the YJ-12 supersonic anti-ship missile (ASM), which is in service with China’s armed forces.

The report states that the CM-302 has a range of 280 km, a warhead of 250 kg, and a 90% probability of hitting its target. CASIC claims that the missile is effective against large warships, such as aircraft carriers and destroyers, with a single missile having the capacity to disable a 5,000-tonne warship.

While the news report provides few details about the CM-302’s propulsion and flight profile, it said that the missile sea-skims for most of the flight and manoeuvres during the terminal phase to defeat the defensive weapons of ships.

Previously published reports about the YJ-12 indicate that the ramjet-powered missile achieves a mid-course speed of Mach 1.5-2, accelerating to Mach 3 or higher during the terminal phase of the flight.

The missile is guided by satellite navigation – specifically by China’s BeiDou Navigation Satellite System – to a target location, which can be updated by data link. Terminal homing is driven by an active radar seeker.

Assuming the missile’s physical characteristics are similar to those of the YJ-12, the CM-302 is likely to be a large missile of around 7 m in length, 0.6 m diameter, and with an estimated weight of around 2,000-2,500 kg.

Source: IHS Jane’s 360 “China offers export version of YJ-12 supersonic anti-ship missile”

Note: This is IHS Jane’s 360’s article I post here for readers’ information. It does not mean that I agree or disagree with the article’s views.

The Real Military Threat from China: Anti-Ship Cruise Missiles

Posted: January 26, 2015 | Author: | Filed under: Uncategorized | Tags: , , , , , , , , | Comments Off on The Real Military Threat from China: Anti-Ship Cruise Missiles

PLA's new anti-ship cruise missiles

PLA’s new anti-ship cruise missiles

During the 1982 Falklands War, Argentina possessed a measly total of five Exocet anti-ship cruise missiles with which to face down the Royal Navy in the South Atlantic. Had that number been more like 50 or 100, that conflict might well have had a very different ending. This important lesson has not been lost on China’s military chiefs. Indeed, China has placed great emphasis on anti-ship cruise missile (ASCM) development over the last three decades and is now set to reap the strategic benefits of this singular focus.

Western defense analysts have taken up the habit of fixating on the “whiz-bang” aspects of Chinese military modernization, such as the anti-ship ballistic missile (ASBM), or threats that are largely hypothetical, such as Beijing’s supposedly fearsome cyber arsenal. However, it will be unwise to ignore certain more mundane threats of proven lethality. These concern, at least in part, China’s emergent naval air arm and not the carrier-based part of that air-arm – which continues to be the red herring of Chinese naval development, at least for now. Flying from bases in the Mainland out to longer ranges with more sophisticated search radars and electronic countermeasures, the large fleet of land-based aircraft will now deploy some of the world’s most advanced anti-ship cruise missiles to boot. This rather mature capability might be described as “air-sea battle” with Chinese characteristics.

This edition of Dragon Eye probes a survey from the October 2014 issue of Mandarin-language defense magazine 舰载武器 [Shipborne Weapons] of “中国海军空基对海打击力量” [The Chinese Navy’s Air-Based Maritime Strike Force]. The magazine is published by a Zhengzhou institute of the China Shipbuilding Industry Corporation (CSIC), a primary actor in China’s ongoing naval modernization process.

Hardly Satisfied

The background sketch of this force reveals a keen appreciation by the Chinese analyst of the PLA Navy’s early difficulties in developing a naval air strike force. It is noted that the absence of such a force was plainly revealed during the 1974 battle with Vietnam for the Paracels in which Chinese supporting forces were totally absent in the air above the sea battle. With the initial deployment of the stubby Q-5 attack aircraft, as well as the low-performing H-6 bomber and J-7 fighter-bomber, China could be said to have a strike force, though admittedly one with rather pathetic capabilities. The Q-5 could hardly muster a combat radius of 300 km, the H-6 was too expensive, and the J-7 suffered from a weak radar, low survivability, and backward electronic systems.

