Todo sobre el F-35 Lightning II

Si, pero debe ir con todos los chiches y... mantenimiento y... spares por unos cuantos años y... herramientas y capacitación y...

Que se yo..., es un montón de guita para gastar en un sólo SdA que no te garantiza la invulnerabilidad de tu espacio aéreo.
Sí, ya sé, no es un Piper, es una nave!, pero...

Esa no es la funcion de un caza exactamente.....
 
El radar APG-81 ha realizado pruebas de capacidad, detectando objetivos a larga distancia en sus primeras misiones montando en el prototipo BF-04 del F-35B.
Desde agosto de 2005, el radar APG-81, ha sido probado en un BAC 1-11 propiedad del fabricante, obteniéndose desde entonces gran cantidad de software.
El radar versión Block 0.5 utilizado sobre el incorpora un 60 % del software total a utilizar.


http://www.key.aero/view_news.asp?ID=2172&thisSection=military
 
¿65? Tenía entendido que las CF iban por la centena, me imagino que será el primer batch.
o podes imaginar tambien que solo seran 65 , pq es lo que alcanzan a pagar con lo que antes compraban 100..:yonofui::yonofui::yonofui:
El radar APG-81 ha realizado pruebas de capacidad, detectando objetivos a larga distancia en sus primeras misiones montando en el prototipo BF-04 del F-35B.
Desde agosto de 2005, el radar APG-81, ha sido probado en un BAC 1-11 propiedad del fabricante, obteniéndose desde entonces gran cantidad de software.
El radar versión Block 0.5 utilizado sobre el incorpora un 60 % del software total a utilizar.


http://www.key.aero/view_news.asp?ID=2172&thisSection=military
ese si que es un chiche... la gran fortaleza del F35 son sus sistemas electronicos... ahora me pregunto si no hubiera sido mejor poner "todo el paquete" en el F15SE como paso previo al F35 y adquirir los 2 ... dandole mas aire al programa F35 (y mas tiempo) para que se desarrolle por causa natural... y no intentar largar 3 versiones al mismo tiempo con costos altisimos de integracion de tecnos nuevas y con tiempos tan acotados....
 

Grulla

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EEUU presentará el caza F-35 en el concurso convocado por la India


21:16 |29/ 06/ 2010

Moscú, 29 de junio, RIA Novosti. La empresa estadounidense Lockheed Martin presentará su caza F-35C Lightning II de quinta generación, destinado para emplazamiento en portaviones, en el concurso convocado por las Fuerzas Navales de la India, informó la agencia de noticias PTI.

India convocó el concurso en noviembre de 2009 y planea adquirir 16 cazas con la posibilidad de aumentar el pedido hasta 40 aparatos.

La parte india dirigió solicitudes de información a varias empresas aeronáuticas, incluidas las estadounidenses Boeing y Lockheed Martin, la europea EADS, la sueca Saab, la francesa Dassault y la rusa MiG.

Las Fuerzas Navales de la India se proponen dotarse en 2015 con el primer portaaviones de fabricación nacional. Más tarde se proyecta construir dos más. Los cazas adquiridos a través del concurso serán emplazados en esos buques.

Los portaaviones indios desplazarán 40.000 toneladas, tendrán 260 metros de eslora y podrán desplazarse a la velocidad máxima de 28 nudos. El primer portaaviones buque fue puesto de quilla en 2009.
 

Grulla

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EEUU presentará el caza F-35 en el concurso convocado por la India


21:16 |29/ 06/ 2010

Moscú, 29 de junio, RIA Novosti. La empresa estadounidense Lockheed Martin presentará su caza F-35C Lightning II de quinta generación, destinado para emplazamiento en portaviones, en el concurso convocado por las Fuerzas Navales de la India, informó la agencia de noticias PTI.

India convocó el concurso en noviembre de 2009 y planea adquirir 16 cazas con la posibilidad de aumentar el pedido hasta 40 aparatos.

