Sine Nomine
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"Induction of no, new fighter jet in PAF is going to happen, nor it is possible in foreseeable future"
There are few factors,
1. New Generation of fighters (5th Gen) is around the corner, spending cash on new 4th Gen is unwise.
2. New Induction means new training in fields of (Airframe, Avionics, Engine) different type of maintenance.
3. That means training required amount of personal and purchase of required equipment for maintenance for max serviceability of fleet.
4. Training of aviators on new machine.
5. Development of air combat doctrine and tactics.
6. Integration of new fighter with old fleet and assets(AWACS, Fighters, EW assets, Command nodes etc)
7. Construction of MRO facility.
8. Development of new facilities that would cater new fleet on selected bases.
9. State economy is already in bad shape, Incapable of supporting new induction.
That whole process requires handsome amount of cash and time, of which everyone knows what we don’t have.PAF has chosen a good path for future i.e. saving funds for New Generation of fighters+ investing in in-house development of tech under Project AZM and acquiring old Airframes of(F-16&Mirages) already present fleet from around the world on cheap prices for spares or raising new Sq in no time while nullifying above factors of cost and time.
Now coming to Point, we all know that induction of new fighters is not possible and Mirages being used for strike are getting very old and crash rate is increasing, PAF is in love with these, obviously due to their operational value which in my opinion comes out of their DELTA wing configuration.
Mirages are quite old and they must be replaced as soon as possible after every passing year flying them is becoming risky due to Airframe life.
What should be replacement???
J-10,Saab Gripen,Typoon,SU-34, etc we can’t have them due to above mentioned factors of cost and time. Then why not, we should alter wing configuration of JF-17 and develop a strike fighter based on JF-17.
JF-XX(Strike Fighter)
JF-XX(Strike Fighter) would be developed utilizing max amount of components from JFT-blk3 including Engine but would have enhanced capabilities for strike missions and ground penetration. It would be same as F-16 XL.
F-16XL
Background
The General Dynamics F-16XL is a derivative of the F-16 Fighting Falcon, with a cranked-arrow delta wing. It was originally conceived as a technology demonstrator, later entered in the United States Air Force's (USAF) Enhanced Tactical Fighter (ETF) competition but lost to the F-15E Strike Eagle.
Design
The wing and rear horizontal control surfaces were replaced with a cranked-arrow delta wing 120% larger than the original wing. Extensive use of carbon fiber composites allowed the savings of 600 lb (270 kg) of weight but the F-16XL was still 2,800 lb (1,300 kg) heavier than the original F-16A.
Less noticeable is that the fuselage was lengthened by 56 in (1.4 m) by the addition of two sections at the joints of the main fuselage sub-assemblies. With the new wing design, the tail section had to be canted up 3°, and the ventral fins removed, to prevent them from striking the pavement during takeoff and landing. However, as the F-16XL exhibits greater stability than the native F-16, these changes were not detrimental to the handling of the aircraft.
Improvement Over F-16 A/B
These changes resulted in a 25% improvement in maximum lift-to-drag ratio in supersonic flight and 11% in subsonic flight, and a plane that reportedly handled much more smoothly at high speeds and low altitudes. The enlargements increased fuel capacity by 82%. The F-16XL could carry twice the ordnance of the F-16 and deliver it 40% farther. The enlarged wing allowed a total of 27 hard points.
· 16 wing stations of capacity 750 lb (340 kg) each
· 4 semi-recessed AIM-120 AMRAAM stations under fuselage
· 2 wingtip stations
· 1 centerline station
· 2 wing "heavy/wet" stations
· 2 chin LANTIRN stations
However, the "heavy/wet" stations interfered with up to four wing stations.
Background
The General Dynamics F-16XL is a derivative of the F-16 Fighting Falcon, with a cranked-arrow delta wing. It was originally conceived as a technology demonstrator, later entered in the United States Air Force's (USAF) Enhanced Tactical Fighter (ETF) competition but lost to the F-15E Strike Eagle.