A turning point in Beijing’s quest to develop a credible “air-sea battle” strategy occurred in 2004 with the arrival of 24 Su-30MK2s from Russia. For the first time ever, the Chinese Navy possessed a modern, capable strike platform. Not only could this aircraft fly well beyond the first island chain to a radius of about 1,300km, but these imported planes came equipped with the highly prized Mach 3 KH31 ASCM. At the same time, Chinese military leaders were not content to rely on imported weaponry and during the late 1990s pursued extensive upgrades for both the H-6 bomber and the J-7 fighter bomber.

The H-6 M/G joined the Chinese Navy in 2003-04 and featured an advanced search radar, fire control, navigation, communications, and electronic countermeasures systems. Similar improvements and a new engine were among the major alterations to J-7 that resulted in the JH7A, which became a major focal point of Chinese naval strike aviation for the last decade. The author of this analysis concludes: “… JH7A has received lot of resources from the Chinese Navy, and at this time there are already three regiments comprising more than 80 aircraft in service. Together with the 24 Su-30 MKK2 multi-role fighters, they form the foundation of the Chinese Navy’s tactical strike force against sea [targets].”

Above all, however, it is the widespread use of the YJ83 ASCM (C802) with a 150 km range in combination with the new, upgraded aircraft variants discussed above that has radically improved China’s ability to strike naval surface targets from the air over the last decade. A copy of this missile made headlines when one struck and achieved a mission kill against an Israeli corvette in 2006. Its effectiveness is further suggested by the many countries that have sought to purchase this particular Chinese ASCM. The article interestingly notes that while the YJ83 is subsonic, the imported Russian-made supersonic KH31 “in certain situations with respect to combat effectiveness” actually does not compare favorably to the YJ83. But this analysis also suggests that, actually, even in the scenario of a multi-axial attack the YJ83 is “less than ideal” against a carrier battle group or large-size air defense destroyer. Summing up the appraisal of China’s first generation aerial maritime strike forces, the author concludes candidly that compared to neighboring armed forces, that Chinese forces were “并不强大” [not especially impressive], but against USN carrier battle groups or against Japanese forces “更难以发挥什么作用” [they would hardly have any use at all].

China’s New Generation of Aerial Maritime Strike Forces

By contrast, according to this late 2014 Chinese analysis, “… the second generation of long-range aerial maritime strike forces … will be completely able to satisfy the Chinese Navy’s strategic combat requirements for the new century.” It continues that internet sources and photographs reveal that the “second generation forces are already equipping combat forces …”

The JH-7B fighter attack represents a further dramatic refinement of this workhorse of Chinese maritime strike aviation. A prototype first flew in 2012, and serial production is apparently expected to begin in 2015. The improved aircraft is said to increase the combat radius to as far as 1,800 km and even out to 4,500km since it has the aerial refueling capability that its predecessor lacked. Within the Chinese Navy’s developing “high-low mix,” this airframe will form the lower class platform and this analysis explicitly suggests the JH-7B’s “low price” is a factor in the acquisition strategy. A more high performance strike aircraft will be the J-16, which seems to be an indigenized version of the Su-30MKK2. This report claims, moreover, that it will be superior to the Russian aircraft in several respects, including its sensors. This new aircraft is said to be already entering service with the PLA Navy. Interestingly, the article notes that while a large strike platform is desirable, the PLA Navy nevertheless does not expect to continue improvements to the H-6 bomber, but rather prefers a complete redesign of an aircraft intended to carry 8-10 long-range anti-ship missiles out to ranges of 3,000 km or more.

But as anyone familiar with the B-52’s long run in service with the U.S. Air Force, maritime strike is not really about the aircraft, which will be by and large “shoot and scoot,” but rather about the missile. Here, the news is grim. This Chinese analysis yields up two new and potent arrows in the Chinese Navy’s quiver. The first is the Mach 3 YJ-12. This supersonic ASCM is capable of ranges up to 300 km. The second is a sub-sonic ASCM with a range of up to 800 km that is designated as YJ-100. Such capabilities imply that, as least for the near future, U.S. forces may be “outgunned” by China’s emerging ASCM inventory. Nor is it clear that U.S. defense analysts fully understand the nature of the threat. A 2014 U.S. government-sponsored study of the Chinese ASCM threat, for example, seems to largely neglect the “second generation” of aerial maritime strike platforms, both missiles and aircraft, discussed in this Chinese analysis.