La parte india dirigió solicitudes de información a varias empresas aeronáuticas, incluidas las estadounidenses Boeing y Lockheed Martin, la europea EADS, la sueca Saab, la francesa Dassault y la rusa MiG.

Las Fuerzas Navales de la India se proponen dotarse en 2015 con el primer portaaviones de fabricación nacional. Más tarde se proyecta construir dos más. Los cazas adquiridos a través del concurso serán emplazados en esos buques.

Los portaaviones indios desplazarán 40.000 toneladas, tendrán 260 metros de eslora y podrán desplazarse a la velocidad máxima de 28 nudos. El primer portaaviones buque fue puesto de quilla en 2009.
 

MAC1966

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Evolución del casco del F-35.

 
aja, mas alla de la forma lo interesante seria ver cuanto pesa en relacion al primero y si incorpora alguna otra mejora

se ve un tantin alto el casco... supongo que no sera muy pesadito pq sino te encargo tirar 7 u 8g sostenidas con ese casco!... que por lo que se ve tiene componentes encima de la linea de vision, que pueden hacer que le peso y el centro de gravedad del coso este mas desplazado hacia arriba que en los cascos convencionales...
 
Ya sabemos que los Ausíes ansían tener entre sus filas el F-22 y le tiran con todo al F-35, pero de todas maneras, les dejo un reportaje sobre el mismo, haber que opinan:



How will the intended 2,443 F-35s JSF impose air dominance for the USA and its Allies? That is the question to ask.

Search the Internet for material on the JSF and you will find terabyte after terabyte of articles, pictures, Powerpoint presentations, PDFs, tables and laudatory Blogs. And how much relates to how the JSF will deliver this capability? You will find assertions and statement such as ‘six times better Relative Loss Exchange Ratio than legacy aircraft’ [1], or ‘The operational arguments focus on combat effectiveness against top foreign fighter aircraft such as the Russian Su-27 and MiG-29. Lockheed Martin and USAF analysts put the loss-exchange ratio at 30-1 for the F-22, 3-1 for the F-35 and 1-1 or less for the F-15, F/A-18 and F-16’[2].

And how will the F-35 JSF perform, not against truly obsolete legacy aircraft like the Su-27SK and the MiG-29, but against modern fighters like the Su-35S? We can answer these questions with a head-to-head analysis of the two aircraft.

Air combat is a complex mix of art, science and engineering. Aircraft performance, weapons performance, networked sensors and pilot skill all contribute to the final Loss Exchange Ratio (LER). The only simplification is that aircraft approach, engage in combat and the survivors depart. This activity can be examined in a ‘kill-chain’ with the following stages: ‘Detect-Identify-Engage-Disengage-Destroy’ (DIED2).

Here is a scenario. In the ‘Blue’ corner, we have a flight of four F-35A JSFs, each armed with four AIM-120D Beyond Visual Range (BVR) missiles and the 25 mm GD ATP GAU-22/A cannon. No additional weapons or fuel are carried, because these would compromise the JSFs' “low observability” to X-Band radar. In the ‘Red’ corner, we have a flight of four Su-35S, each armed with four RVV-SD Active Radar Seeker BVR Missiles, four RVV-SD Infra-Red (IR) Seeker BVR missiles, two RVV-MD Within Visual Range (WVR) missiles, the 30mm GSh-301 cannon, KNIRTI SAP-518 jammers on the wingtips and a 6,000 litre conformal tank between the engines. Each aircraft has the full range of sensors and countermeasures.

Here is a table to show how they compare:







Whoa! The F-35A assessments are all marked in Red and Yellow – Inferior or Equivalent. Why is that?

Let’s look at each element of the ‘kill-chain’.

Detect:

Electronic Support Measures: Air combat aircraft emit radiation from jet engines, radar, JTIS/MIDSs terminal, radio transmissions. Specialised equipment in combat aircraft knows the frequencies of these transmissions and has sensors to detect them. Attempts are made to minimise emissions through a process of ‘Emission Control’ (EMCON) but these can only be partially successful. Both the JSF and the Su-35S have a full range of these sensors, and are assessed as being equally effective in ESM capability.

