Sunday, January 11, 2009

China: After Russia, Now Duplicating South African Military Technology - Report

China: After Russia, Now Duplicating South African Military Technology - Report
(NSI News Source Info) January 11, 2009: China has had a number of dealings with South African weapons manufacturers over the past decade, most of which have not resulted in actual weapons purchases. However, several recent Chinese-made military technologies bear suspicious resemblances to their South African counterparts. In 2008 China acquired a fourth-generation air-to-air missile equipped with a thrust-vector control engine. The PL-10, or PL-ASR, is comparable to the U.S.-made AIM-9X air-to-air missile, or AAM. A-Darter is a fifth-generation, air-to-air missile system designed to meet the challenges of future air combat against next-generation fighters in a hostile ECM environment. System Features; *High agility to handle the closest of close combats. *A thermal imaging seeker with high sensitivity and a multi-mode ECCM suite. *A low-drag, wingless airframe, ensuring ranges far beyond those of traditional short-range missiles. *Lock-on after launch and memory-tracking capabilities. *A lightweight design compatible with traditional Sidewinder stations. According to a representative from the South African Denel Group, the PL-ASR is almost a replica of its A-Darter AAM. The Denel representative told during an interview in Cape Town that the Chinese had contacted the company in 2001 to explore the possibility of importing fifth-generation A-Darter infrared-guided AAMs, which included a TVC propulsion system and pilot helmet-mounted displays. In the end, Denel did not sell the technologies to China, which it regards as its key competitor in selling air-to-air missiles on the African market. Company engineers were therefore surprised to find that the Chinese PL-ASR is nearly identical to the A-Darter in exterior structure, tail engine and even the diameter of the missile body. The company strongly suspects that China reverse-engineered its A-Darter AAM after acquiring its technological materials. This fits a pattern that China has followed in acquiring military technologies from many sources. When seeking a new technology, China contacts a foreign manufacturer and requests substantial technical information about its product, supposedly with the intent to buy. Instead, Chinese engineers study the materials and imitate the relevant concepts and designs.
Something similar occurred in the course of China's development of a combat helicopter. In 1996 China and South Africa signed a memorandum to jointly develop a combat helicopter, when China was in the process of building its ZW-10 helicopter. After being given a focused inspection of the Rooivalk combat helicopter's subsystems, China wanted to purchase one helicopter from Denel, but the South African company considered the purchase of a single aircraft the equivalent of giving away its technologies. As a result, Denel decided not to sell China the helicopter and the cooperation came to an end. Another item that appears to have been copied from South Africa is the optical-electronic pod on China's ZW-9 combat helicopter, which bears a strong resemblance to the Leo-II serial O/E pods produced by the Zeiss Co. Technical experts from the Zeiss Co. told in an interview that about seven to eight years ago Zeiss exported two sets of an earlier variant of the Leo-II O/E pods to China, intended for use on helicopters. According to the source, the Chinese side explained that they needed a large number of this type of O/E pods for civilian helicopters, and therefore would like to purchase two sets initially for testing purposes. The source said the Chinese took no further action after receiving the test pods. Currently, both the ZW-10 and the night version, the ZW-9, are equipped with O/E detectors very similar to those on the Leo-II. China's interest is not only in the O/E pod technologies used for helicopters. Chinese manufacturers have also engaged in active discussions with South Africa in hopes of acquiring TV video cameras and second-generation thermal imaging cameras used in Denel's Seeker II unmanned air vehicle surveillance system. The top military technology that China aspires to acquire from South Africa is without doubt the unmanned air vehicle. China's New Era Group Corp. had several rounds of negotiations with Denel on the possibility of producing in China two types of Denel UAVs, which were on display at the 2006 Zhuhai Air Show, called the Golden Eagle and the Seeker II. China hopes to obtain the technologies to assemble these two UAVs domestically. However, according to a source from the Denel Group, negotiations on the UAV deals have come to a halt and the company has decided that unless substantial progress is made on these negotiations, the company no longer wants to spend time dealing with the Chinese. Denel had a similar experience in trying to negotiate a deal with Chinese company Norinco for its Mokopa anti-tank missiles. The Chinese company expressed an interest in importing Denel's technologies, but once again the negotiations ended with no result.
G6-52 SP GUN HOWITZER; While the renowned 155mm G6 Self-Propelled Gun Howitzer continues to outgun competitive artillery systems, the new G6-52 has re-set the leading edge in artillery development with advances in all the capabilities critical to effective artillery. The G6-52 is an advanced development of the proven G6-45 system.The highly mobile G6 SP Gun Howitzer has been upgraded with: *Increased firing range, outperforming competitive equipment; *An increased rate of fire to 8 rounds per minute with all compatible charges; *Superior mobility and a reduced manpower requirement. Since 2007 Norinco has attempted to contact the Denel Group again, saying it wants to import the company's G5 155mm howitzer ammunition handling system. But Denel is not eager to enter into an agreement with China on this project; Chinese-made 155mm howitzers already have appeared in quite a number of countries in Northern Africa, including Algeria, Sudan and Egypt. The source from Denel did disclose that the company has successfully completed a deal with China for its 35mm multirole machine gun. This technology, in fact, was exported to China 10 years ago. China seems to have upgraded this 35mm gun to an air-defense machine gun. China's New Era Group Corp. also has been negotiating with Denel for the transfer of African Eagle UAV technologies.
The Chinese introductory brochure of the cooperation program claims that the African Eagle UAV is capable of taking a payload of 500 kilograms, which could be six Mokopa anti-tank missiles or two Umbani MK 81 precision-guided bombs. The theoretical combat radius of the African Eagle is 750 kilometers. China also hopes to obtain the South African Angel high-altitude and high-speed UAV attacker system. This attacker UAV is capable of carrying precision-guided weapons and attacking targets 1,400 kilometers away. The UAV is also capable of carrying A-Darter AAMs to launch unmanned aerial attacks. The Angel attacker and reconnaissance UAV is equipped with aperture radar and is capable of conducting tactical reconnaissance missions. It also can be fitted with Mokopa active laser-guided anti-tank missiles to attack armored combat groups. Mokopa is a long-range, precision-guided, anti-armour missile that utilizes the semi-active laser guidance concept. Its high-performance, large-calibre tandem warhead will destroy any foreseen armour threat. System Features; *Multi-purpose, precision-guided missile may be used against a variety of targets and launched from various platforms. *Semi-active laser guidance upgradeable to fire-and-forget. *Excellent price/performance ratios. *Advanced tandem warhead capability (1 350 mm penetration). *Modular airframe facilitates future upgrades (warheads and seekers). Nonetheless, the source from Denel disclosed that no substantial progress has been made on this project, indicating it may end up as one more failed deal. It remains to be seen whether China's latest explorations with the company will yield technological information it can convert to its own purposes, however.

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