arcivanov Posted January 30, 2013 Posted January 30, 2013 (edited) AIM-9X Block II прошла половину тестов на боевое применение, и за исключением одного параметра превосходит ожидания. Как сообщил NAVAIR: "анализ данных проведенный на данный момент указывает, что ракета превосходит технические требования по всем параметрам, включая захват-после-пуска". [...] В Block II включен data-link схожий с тем что стоит на AIM-120D, позволяющий ракете получать обновленную информацию о цели с запустившего ее самолета. [...] С начала испытаний (разработки и боевых) ракета отработала штатно в 21 из 22 случаев. В 17 из 22-ух запусков закончились перехватом в агрессивных сценариях, большинство из которых были сложнее чем для AIM-9X Block I. Во время испытаний на боевое применение 5 из 7 запусков закончились перехватом. В одной из областей требуются улучшения. Перед началом боевых испытаний были найдены недоработки в поведении AIM-9X Block II в режиме пуска под большим углом с бесшлемным прицеливанием (helmetless high off-boresight, HHOBS). "Несмотря на то, что HHOBS в Block II работает хорошо, показатели снижены по сравнению с Block I и будут улучшены во время запланированной чистки и сборки ПО после завершения испытаний". http://www.flightglobal.com/news/articles/aim-9x-block-ii-performing-better-than-expected-381569/ PS: То что F-35 сможет выдавать AIM-9X целеуказание в 360 град сфере обзора в трех диапазонах (видимом, IR и UV) в дополнении к собственной голове AIM-9X, конечно, офигенно круто. Edited January 30, 2013 by arcivanov
arcivanov Posted August 8, 2013 Author Posted August 8, 2013 Raytheon докладывает (в июне), что произведено и поставлено более 5000 ракет AIM-9X Block I и Block II, причем ракета получилась очень надежная - MTBF по результатам экплуатации превышает в 3 раза требования военных. Block I более не производится с 2012 года. Отсебятина: Простая арифметика говорит, что при 5000 тыс ракет, начале выпуска в 2003 году, и прекращении выпуска Block I в 2012, уже произведено около 500 ракет Block II.
arcivanov Posted May 9, 2014 Author Posted May 9, 2014 Первое подтверждение способности обстрела в заднюю полусферу Once fired, the Block II can also make a U-turn and find targets behind the aircraft within 10 miles of launch, said Martin. http://www.seapowermagazine.org/sas/stories/20140409-aim-9x-missle.html
arcivanov Posted June 29, 2014 Author Posted June 29, 2014 Заказ Lot 14 на 485 ракет за $223.1M, среди которых 33% USAF, 33% USN, 21% Турции, 7% Недерланды, 5% Сингапур, Кувейт и Морокко меньше 1%. Кувейт получает одну ракету стоимостью $390k, из чего следует, что оптом она может быть еще дешевле. http://www.defenseindustrydaily.com/aim-9x-block-ii-the-new-sidewinder-missile-011572/
arcivanov Posted August 8, 2014 Author Posted August 8, 2014 Продолжаются апгрейды Выделено $44М на исследования в области обновлений компонентной базы AIM-9X Block II. Замена компонентов включает систему задействования управления, блоков инерциальных измерений, процессора, исследования повышения качества детонационно-устойчивого заряда, разработки железа и летного софта версий 9.4x, 9.15x и 10.x. https://www.defenseindustrydaily.com/aim-9x-block-ii-the-new-sidewinder-missile-011572/
Heli Posted August 31, 2014 Posted August 31, 2014 (edited) познавательный документ, про то что AIM-9M это не идентичная конструкция, а целое семейство ракет The AIM-9M missile evolution has been driven by the AIM-9L Product Improvement Program (PIP) and developed into full-scale development, test, and evaluation program during FY78/79. The first AIM-9M variant, the AIM-9M-1, was fielded in FY 82. The Guidance Control Section (GCS) is the only component unique to the AIM-9M, which, prior to the AIM-9M-8, has three Navy variants: AIM-9M-1 or AIM-9M-3 (both use the same GCS), AIM-9M-4, and AIM-9M- 6. The AIM-9M-8 contains the latest GCS variant which improves Navy warfighting capability over earlier AIM-9M variants to counter infrared (IR) countermeasures (CM) from aerial threats. The first AIM-9M-8 was fielded in FY 95APPROVED NAVY TRAINING PLAN FOR THE AIM-9M SIDEWINDER MISSILE SYSTEM(FOR MODELS THROUGH AIM-9M-8 ), JANUARY 1997 http://fas.org/man/dod-101/sys/missile/docs/aim-9m.pdf Edited November 29, 2014 by Heli