ESA Radar X-Band: This is the primary sensor for jet fighters. The radar cross section of the F-35A is substantially lower than that of the Su-35S especially in the front sector, but the Sukhoi has sufficient power and a much larger antenna to partially overcome that difference. Both types are ‘networked’ so in a multi-ship engagement, the geometrical spread of the Su-35S flight in part negates the lower observability of the JSF by illuminating the JSF from angles where its low observability is weakest. Expect the F-35A to often get the ‘first look’, but the Su-35S flight to detect the JSF outside the range of the JSFs' BVR missiles. So where it matters, the limited low observability of the JSF provides little advantage.

ESA Radar L-Band: The Su-35S will have this lower-frequency radar in its wing leading edges. The JSF is ‘stealthed’ for X-Band, not for L-Band. While the antenna size of the Su-35S L-Band radar limits its performance, there will be times when the L-Band radar detects the JSF before the X-Band radar. The JSF does not have an L-Band Radar and is assessed accordingly.

Infra-Red Search & Track: There is a different approach to Infra-Red sensors. The JSF has a superb Electro-Optical Distributed Aperture System (DAS) designed to cover the sphere around the aircraft, but strongly optimised for air-to-ground operations. The Su-35S has a large aperture OLS-35 IRST optimised to scan for other aircraft at long range in its area of interest. DAS is a ‘staring array’ while the OLS-35 is a ‘scanning array’. The difference in detection range is like the difference between a person searching with a naked eye compared with another searching with a telescope. If the telescope is pointed in the right direction, it will get first detection. Add to that the factor that the JSF has the hottest engine in the market, and the IRST of the Su-35S is assessed as a superior aid to air combat.

Identification: Not much need to be said here. The threat of fratricide in BVR air combat has led to the development of identification systems that will reliable separate friend from foe. Fratricide still happens though, especially in mixed, close-in fights.

Engagement:

Mach on Entry: High Mach increases the energy of BVR missiles, sending them further. The design top speed of the Su-35S is 2.25, limited by canopy and radome heating, so it has surplus power and the fuel to burn to sustain high Mach numbers. The drag of the external stores is likely to reduce this to something below Mach 2, but the missiles are cleared for launch at all speeds. The JSF has yet to demonstrate a flight above Mach 1.05, but even if it reaches its design speed of Mach 1.6, it is clearly inferior.

Altitude on Entry: Like Mach, a higher altitude adds potential energy to BVR missiles, sending them further, while an enemy’s missiles must ‘climb the hill,’ severely reducing range. A second factor is that missiles fired from a higher altitude have less drag, again increasing range. The JSF is optimised for Strike missions flown at about 15-25,000 feet, while the Su-35S is optimised for air combat missions at about 40,000 feet and above, with a combat ceiling close to 60,000 feet. Points go to the Su-35S on operating altitude.

Missile Range: The RVV-SD and the AIM-120D have roughly equivalent ranges, but when the RVV-SD has a high-Mach, high-altitude launch; it will outrange the AIM-120D. The Su-35S is assessed at delivering a longer BVR engagement range. This area of superiority will be increased once the RVV-AE-PD ramjet missile becomes operational. In addition, the Su-35S can carry the very long range R-37 and R-172 missiles, with ranges to 200 nautical miles.

Missile Seeker Diversity: The AIM-120D currently has an active radar seeker, while the RVV-SD/R-77ME and the R-77TE have active and infra-Red (IIR) seekers respectively. Mixed sensor seekers complicate defences, for example, the F-35 may turn to defeat an active seeker and expose a hot part of the aircraft to an IR seeker. Russian doctrine is to ‘pair’ missiles with an active seeker followed by a IR seeker, creating diversity in the fight and creating ‘kill’ opportunities. The Russian missiles also have the option of passive anti-radiation seekers, designed to home on X-band radar. This diversity in missile seeker sensors gives an advantage to the Su-35S.