According to this Chinese article, China aerial maritime strike has increased its combat efficiency in recent years by tenfold. It is noted that further breakthroughs are required (e.g. long range reconnaissance), but this Chinese author concludes: “The building of the second generation aerial maritime strike force will allow China to effectively control neighboring sea areas and sea lines of communication …” Future Chinese ASCM designs will seek to push the envelope on speed up to Mach 4 and even Mach 6, according to this analysis.

A standard response to concerns over Chinese aerial maritime strike forces is that U.S. aircraft and pilots are superior plane-for-plane and pilot-for-pilot. Perhaps that is still true. Hence, the Chinese attack aircraft will hypothetically be “splashed” before getting close enough to unleash their deadly array of missiles. Unfortunately, that perspective does not sufficiently account for not only the increasing range and sophistication of Chinese missiles, but also the likelihood that Chinese missiles will destroy air bases such as Kadena in the first phase of any conflict. That opening salvo from China’s Second Artillery could leave China’s large air forces a relatively free hand to establish air superiority and to hunt widely in the near seas and beyond for U.S. carrier battle groups and other adversary surface action groups. This Chinese article seems to provide even more of a basis for the argument to invest in the U.S. Navy’s submarine force, which is nearly invulnerable to Chinese ASCMs, or in the versatile F-35B that may yet succeed in hiding out and operating from remote and rugged airstrips around the Asia-Pacific. It also perhaps strengthens the argument for caution and restraint in our dealing with the Panda, which evidently has increasingly sharp claws.

The author of this article Lyle J. Goldstein is Associate Professor in the China Maritime Studies Institute (CMSI) at the U.S. Naval War College in Newport, RI. The opinions expressed in this analysis are his own and do not represent the official assessments of the U.S. Navy or any other agency of the U.S. Government.

Editor’s Note: The following is part seven of a new occasional series called Dragon Eye, which seeks insight and analysis from Chinese writings on world affairs. You can find all back articles in the series here.

Source: The National Interest “The Real Military Threat from China: Anti-Ship Cruise Missiles”

The End of Aircraft Carrier Era along with It US Pivot to Asia

Posted: July 7, 2014 | Author: | Filed under: Uncategorized | Tags: , , , , , , , | Comments Off on The End of Aircraft Carrier Era along with It US Pivot to Asia

USS George H W Bush, good target for saturated ballistic and cruise missile attack

USS George H W Bush, good target for saturated ballistic and cruise missile attack

Recently, the Strategic Studies Institute (SSI) of US Army War College published a long report titled “The Next Arms Race” edited by Henry D. Sokolsky

Its Chapter 5 “China and the Emerging Strategic Competition in Aerospace Power” by Mark Stokes and Ian Easton, responsible persons of the 2049 Project Research Institute, describes the competition in aerospace power. According to the two writers, the competition “is being driven in large part by Chinese development of military capabilities and strategies, which increasingly challenge the ability of regional air-, missile-, and space-defense programs to keep pace.”

The report is free to download at http://www.npolicy.org/userfiles/image/ub1113.pdf. Cyol.net, the website of China Youth Daily, provides a translation of the parts of the chapter selected by it. The selection of the parts certainly reflects the website’s views. Here, I give a summary of the cyol.net’s report mainly to reflect my views based on the Chapter.

The most interesting is the conclusion at the end of the chapter that due to China’s vigorous arms race in developing the attack capabilities of its anti-ship ballistic and cruise missiles, a top US analyst foresee a shift in U.S. basin— moving away from allied territories to Guam and the South Pacific Islands—and a greater U.S. naval presence in the Indian Ocean.

That is the end of aircraft carrier era. US aircraft carriers will not be able to operate near a country with enough precision anti-ship ballistic and cruise missiles.