Heli Posted September 5, 2014 Posted September 5, 2014 The AIM-9X is launched from an aircraft after target detection to home in on IR emissions, intercept, and destroy enemy aircraft. The missile interfaces with the aircraft through the missile launcher using an umbilical cable, a mid-body buffer connector, and three missile hangers. The AIM-9X incorporates a dual umbilical design (i.e. a modified AIM-9 “forward” umbilical cable and the AIM-9/120 “mid-body” umbilical). Using combinations of the missile’s forward and mid-body umbilicals, AIM-9X has two distinct interface configurations: digital and analog. The digital interface configuration is invoked when the missile detects an active digital (i.e. MIL-STD-1553) interface at either the forward or mid-body umbilical aircraft/missile interface. The analog interface configuration is invoked, in the absence of a digital interface, at both the forward and mid-body umbilical aircraft/missile interfaces.The digital interface configuration is considered the standard operational configuration. On LAU-127 (series) launchers, the AIM-9X operates in the digital interface configuration, using a dual (forward and mid-body) umbilical digital interface. On LAU-7 (series) launchers, the AIM-9X operates in the single umbilical digital interface configuration through the forward umbilical only. The AIM-9X incorporates the AUR concept with attached wings and control fins. The AIM-9X missile consists of a sensor/electronic Guidance Unit (GU), DSU-37/B TD, WDU-17/B warhead with internal Electronic Safe-Arm Device (ESAD), WPU-17/B or WPU-17A/B Propulsion/Steering Section (PSS), four (Mk 12 Mod 0) forward-mounted wings and four aft-mounted (BSU-101/B) control fins. Forward composite material and aft composite material (WPU-17/B) or metal (WPU-17A/B) harness covers running along much of the lower body length of the AIM-9X AUR protects the missile wiring harness. The tactical AIM-9X is compatible with carrier-based F/A-18C/D and F/A-18E/F aircraft equipped with the guided missile launchers LAU-7 and/or LAU-127. The launcher LAU-7D/A features a modified power supply and internal harness to accommodate MIL-STD-1553 communication. The AIM-9X GU features an internal electrically-driven closed cycle regenerator, called a cryoengine. This eliminates the need for the high-pressure air-nitrogen charged receiver (gas) bottle or High Pressure Pure Air Generator (HiPPAG) utilized by the AIM-9M. ASSEMBLY COMPONENTS Guidance Unit (GU) (WGU-51/B). Provides the missile tracking, guidance, and control signals. The GU consists of three major subassemblies: (1) an IR sensor assembly for detecting the target, (2) an electronics unit that converts the detected target information to tracking and guidance command signals, and (3) center section containing the cryoengine, contact fuze, two thermal-batteries, and required harnesses and connectors. Target Detector (TD) (DSU-36/B or DSU-37/B). The AIM-9X design modifies the existing AIM-9M TD. The TD is a narrow-beam, active optical, proximity fuze system. The TD transmits pulsed InfraRed (IR) energy through the four forward windows and an IR detector through four aft windows receives the reflected energy. The purpose of the TD is to detect the presence of a target at distances out to the maximum effective range of the missile warhead and to generate an electrical firing signal so that the ESAD explosive train and warhead are detonated at a point where the average kill probability is maximized. This is the same TD as the AIM-9M with the exception that the end “V” groove is removed. The forward coupling clamp, used to join the GU to the TD has been replaced with 14 cruciform recess captive screws. Warhead. The AIM-9X uses the existing AIM-9M WDU-17/B warhead. The warhead, with the ESAD, is an integral part of the missile. The warhead is an explosive loaded, end-initiated, annular blast, titanium rod, fragmentation- type warhead comprised of a case assembly, a transfer tube assembly, a loaded warhead booster, a PBXN-3 explosive charge, and an enclosure. It detonates upon receipt of the explosive output from the ESAD. PROPULSION/STEERING SECTION (PSS) WPU-17/B (AIM-9X P/N 2212600-10). The propulsion/steering section WPU-17/B is composed of four major components: a modified Mk 36 Mod 11 rocket motor, a Fin Actuator Unit (FAU), Control Actuation System (CAS) Electronics, and a Jet Vane Control (JVC). Rocket Motor (Mk 139 Mod 0). The AIM-9X initial design modifies the existing AIM-9M Mk 36 Mod 11 rocket motor. The FAU and JVC are mounted on the aft end of the modified rocket motor. The motor case serves as a mount for the three missile hangers and seven CAS Electronics and Aft Harness Cover Clamp Assemblies. Two electrical contact buttons are in the forward hanger. When the missile is loaded on the launcher, two striker points within the launcher are in contact with the two contact buttons on the forward hanger. When the firing circuit is activated, the firing voltage is sent through the aft contact button and fires the initiator on the arm-fire assembly. The initiator ignites the rocket motor propellant grain, thrust is developed, and the missile is launched. The forward contact button on the AIM-9X missile is not used and has no electrical connection. A nonpropulsive weather seal to protect the propellant from the environment seals the motor nozzle. When the weather seal in the nozzle ruptures upon motor ignition, the initial small amount of thrust is insufficient to overcome the holding force of the launcher detent. The thrust then rises rapidly, driving the missile free of the launcher. PROPULSION/STEERING SECTION (PSS) WPU-17 A/B (AIM-9X P/N 2212600-20). The propulsion/steering section WPU-17A/B is composed of four major components: an Mk 139 Mod 1 rocket motor, an FAU, CAS Electronics, and a JVC. Rocket Motor (Mk 139 Mod 1). The WPU-17A/B PSS is made with a newly cast rocket motor (Mk 139 Mod 1) instead of a modified rocket motor (Mk 139 Mod 0). The new Mk 139 Mod 1 rocket motor incorporates a metal aft harness cover in place of the composite cover. This new design eliminates the need for five harness cover clamp assemblies. The new metal aft harness cover is attached directly to the rocket motor tube using 18 screws and washers that mate with welded attachment points with “floating” nuts. Improvements were also made to FAU and tail platform attachment methods. All other aspects of the Mk139 Mod 1 rocket motor remain unchanged from the Mk 139 Mod 0 design; i.e. hanger attachment, SAFE-ARM handle, igniter. SAFE-ARM Selector Handle. The SAFE-ARM selector handle is a manual safety device that prevents the inadvertent firing of the rocket motor. The device is switched to the arm position on the arming area by the ground crew prior to flight. It is the same MK 297 SAFE-ARM selector that is used on AIM-9M, although the handle is modified to allow for the new harness cover. The handle is a “PLUS” design with four extensions. This design provides a visual confirmation of the arm/safe condition of the rocket motor. Three of the extensions are painted black and the fourth is painted white. The safe or armed condition is indicated by the position of the white extension in relation to the SAFE-ARM indication on the rocket motor harness cover decal/stencil. Fin Actuator Unit (FAU). The FAU provides AIM-9X flight control and connects to the aft end of the rocket motor. The FAU is a thrust vector control system consisting of four movable aerodynamic tail fins and four jet vanes that direct the flow of the rocket motor exhaust. An electrically-powered direct-coupled brushless direct current (DC) motor drives each tail fin of the actuator unit. Each jet vane is slaved to the associated tail fin shaft on the same side of the missile at a 1:1 coupling ratio via a pushrod link. Prior to launch, spring-loaded pistons lock the tail fins and jet vanes from moving. With missile battery power available, the fin unlock command fires an Electronic Explosive Device (EED) into a manifold, causing withdrawal of all four fin lock tabs by the squib/cartridge output gas-powered piston movement. A wiggle test verifies the fins are unlocked and there is positive fin control, which must occur in order for the rocket motor initiation command to be generated. A dedicated 106 VDC thermal battery in the guidance section