Signature Exposure: This is a factor that primarily affects the JSF, known to have a ‘Pacman’ radar cross-section at X-Band, with a Low Observability ‘notch’ at the front. As it manoeuvres, it can turn the notch away from an aircraft searching sensor, and expose a higher radar cross-section to that search, or expose a broadside or rear-side to another aircraft. The F-35 relying on a ‘can’t see me, can’t kill me’ capability, has more to lose in a spread, manoeuvring engagement than the Su-35S, which will generally be detectable by the JSF for most of the engagement. This exposure can occur, for example, when the JSF is guiding a missile and turns away to reduce the closure rate, thereby exposing both the aircraft and an incoming missile to longer range detection, or detection from a widely spaced wingman. As the JSF is reliant on signature reduction for survival, it has more to lose if its signature increases, so is assessed as more vulnerable in the dynamics of a multi-ship, networked, turning engagement where signature management is very difficult.

Endgame Electronic Countermeasures (ECM): The ‘modus operandi’ of stealth aircraft is not to radiate, or return radiation, which is the way ECM countermeasures work. Su-35S has ECM, JSF does not, except for intended AESA Radar jamming modes across a limited forward cone of about 120 degrees. ECM based on Digital Radio Frequency Memory (DRFM) can be very effective, especially against missiles with limited processing power and time to resolve targets. The Su-35S also has several ECM modes. The JSF is assessed as inferior, because it does not employ ECM to defeat attack.

Decoys Towed / Fired: The Su-35S has the option of deploying towed decoys to lure a closing missile away from the body of the aircraft. The JSF approach is different, with small ‘Gen-X’ active decoys being fired as a missile closes. These measures are assessed as being approximately equivalent, with the towed decoys which are at co-speed to the target likely to present the more effective countermeasure.

Flares and Chaff: These are outmoded countermeasures, but still add to the difficulty of guiding a missile to close proximity of an airframe. The GSh-301 is claimed to have rounds that fire chaff forward of the aircraft, so chaff-discrimination processing in a closing missile might be deceived. Nonetheless, the countermeasures are assessed as equivalent.

Mach for a Tail-Chase / Fuel Reserves for Afterburner: At some time in a fight, an aircraft has to depart, for example when ‘Winchester’ or out of ammunition, or ‘Bingo’ or down to just enough fuel to get home. Then the fight becomes a tail-chase. The Su-35S with its higher Mach can close on a JSF, the reverse is not the case. The ability of the Su-35S to carry large fuel loads, and the prodigious consumption of the JSF F135 engine in maximum afterburner exacerbates this perilous situation for the JSF. The advantage is with the Su-35S in these aspects of engaging in a fight when the JSF is attempting to disengage.

Disengagement: This is one of the under-assessed areas of future air combat. When missiles of roughly equivalent range are fired, they travel for over 100 seconds to the target. This transit time provides an opportunity for countermeasures to defeat the attack. Missile motor launch-flares are intensive and difficult to hide from Infra-Red sensors, so in many engagements, there will be early warning of an incoming missile. Active seekers ‘light-up’ at about 10 nautical miles from the target, still providing valuable warning time. Here is a range of disengagement measures:

Airframe Agility: Once warned of a launch, the defending aircraft can sometimes defeat the attack by rapidly turning away to force the missile into a tail-chase.

Antenna Coverage: AESA radars like the JSF APG-81 working from a fixed back-plate cover a cone of about 120 degrees. The Su-35S has an ESA radar working from a gimballed ‘swash-plate’ that covers about 240 degrees around the nose, and there is a second radar in the ‘stinger’ albeit with less capability, to cover the remainder of the sphere. If the Su-35S and the JSF fire a BVR missile at the same time and at maximum range, the Su-35S can turn away to about 120 degrees off the line joining the two aircraft, while the JSF is constrained to about 60 degrees. This runs the JSF into the Su-35S’s missile, while the Su-35S is running away from the JSF’s missile. The result could be an RVV-SD hit and an AIM-120 miss. Points to the Su-35S on this aspect.