Design
The wing and rear horizontal control surfaces were replaced with a cranked-arrow delta wing 120% larger than the original wing. Extensive use of carbon fiber composites allowed the savings of 600 lb (270 kg) of weight but the F-16XL was still 2,800 lb (1,300 kg) heavier than the original F-16A.
Less noticeable is that the fuselage was lengthened by 56 in (1.4 m) by the addition of two sections at the joints of the main fuselage sub-assemblies. With the new wing design, the tail section had to be canted up 3°, and the ventral fins removed, to prevent them from striking the pavement during takeoff and landing. However, as the F-16XL exhibits greater stability than the native F-16, these changes were not detrimental to the handling of the aircraft.
Improvement Over F-16 A/B
These changes resulted in a 25% improvement in maximum lift-to-drag ratio in supersonic flight and 11% in subsonic flight, and a plane that reportedly handled much more smoothly at high speeds and low altitudes. The enlargements increased fuel capacity by 82%. The F-16XL could carry twice the ordnance of the F-16 and deliver it 40% farther. The enlarged wing allowed a total of 27 hard points.
· 16 wing stations of capacity 750 lb (340 kg) each
· 4 semi-recessed AIM-120 AMRAAM stations under fuselage
· 2 wingtip stations
· 1 centerline station
· 2 wing "heavy/wet" stations
· 2 chin LANTIRN stations
However, the "heavy/wet" stations interfered with up to four wing stations.
Advantages Delta Wing configuration.
· The delta wing offers advantages in structural integrity and both high-speed and low-speed flight.
· Because of the wing's large surface area compared to its span, it can be built stronger and stiffer,
· It's also cheaper and easier to build.
· The delta wing also gives the airplane a higher critical angle of attack.
· Vortexes generated along the leading edge of the wing re-energize the flow boundary layer, delaying separation and stall. This gives the wing more stable flight characteristics at low speed.
· At transonic/supersonic speeds, the delta wing keeps the shock cone behind its leading edge, giving it more stable supersonic flight characteristics.
· The primary cost to all these benefits is the significantly increased drag due to the greater lifting area. Delta-wing aircraft must produce much more power to reach the same airspeeds as swept-wing aircraft.
· Cranked Arrow Delta Wing gives aircraft substantial gains in payload and agility without sacrificing agility.
· It allows higher speed dash(Mach 2 dash)
. A delta wing is naturally stable in pitch; therefore it does not require a separate tail surface.
· Due to the large root chord, a delta wing combines low relative wing thickness with a sufficiently thick wing spar for a lightweight structure. Since a low relative thickness keeps wave drag down (a drag component which occurs only in supersonic flow), this makes delta wings especially attractive for supersonic aircraft.
· The large root chord gives the delta wing a high internal fuel volume even at a low relative thickness.
· The large root chord also provides it with a large surface area which helps to bring the minimum speed of the aircraft down.
· With sufficient leading edge sweep, a delta wing produces vortex lift, so flow separation can be turned into a means of increasing lift.
·
JF-XX Strike Fighter
Design
· JF-17 blk 3 fuselage, engine, avionics.
· Same airframe construction material.
· Cranked arrow delta wings.
· Increasing length of landing gears for more ground clearance.
· DSI intakes.
· Fully digital fly by wire system (derived from blk-3).
· Enhanced capabilities for strike missions and ground penetration(NOE flight)
Advantages
· Cost effective when it comes to cost and time factors.
· Manufacturing would be easy.
· Will be operational in short span of time.
· Maintenance friendly.
· Will be better equipped for A2A engagement.
· Longer range due to high amount of fuel.
· Good amount of A2G munitions carrying capability both in terms of load and hard points.
· Ra’ad Integration.
· Good for Navy.
Note:- Don’t jump the guns. Whole of idea is my personal opinion, every valuable member is free to correct me as whole article lacks solid technical parameters on many accounts.
Sources:
https://aviation.stackexchange.com/...ntages-of-a-delta-wing-compared-to-a-swept-wi
https://history.nasa.gov/SP-468/ch12-4.htm
https://en.wikipedia.org/wiki/General_Dynamics_F-16XL
https://www.semanticscholar.org/pap...amar/8391e952f1ce64eb8e497064bca6b1d37001a09c
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