powers the FAU. An electronics module that mounts as a sealed unit attached to the exterior of the rocket motor case controls the FAU. The electronic harness leads forward to the guidance section and aft to the FAU. Control fin/jet vane position feedback is measured from both individual potentiometers attached to the control fin shafts (primary) and electric motor rotation state counts sensed by Hall Effect sensors (secondary). Primary feedback is provided by the absolute readings from the potentiometers. In the event the potentiometers are not providing feedback, the Hall Effect sensors measure secondary feedback. Fins. The control fins are mounted on the aft end of the missile and work in conjunction with the jet vanes located in the thrust chamber of the missile. Four double-delta-design titanium fins in conjunction with the jet vanes are the aerodynamic control surfaces that translate servo torque into missile maneuvers. The fins and vanes are attached to wing ribs located at the aft end of the rocket motor. Each fin pair can rotate about its axis up to 30 degrees in each direction during free flight. Jet Vane Control (JVC). The jet vanes are in the exhaust section of the missile aft of the rocket motor. They are mechanically linked through a shaft to the control fins and provide enhanced steering capability by redirecting the exhaust gases. The AIM-9X-2 variant contains modifications to the guidance unit, TD, and Propulsion Section. All other assembly components remain unchanged. Guidance Unit (GU) (WGU-57/B). Provides the missile tracking, guidance, and control signals. The GU is an enhanced version of the WGU-51/B with improved Electronics Unit (EU) Circuit Card Assemblies (CCA’s) and increased system battery capabilities. Target Detector (TD) (DSU-41/B). Contains electronics targeting enhancements and adds a data link capability to support Lock On After Launch (LOAL) capabilities. The DSU-41/B shares no similarities with the AIM-9M or previous AIM-9X TD. Propulsion/Steering Section (PSS) WPU-18/B (AIM-9X-2 P/N 2276200-1). The propulsion/steering section WPU-18/B is composed of four major components: an Mk 139 Mod 1 rocket motor, an FAU, CAS Electronics, and a JVC. It has an electronic Ignition Safety Device (ISD) that replaces the safe-arm selector handle. This alleviates the requirement to manually safe and arm the missile. For further information about the AIM-9 (series) and ATM-9 (series) Sidewinder guided missile, you should refer to the Sidewinder Guided Missile AIM-9M and Training Missile, NAVAIR 01-AIM9-2 and Airborne Weapons Assembly Manual, NAVAIR 11-140-6. http://navybmr.com/study%20material/14313a/14313A_ch3.pdf
Heli Posted January 28, 2015 Posted January 28, 2015 Block II+ Raytheon Missile Systems получила финансирование в размере 8300000 $ для дополнительных работ к ранее заключенному контакту N00019-12-C-2002 компания должна изготовить и поставить военным 5 прототипов Captive Test Missiles Block II+, а также 40 наборов ракетных двигателей для переделки тестовых ракет в конфигурацию Block II+, работы должны быть завершены к июню 2016 года http://www.thebaynet.com/articles/0115/navy-contract-__-january-26-2015.html
Heli Posted April 14, 2015 Posted April 14, 2015 (edited) NAVAIR сообщает о достижении начальной боеготовности (initial operational capability - IOC) ракет AIM-9Х Block II, контракт на крупносерийное производство Block II, как ожидается, будет заключен летом этого года http://www.seapowermagazine.org/stories/20150413-sidewinder.html Edited October 6, 2015 by Heli
Heli Posted September 1, 2015 Posted September 1, 2015 NAVAIR сообщает о достижении начальной боеготовности (initial operational capability - IOC) ракет AIM-9Х Block II, контракт на крупносерийное производство Block II, как ожидается, будет заключен летом этого года http://www.seapowermagazine.org/stories/20150413-sidewinder.html NAVAIR 17 августа разрешил начать полномасштабное серийное производство ракет AIM-9X Block II, до 2026 года планируется изготовить примерно 6000 ракет http://alert5.com/2015/09/01/aim-9x-block-ii-enters-full-rate-production/