Mach on Egress / Fuel Reserves for Afterburner: This is an extension of the antenna coverage capability, as the Su-35S can accelerate away from the incoming missile, forcing it to drop-short. The JSF does not have this performance and is assessed as inferior.

Destroy:

Missile Seeker Diversity: At terminal phases of an engagement, there may be several missiles in the vicinity, with aircraft manoeuvring to defeat the attack. An incoming missile with an IR seeker may be presented with the ‘rear end’ of a JSF and track for a kill. This opportunity is not available to the JSF attacking the Su-35S, as its limited missile carriage does not include BVR missiles with IR seekers.

Missile Agility: This is the ‘flip side’ of aircraft agility. The R-77 has the famous ‘potato masher’ lattice-tail control surfaces, that while increasing drag over conventional surfaces, also give greater terminal manoeuvring capability. So, the Su-35S BVR weapons can out-turn the F-35’s weapons.

Warhead Lethality: This is a mix of warhead destructive power and the vulnerability of the target airframe. The AIM-120D has an 18 Kg, fragmentation warhead, and the Su-35S widely spaced armoured engines, armoured sections of the airframe and redundancy of system. The R-77 missiles have 30 kg expanding-rod warheads to destroy the single-engine JSF, from which critical systems like fire suppression have been removed to reduce weight and cost. The Su-35S is assessed as superior.

WVR Missiles: This is as simple as ‘the Su-35S carries WVR missiles, the JSF does not’ (in this example). The JSF can carry WVR missiles, but they are an external mount, impairing radar signatures.

Guns Lethality: Bigger is better. 30 mm rounds have more explosive power than 25 mm rounds. Again, the airframe vulnerability is an issue and a single 30 mm hit to the JSF’s single engine could bring it down.

At the end of the kill-chain, it seems, prima facie, that the Su-35S has all the ‘right stuff’ for air combat, while the F-35 JSF does not. This should come as no surprise, because the design brief for the JSF was that the F-22A would ‘sanitise’ airspace and deliver air dominance, making it safe for the Joint STRIKE Fighter to deliver follow-up strike capabilities.

Now that the F-22A Raptor program is being terminated with insufficient aircraft to deliver air dominance, this role is now being assigned to the F-35 JSF.

Given the intent of the OSD to employ the F-35 Joint Strike fighter as an air dominance fighter, the fundamental and unanswered question is:

HOW?

Postscript: Please don’t mention the PAK-FA.

saludos

---------- Post added at 11:02 ---------- Previous post was at 11:02 ----------

Disculpen, la fuente:

http://www.ausairpower.net/APA-NOTAM-05072010-1.html

saludos
 

Juanma

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Colaborador
Que opino?
Muchas de las "apreciaciones" que hacen sobre cada punto son simplistas a veces y siempre buscan beneficiar lo que les interesa
 
Claro, existen algunas contradicciones en el mismo artículo, pero por eso lo subo, para deshacerlo, sacando los puntos buenos y malos... Algunos argumentos son válidos, otros simplemente nada que ver...

saludos
 
Claro, existen algunas contradicciones en el mismo artículo, pero por eso lo subo, para deshacerlo, sacando los puntos buenos y malos... Algunos argumentos son válidos, otros simplemente nada que ver...

Casi todo lo que se publique sobre el F-35 es parcial y hay que tomarlo con pinzas porque aún no existe un solo ejemplar de serie en servicio y porque las pocas cifras que se filtren, dificilmente sean 100% reales.

En 1982 cuando los MiG 29 visitaron una base sueca y que fue el primer contacto del avión con la prensa occidental, se escribieron cosas increíbles de ése avión que venía a comerse crudo al F-16 y al Hornet. Por su parte también se dijo que el AMX era el sucesor natural del A-4 Skyhawk, y preveían fabricar más de 2.000 ejemplares como mínimo.