Let’s see how the writers reach that conclusion:

The writers say in the chapter: China has kept on speedy development of its military modernization. It has started development, testing, and deployment of advanced aerospace capabilities, which have made its neighbors worry about their comparative weakness in the capabilities to access to and control of the air and space mediums in the event of a conflict. Due to the vast distances and long-time horizons in the Asia-Pacific region, access to and control of the air and space will be critical to achieving political and military successes on the land and the sea in the conflict.

The writers, like other American military experts, do not really see the tremendous potential of integrated space and air capabilities China has been developing. They talked much about the fast growth of China’s ballistic and cruise missile capabilities, especially in relation to the safety of US aircraft carrier battle groups. Ballistic missiles are to some extent related to space as they mostly cruise in space in midcourse, but cruise missiles have nothing to do with space.

However, as the writers’ perspective is restricted to US outdated strategy of Air-Sea Battle to counter rising Chinese military strength, they pay great attention to China’s progress in anti-ship missile capabilities, especially China’s anti-ship ballistic missiles, which, though will cruise in space in midcourse, remain ground-based; therefore, in a strict sense, they are not aerospace capabilities.

The writers then discussed China’s quick growth in anti-satellite (ASAT) capabilities and reconnaissance satellites, which are really relevant to aerospace capabilities. However, they view such capabilities merely from the point of view of the capabilities’ roles in their outdated Air-Sea Battle.

That mainly concerned the ability to destroy, blind or otherwise neutralize enemy satellites, including in addition to weapons to hit enemy satellite, parasite satellites, high-energy microwave and particle beam weapons, electronic jammers and the cyber attack capabilities against enemy satellite tracking and control stations.

When the report discuss space-based surveillance, it seems that the writers will really describe China’s integrated space and air capabilities. However, I am disappointed that they again talk about reconnaissance satellites and land-based long-range radar such as over-the-horizon backscatter and skywave over-the-horizon radar systems. The latter may extend its range possibly to 4,000 km.

Persistent Near-space surveillance! They finally reach their topic—aerospace capabilities. They say “Chinese analysts view the realm between the atmosphere and space—“near-space”—as an area of future strategic competition. Over the decade, near-space flight vehicles may emerge as a dominant platform for a persistent region-wide surveillance capability during crisis situations. ‘Near-space’ is generally characterized as the region between 20 and 100 km (65,000 to 328,000 feet) above the earth’s surface.”

They understand that in spite of technical challenge, China is much interested in near space flight vehicles’ reconnaissance, communications relay, electronic countermeasures, and precision strike operations.

However, they do not make clear whether the precision strike operations come from the near space flight vehicles or such vehicles merely provide data and guidance for missiles launched from other platforms. I believe the attack will come from near-space flight vehicles, i.e. the vehicles between space and atmosphere. That is why the integrated space and air capabilities China has been developing is regarded by China as capabilities for attack and defense.

If a missile similar to China’s DF-21D aircraft carrier killer missile is launched from a near-space vehicle, what will be the consequence? The technology of terminal hit has already been there in the DF-21D, but there will be much better direct guidance from the near-space vehicle. The target aircraft carrier will have no escape.

In light of the expanding long-range precision strike capabilities of Chinese anti-ship ballistic and cruise missiles and the vigor of China’s arms race, the writers conclude the chapter by mentioning the shift in US basin foreseen by Robert Kaplan of the Center for a New American Security — moving away from allied territories to Guam and the South Pacific Islands—and a greater U.S. naval presence in the Indian Ocean.

What? Retreat from Asia instead of pivot to Asia!