Heli Posted September 26, 2015 Posted September 26, 2015 (edited) Заказ Lot 14 на 485 ракет за $223.1M, среди которых 33% USAF, 33% USN, 21% Турции, 7% Недерланды, 5% Сингапур, Кувейт и Морокко меньше 1%. Кувейт получает одну ракету стоимостью $390k, из чего следует, что оптом она может быть еще дешевле. http://www.defenseindustrydaily.com/aim-9x-block-ii-the-new-sidewinder-missile-011572/ Raytheon Missile Systems, Туксон, штат Аризона, получила опцион стоимостью 227,047,688 $ к ранее заключенному контакту на производство 447 боевых AIM-9X Block II серии Lot 15 для 102 Navy, 243 Air Force, 9 Japan, 76 Korea, 12 Romania, 5 Israel. В дополнение заказ предусматривает производство 129 Block II captive air training missiles для 54 Navy, 60 Air Force, 2 Army, 2 Korea, 6 Romania, 5 Israel; 7 special air training missiles for the Army; зачем интересно Армии CATMs и special air training missiles? неужели за старое взялись http://www.defense.gov/News/Contracts/Contract-View/Article/620608 Raytheon Missile Systems, Tucson, Arizona, is being awarded a $264,805,607 cost-plus-fixed-fee contract for an AIM-9X system improvement program to provide additional capability and resolve obsolescence issues for the Navy, Air Force, and the governments of Korea, Singapore, Malaysia, Belgium, Netherlands and Turkey under the Foreign Military Sales program. The effort includes engineering services required to incorporate new AIM-9X missile components and associated software updates into the Lot 17 and Lot 19 production programs. This effort will also provide development, integration, and flight test support for AIM-9X Block II hardware and software. http://www.defense.gov/News/Contracts/Contract-View/Article/620608 Edited September 26, 2015 by Heli
Heli Posted December 6, 2015 Posted December 6, 2015 (edited) Sustainable and Reliable Production Capability for RSI-007 Molding Powder Objective The objective of this project is to develop a sustainable and reliable production capability for RSI-007 molding powder that will significantly reduce the overall cost of the material as well as the environmental impacts and operational hazards during production. RSI-007 is a high energy, CL-20 based explosive that enables miniaturization of and increased output from low energy exploding foil initiators (LEEFIs). The higher performance of RSI-007 also allows for new and innovative initiators to be developed. RSI-007 based LEEFIs are used in multiple weapon systems including AIM-9X, RAM, ESSM, Standard Missile, Spider, FBM ordnance, FMU-139 Product Improvement Program, MEMS Distributed InitiationSystems, and Countermeasure Anti-Torpedo. Payoff Production capacity was improved as new production capability was increasedten-fold. Additionally, the cost of RSI-007 was decreased from a current price of $3,930/lb to $1,140/lb (a 70 percent decrease). This is also a significant decrease in cost from the legacy explosive, which was most recently purchased for $15,500/lb. This represents an 89 percent cost reduction from the baseline material costs. Other benefits include the elimination of a halogenated solvent, a known carcinogen, providing a safer production environment, and the elimination of a non-conductive processing fluid to reduce both cost and static build-up onthe final product. Understanding of manufacturing parameters gained through the designedexperiments has been used to determine the influence of processing variables on product quality. The new process results in improved product quality and reproducibility. Overall, the production of the high energy output RSI-007 will allow for the miniaturization of fuze systems for various munitions. Implementation The Navy’s AIM-9X program (PMA-259) will serve as the transition program for the RSI-007. RSI-007 will be used as part of the next generation warhead for AIM-9X, which is currently under development and uses the RSI-309 initiator and RSI-260 detonator. The RSI-007 scaled-up process was brought on-line and implemented at the ATK contractor facility in October 2013. The RSI-007 developed as part of this project will be used in initiators produced by Reynolds Systems. In fact, these initiators are already utilized in several DOD programs, including RAM, Standard Missile, ESSM, and SPIDER. These programs require a larger quantity than the current method is capable of producing. The increased capacity developed under this project will support this increased demand. http://www.nsamcenter.org/Documents/2014-Navy-Mantech-ProjectBook.pdf если не открывается то через прокси внедрение самого мощного промышленного взрывчатого вещества CL-20 Edited February 7, 2016 by Heli