Ahí tenes dos ejemplos de lo que dice la prensa y de lo que sucede en la realidad. El MiG 29 no se comió a nadie, por el contrario luego de encontrarle el punto débil, se han cansado de derribarlo; y en el caso del AMX ni Italia ni Brasil completaron sus pedidos originales.

Como en la cancha se ven los pingos, en la aviación también.
 
cual es el punto debil del mig 29, nunca lo escuche, lei sobres los derribos pero siempre crei que fueron por mayor ventaja del otro bando, awacs, misiles, entrenamiento, y otras cositas mas.
 
Casi todo lo que se publique sobre el F-35 es parcial y hay que tomarlo con pinzas porque aún no existe un solo ejemplar de serie en servicio y porque las pocas cifras que se filtren, dificilmente sean 100% reales.

En 1982 cuando los MiG 29 visitaron una base sueca y que fue el primer contacto del avión con la prensa occidental, se escribieron cosas increíbles de ése avión que venía a comerse crudo al F-16 y al Hornet. Por su parte también se dijo que el AMX era el sucesor natural del A-4 Skyhawk, y preveían fabricar más de 2.000 ejemplares como mínimo.

Ahí tenes dos ejemplos de lo que dice la prensa y de lo que sucede en la realidad. El MiG 29 no se comió a nadie, por el contrario luego de encontrarle el punto débil, se han cansado de derribarlo; y en el caso del AMX ni Italia ni Brasil completaron sus pedidos originales.

Como en la cancha se ven los pingos, en la aviación también.

es totalmente cierto lo que dices sobre le F35, desde luego que la mayoria son especulaciones... las unicas certezas vienen por le lado de los plazos dilatados y sobre todo el sobrecosto del programa...y de que se sabe que ahora estan "adelgazando" el avion en algunos sistemas ....
ahora sobre las capacidades reles o no... desde luego que es conjetura... como lo es en realidad sobre casi cualquier caza moderno..
o acaso podemos afirmar con un 100% de seguridad que capacidades reales tiene un EF, Rafale, o Su-35??... menos aun un F22 ,,.. y ni hablar un Pak... que recien se asoma...

el punto es justamente lo que decis al principio... "ni un solo ejemplar de serie en servicio".. al 2010.. seguimos con prototipos y pre-series.. con un programa cada vez mas atrasado , con sobrecostos escandalosos... y con socios y clientes cada vez mas descontentos....
esas si son certezas....


sobre el Mig-29 no le veo ningun asidero ..no es comparable ya que en los ambientes en los que opero estuvo siempre en desventaja .....

sin embargo en los ejercicios llevados a cabo en Alemania con los Mig-29 de primera gen. alemanes, hubo mas que buenos informes para los Mig...
 

Juanma

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Colaborador
No todos buenos informes.
La mira montada en el casco no era lo revolucionario que se pensaba por lo complicado del sistema.

Otra cosa criticable (y que sigue aun hoy estando el problema)
El humo que producen los motores. Algo que la USAF saco como conclusion cuando probaron el Mig-21 israeli contra sus F-4
 
No todos buenos informes.
La mira montada en el casco no era lo revolucionario que se pensaba por lo complicado del sistema.

Otra cosa criticable (y que sigue aun hoy estando el problema)
El humo que producen los motores. Algo que la USAF saco como conclusion cuando probaron el Mig-21 israeli contra sus F-4

el humo de los motores se conocia aun antes de que los Alemanes operaran los Mig.... es un "firma" que mantuvieron los sovieticos por mucho tiempo...
sobre la mira... no se... era engorrosa.. complicada no creo.. pero en los ejercicios lo que si se demostro que en dog fight los Mig eran muy superiores a cualquier occidental.. y que los sistemas y armas rusos no eran tan anacronicos como esperaban...
 
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