Source: cyol.net “US Think Tank: China Is Asia-Pacific Leader in Space, Air Combat Capabilities” (summary by Chan Kai Yee based on the report in Chinese)

Source: the Strategic Studies Institute (SSI) of US Army War College “The Next Arms Race”

Related posts:

  • US Media: China’s YJ-12 Anti-ship Missile Most Dangerous to US Navy dated July 5, 2014
  • China’s Real Aircraft Carrier Killer More Formidable than DF-21D Missile dated June 8, 2014
  • US Media on China’s 2nd-generation Aircraft Carrier Killer Much Better than DF-21D dated January 27, 2014
  • China to Be World Biggest Missile Producer dated January 15, 2014
  • China Tests Mach 10 Hypersonic Weapon: US media dated January 14, 2014
  • Arms Race between China and America dated March 5, 2012

China’s New Weapon Improves ICBM Accuracy, Range, penetration of Missile Defense

Posted: February 7, 2014 | Author: | Filed under: Uncategorized | Tags: , , , , , , , , | Comments Off on China’s New Weapon Improves ICBM Accuracy, Range, penetration of Missile Defense

hypersonic missile vehicle

hypersonic missile vehicle

US media Washington Free Beacon says in its report “China Conducts First Test of New Ultra-High Speed Missile Vehicle” on January 13, “China’s military last week conducted the first flight test of a new ultra-high speed missile vehicle aimed at delivering warheads through U.S. missile defenses, Pentagon officials said.

“The test of the new hypersonic glide vehicle was carried out Jan. 9 and the experimental weapon is being dubbed the WU-14 by the Pentagon, said officials who spoke on condition of anonymity.”

According to the media, “Hypersonic weapons use cutting edge technology for flying and maneuvering at ultra-high speeds in space and air. Future weapons will include powered and unpowered hypersonic vehicles fired from the last stages of ICBMs and submarine missiles, and from the bomb-bays of strategic bombers. Hypersonic cruise missiles and surveillance drones also are expected.

“The military advantages of hypersonic craft include precise targeting, very rapid delivery of weapons, and greater survivability against missile and space defenses.”

Taiwan expert Cai Chi says in his article “China’s hypersonic breaking of missile defense”, “The technology if used on an ICBM can enable its carrier to glide at hypersonic speed high in the atmosphere to greatly lengthen its range.”

For example, using a hypersonic carrier for its warhead, the range of a DF-31 ICBM may be several thousand kilometers longer. Because of the increase in range, the warhead can be heavier if the target is within its original range of 8,000 km. In addition, its accuracy will be greatly improved to be similar or better than a cruise missile. That will make DF-31 an entirely different more formidable weapon.

As a result, with such a new weapon, China will greatly enhance the nuclear deterrence of its nearly 100 ICBMs.

Cai says in the article that the technology can also be used on China’s land-based anti-ship missile. When the position of an aircraft carrier has been definitely located, the radar and other detective equipment on the hypersonic carrier may adjust the position of the target corresponding to the movement of the aircraft carrier so as to hit and destroy the aircraft carrier.

It is said that China has developed a model of missile attack using long-range bomber that carries cruise missiles. The bomber will launch cruise missiles high in the sky near Chinese coast and boost them by solid-fuel rocket to stratosphere so that the range of the missiles will be greatly increased. After flying at a speed several times of the speed of sound, the ramjet engines on the missiles will be started at the terminal stage to accelerate the missiles to hypersonic speed so as to avoid interception by air-defense missiles. The cruise missiles may hit military targets long away including aircraft carriers.

Cai says that the US has always been the leader in the development of hypersonic weapons, but its application of the weapon on hypersonic cruise missiles launched by a bomber remains at trial stage. Russia, Japan, France and India are also conducting relevant tests. Chinese test this time has the combined advantages of ballistic and cruise missiles. It is indeed a very creative invention.

Source: Washington Free Beacon “China Conducts First Test of New Ultra-High Speed Missile Vehicle”

Source: Asian Weekly “China’s hypersonic breaking of missile defense” (summary by Chan Kai Yee based on the report in Chinese)

Related posts:

  • China Developing DF-26 Aircraft Carrier Killer Missile with Hypersonic Warhead dated January 30, 2014
  • China challenging U.S. military technological edge: Pentagon official dated January 29, 2014
  • China’s 12 Advanced Weapons to Be Turned out or Developed in 2014 dated January 24, 2014
  • The emergence of a new Cold War – China and Russia against the US dated March 25, 2013
  • Arms Race between China and America dated March 5, 2012