@Air Force Brat ,
My point is that the canards act a little like stabilons because of the X-wing canard set-up. That means the J-20 has less need for tailfins than an F-35 or F-22, to the extent that it might be practical to ditch tailfin yaw control and rely on canards and TVC instead.
As for the "beauty" of the J-20, I don't see it. The design reminds me more of the A5M of the IJA, i.e, it's a necessary transition but it's not an A6M Zero. The J-20 has problems insofar as it has way too many aerodynamic devices; you have chines on the nose, lerx in front of the canards, lerx behind the canards, canards, delta, lifting body, ventral strakes, tailfin. It's not elegant; it's like if someone decided to throw in everything they knew about aircraft into it and hope it flies well, which it seems to do.
Reducing yaw control is not necessarily a bad thing if the plane is still flyable without it, if other elements of maneuverability are enhanced, as seen with the X-36 demonstrator.
My point is that the canards act a little like stabilons because of the X-wing canard set-up. That means the J-20 has less need for tailfins than an F-35 or F-22, to the extent that it might be practical to ditch tailfin yaw control and rely on canards and TVC instead.
As for the "beauty" of the J-20, I don't see it. The design reminds me more of the A5M of the IJA, i.e, it's a necessary transition but it's not an A6M Zero. The J-20 has problems insofar as it has way too many aerodynamic devices; you have chines on the nose, lerx in front of the canards, lerx behind the canards, canards, delta, lifting body, ventral strakes, tailfin. It's not elegant; it's like if someone decided to throw in everything they knew about aircraft into it and hope it flies well, which it seems to do.
Reducing yaw control is not necessarily a bad thing if the plane is still flyable without it, if other elements of maneuverability are enhanced, as seen with the X-36 demonstrator.