LOL. Well there is no evidence tendered that you are any good at your job. So come address the issues rather than point at your degree hanging on the wall. You’ve made a bollox job trying to address the design issues and you’ve defamed Zakheim or are ignorant of his work.
This issue will not be determined by calculating skin stress under certain flight conditions. It is determined by careful collation of facts, assessment of merit, analytical inquiry and logical determination. That is my degree, that is my two decades of experience.
LOL. I work with the hardware you only dream about. You have yet to respond to any of the obvious design features that - as I pointed out previously - underline the common lineage between the Lavi and the J-10. Since you seem to have forgotten them, allow me to remind you - and to expand on the details.
Both the J-10 and the Lavi feature a blended-wing design, with area ruling - features not seen on the MiG-21, nor even on the Eurocanards. From your previous reply Gubler, you obviously do not know what area ruling is. Go look it up. It produces the "Coke bottle" look seen on the Lavi, the J-10, and such vintage aircraft as the Buccaneer. It was a popular approach back in the 1960s, aimed at minimizing transonic and supersonic wave drag. It largely fell out of fashion amongst most fighter developers during the 1970s and 80s, as engine thrust grew (allowing more external fuel to be carried) and as the improvement in strike radius was seen as less important than incorporating added electronics. It was revived by IAI when developing the Lavi, for which strike radius was essential. It was carried over when developing the J-10.
Both the J-10 and the Lavi feature a close-coupled canard-delta design - features not seen on the MiG-21, and which both share with such aircraft as the Rafale, Gripen and Kfir (although not with the Eurofighter Typhoon - which features a long-coupled canard-delta design). The Chinese already developed a scaled-up MiG-21 - as the original F-8 design bears witness to (look it up if you don't know what I'm talking about). The PLAAF learned from that experience. A MiG-21 style configuration was only going to carry them so far. The J-10 is anything but that.
Both the J-10 and Lavi feature twin ventral strakes, which increase lateral stability and also protect the engine from tail-strike during over-rotation - features not seen on either the MiG-21 or the Eurocanards. So what do you think led the developers at Chengdu to this arrangement? The MiG-21 experience that you keep alluding to? Please.
Both the J-10 and Lavi feature a single engine with a ventral inlet, another combination not seen on either the MiG-21 or the Eurocanards. This is particularly significant - since the other source of fighter know-how that China tapped into during the early 1990s - Russia - has elected to stay clear of this kind of configuration. The Russians figured out early that a ventral inlet is not well suited to rough field conditions, where it is at heightened risk for ingesting debris on take-off or landing. So what do you think inspired the Chinese to adopt a configuration so alien to either their previous design experience, or the best practices of the Russian developers who assisted on the FC-1/JF-17? Do I really need to spell it out for you?
As I pointed out before, anyone who has studied the arrangement of access panels on the center fuselage fuel tank should have noticed the obvious design similarities between the J-10 and Lavi. This same structural arrangement can also be seen on the F-16 - but will not be found on any of the Eurocanards, and certainly not on the MiG-21 (for which maintenance panels were a distant afterthought). You won't find anything like this on any Russian aircraft, nor any of China's other fighter designs. So what do you think inspired the Chinese to suddenly care about access panels?
Here's another one you probably didn't know. The Lavi wing was redesigned part way through the development effort - to allow the airplane to carry additional payload. The redesign was not as much a question of strengthening the wing - as much as it was a question of adding sufficient control authority to allow the airplane to handle the extra weight. The first two Lavi prototypes flew with the original wing - but starting with the third prototype (which later became the Lavi TD flight test demonstrator), they added an auxiliary elevon. It can be seen inboard and aft of the ventral strakes. You will not find this feature on any of the Eurocanards, and certainly not on the MiG-21. You will find it on the Lavi TD, and you will find it on the J-10. Funny thing.
I could add that - as it has been pointed out before - China no longer denies Israeli involvement in the development of the J-10. Their own chief test pilot has admitted that he travelled to Israel to train in the Lavi flight simulator prior to his first flight in the J-10. Russian engineers who were visiting the Chengdu site during the early 1990s also reported that there were placards at the site written in Hebrew for the benefit of the on-site Israeli consulting staff. The connection between the two airplanes is well known.
Without even getting visual lets compare shall we:
Length: 47 ft 10 in - 50 ft 10 in
Wingspan: 28 ft 10 in - 31 ft 10 in
Height: 15 ft 8 in - 15.7 ft
Wing Area: 355 ft² - 419.8 ft²
Empty Weight: 15,500 lb - 21,495 lb
Loaded Weight: 22,025 lb - 32,797 lb
Engine Max Thrust: 20,600 lbf - 29,101 lbf
Engine Dry Weight: 2,848 lb – 3,454 lb
Range: 2,300 mi - 682 mi
Service ceiling: 50,000 ft - 59,055 ft
Wing loading: 62.0 lb/ft² - 69 lb/ft²
How can those figures be from one plane derived from another?
So by your line of reasoning, the F/18-E/F couldn't possibly have been derived from the F/A-18C/D - because the dimensions are different? Please.
The design of the J-10 was scaled up from Israel's Lavi experience, to match the size and performance of the larger engine, and to match the range requirements that China was seeking. You probably don't know this, but the Lavi as it was test flown was not the same as the original aircraft that had been proposed by IAI in 1980. The original Lavi proposal - labeled Layout 33 - was built around the much smaller F404 engine, and had targeted an empty weight of 11,110-lb (5,040-kg). When the IDF later revised its requirements - demanding more range, payload, and a more sophistocated avionics suite - the engine was changed to the larger PW1120, and the airplane was scaled up: eventually achieving an empty weight of 15,700-lb (7,120-kg).
The J-10 was similarly scaled up from Israel's experience with building, and flight testing the Lavi. I don't know where you copied your figures from when you quoted your proposed statistics for the J-10. The Chinese government has not yet released any official statistics, and there are quite a few independent estimates floating around the internet and in the aviation press. I am not going to tell you, point by point, which one of your statistics is wrong. I will tell you, however, that the numbers that you are quoting for maximum range are not even in the ballpark. Official numbers quote the maximum strike radius of the Lavi at 1,200 nautical miles (2,220 km), in a hi-lo-hi mission profile. Carrying more fuel and with broadly similar aerodynamic characteristics, even a neophyte should know that the strike radius (much less the range) of the J-10 is not going to be as low 682 miles - not even with a head-wind.