Heli Posted December 8, 2015 Posted December 8, 2015 (edited) Мировой лидер в аэрокосмической и оборонных областях компания Orbital АТК, объявила сегодня, что она получила контракт ВВС США на производство ракетных двигателей ракет AIM-9P Sidewinder. Orbital АТК завершит серию испытаний двигателей на ракете и начнет процесс выпуска большой партии в интересах иностранного заказчика. Первоначально подписанный в 2014 году, этот договор является важной вехой для стран-союзников Америки использующих 9P Sidewinder, создавая возможность экономичного продления срока службы своих ракет. "Учитывая эффективность и популярность ракет Sidewinder мы прогнозируем высокий спрос среди наших союзников, они захотят продлить срок службы существующих ракет с новыми двигателями и компонентами," сказал Pat Nolan, вице-президент и генеральный менеджер Orbital ATK. В ракете AIM-9P Sidewinder используются двигатели марки SR116-HP-1. В дополнение к клиентам по линии иностранных военных продаж, компания уже подписала прямой контракт, чтобы поставить двигатели для AIM-9P и другие компоненты на сумму более 10 млн $ для международного союзника. Первоначально разработанная в 1978 году, AIM-9P Sidewinder прошла несколько обновлений, включая установку двигателя SR116-HP-1 с пониженным дымлением. Ракетные двигатели будут выпускаться на предприятии Orbital ATK в Западной Вирджинии где с 1978 по 1990 год было изготовлено 30 000 двигателей для ракет AIM-9P. http://www.orbitalatk.com/news-room/release.asp?prid=105 Edited December 8, 2015 by Heli
Heli Posted January 3, 2016 Posted January 3, 2016 Sidewinder HAP (High Altitude Project) ракета Sidewinder HAP - комбинация секции наведения, боевой части, хвостового оперения от AIM-9L и ракетного двигателя от Sparrow создавалась как ответ на применение высотных разведчиков МиГ-25 над Израилем, проходила испытания на американском полигоне China lake в начале 70-х http://www.secretprojects.co.uk/forum/index.php?topic=23848.0
Heli Posted January 29, 2016 Posted January 29, 2016 (edited) Burning Down the House! F-14A “Tomcat” завершает отворот после того как выпущенная им ракета AIM-9L Sidewinder уничтожает беспилотную мишень. Испытательный полигон вооружений ВМС США China Lake, Калифорния, 29 октября 1977 года. Edited January 29, 2016 by Heli
Heli Posted February 7, 2016 Posted February 7, 2016 5 дюймовая ракета-мишень с ЖРД, U.S. Naval Museum of Armament and Technology, China Lake окислитель - красная дымящая азотная кислота топливо - НДМГ подача компонентов вытеснительная азотом из шар-баллона под давлением 240 ат 9 двигателей было оттестировано на наземном стенде 6 ракет было использовано по назначению как мишени тяга двигателя 200 фунтов на 33 секунды или переменная от 50 до 300 фунтов https://books.google.ru/books/about/Development_of_a_5_0_inch_Liquid_propell.html?id=Fs_0NwAACAAJ&redir_esc=y
Heli Posted February 7, 2016 Posted February 7, 2016 (edited) AGM-87 Focus Ракета с инфракрасным наведением AGM-87 Focus это одна из наименее известных систем вооружений, созданных во второй половине двадцатого века. Разработана оружейным центром ВМС США China Lake в Калифорнии и построена фирмой General Electric на основе ракеты класса "воздух-воздух" AIM-9B. О этом образце известно очень мало, кроме того, что был разработан и испытан в конце 60-х, начале 70-х и принял участие в боевых действиях во Вьетнаме, где как кажется, получил некоторый успех. Сайт Designation-systems.net пишет: AGM-87A были использованы во Вьетнаме 1969-70 годах для ночных атак по источникам инфракрасного излучения, таким как фары грузовиков. Программа была прекращена неизвестным причинам. На изображениях вы можете увидеть некоторые эпизоды испытаний ракеты на вертолете Bell HH-1K Huey. Этот вертолет применялся в течение многих лет на полигоне China Lake для испытаний и проверок самых разных образцов вооружения. AGM-87 заснята за мгновение до попадания в цель, в данном случае ей являться списанный легкий танк М41 Walker Bulldog После краткого вьетнамского эпизода применения ракета AGM-87 исчезла из арсеналов США не оставив практически никаких следов. https://sobchak.wordpress.com/tag/us-navy/ Edited February 7, 2016 by Heli
Heli Posted April 6, 2016 Posted April 6, 2016 (edited) AIM-9X Block II+ Raytheon Missile Systems, Tucson, Arizona, is being awarded a $264,805,607 cost-plus-fixed-fee contract for an AIM-9X system improvement program to provide additional capability and resolve obsolescence issues for the Navy, Air Force, and the governments of Korea, Singapore, Malaysia, Belgium, Netherlands and Turkey under the Foreign Military Sales program. The effort includes engineering services required to incorporate new AIM-9X missile components and associated software updates into the Lot 17 and Lot 19 production programs. This effort will also provide development, integration, and flight test support for AIM-9X Block II hardware and software. http://www.defense.gov/News/Contracts/Contract-View/Article/620608 Программа AIM-9X Block III была отменена в 2014 финансовом году однако финансирование нескольких запланированных улучшений, включая улучшения аэродинамики, повышение могущества боевой части, увеличение уровня помехозащищенности и безопасности ракеты при повреждении было перенесено в программу AIM-9X Block II, в рамках подраздела System Improvement Program III (SIP III). Контракт стоимостью 312 миллионов $ для этих работ был заключен с подрядчиком в сентябре 2015. Контракт также предусматривает меры по снижению производственных затрат и проведение анализа устаревания аппаратных компонентов этой системы вооружения. http://www.janes.com/article/59326/raytheon-details-aim-9x-block-ii-missile http://www.gao.gov/assets/680/676281.pdf Edited April 6, 2016 by Heli
Heli Posted May 6, 2016 Posted May 6, 2016 (edited) say hello to my little friend! Edited September 6, 2016 by Heli
Heli Posted July 2, 2016 Posted July 2, 2016 (edited) Raytheon Missile Systems, Туксон, штат Аризона, получила опцион стоимостью 227,047,688 $ на производство 447 боевых AIM-9X Block II серии Lot 15 для 102 Navy, 243 Air Force, 9 Japan, 76 Korea, 12 Romania, 5 Israel. В дополнение заказ предусматривает производство 129 Block II captive air training missiles для 54 Navy, 60 Air Force, 2 Army, 2 Korea, 6 Romania, 5 Israel; 7 special air training missiles for the Army; Raytheon Missile Systems, Тусон, штат Аризона, получила опцион стоимостью 291,750,539 $ на производство 660 боевых AIM-9X Block II серии Lot 16 для Navy (160) Air Force (429) Army (7) Japan (4) Norway (20) Taiwan (40) а также другие позиции http://www.defense.gov/News/Contracts/Contract-View/Article/823199 Армия продолжает закупать Block II теперь и All Up Round и по прежнему Captive Air Training Missiles и некие Special Air Training Missiles куда они могут идти? MML? тогда зачем Special Air Training Missiles? вооружение БПЛА Gray Eаgle? Edited July 2, 2016 by Heli
Heli Posted July 18, 2016 Posted July 18, 2016 (edited) Raytheon рассматривает введение в программное обеспечение Block II возможности атаки наземных целей, которая есть в Block I Raytheon is looking to add Block I's air-to-surface software into Block II Lot 16 стал самым крупным заказом в программе AIM-9X на сегодня http://www.janes.com/article/62354/raytheon-plans-to-add-more-capability-to-aim-9x-block-ii-as-usn-boosts-missile-buy Edited July 18, 2016 by Heli
Heli Posted July 26, 2016 Posted July 26, 2016 (edited) для вероятно AIM-9M FOV 3.6 Turn Capability 32-45 Gs When does it arm 1.9s, 6g, 600-1000\' Lethal Radius 15-33' Speed MACH 2.5 Motor Burn Time 5 Sec Seeker Gimbal Limit 40 Deg Cool Down Time 25 Sec Motor type and thrust -MK 36 Mod 11, single stage, 2,880 Lbs for 5 secs. https://www.studydroid.com/index.php?page=viewPack&packId=594664 Кол-во заказаных ракет - 660. http://www.defense.gov/News/Contracts/Contract-View/Article/823199 спс я знаю, #93 Edited June 25, 2017 by Heli
Heli Posted September 6, 2016 Posted September 6, 2016 самый первый Сайдвиндер AIM-9B AIM-9C AIM-9D AIM-9H AIM-9L AIM-9M AIM-9R AGM-122
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