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Other aircraft in RAAF service worth looking at with respect to longevity of service
Meteor f8.....metal airframe, jet engine, entered service 1952, retired from frontline 1958, about half remained in air reserve until 1963....11 years of service
CAC Ca 27 avon Sabre....metal airframe , entered service 1954, retired from frontline 1964, a few were passed to Malaysia and Indonesia after overhaul, in service until 1970s, but basically with low hours. RAAF service 10 years
Mirage III, 105 built, but never more than 40 in service at any one time. In service from 1964 to 1984, maybe 15 years for each airframe.
I don't see a pattern that cries out metal frame= longer service life. what I see is metal frame irrelevant to service life. engine tech, yes, type obsolescence yes airframe type, mor dependant on its usefulness more than anything. wood, metal, aint got squat to do with it.
I think the situation is variable. During WWII the average lifespan of a given airframe might be 6-12 months of frontline service. I don't think being made of wood or metal is going to make all that much difference in that time frame.
In peace time we have examples of wood framed a/c being used operationally for 10+ years, and metal framed a/c being used for 5-50 years, average say 10 years, getting longer for the newer types. I just cant see that airframe is the main determinant of long term longevity. I think the usefulness of the airframe has more to do with it. in peace time the airframe will get looked after, so it doesn't wear out so much as just stops being useful.
There are still airworthy examples of the Dh Dragon Rapide.
I think you'll find it has to do with ram effect. Less relative wind and more AOA means the air has to bend around to enter the scoop and hits the radiator with less impulse. Like an early centrifugal flow jet, less ram in the front means less thrust out the back.
The thing with wooden structure is that it very easy to get into a situation where it is beyond economical repair; either because of the labour and skills required or due to the amount of material needing to be replaced.I think the situation is variable. During WWII the average lifespan of a given airframe might be 6-12 months of frontline service. I don't think being made of wood or metal is going to make all that much difference in that time frame.
In peace time we have examples of wood framed a/c being used operationally for 10+ years, and metal framed a/c being used for 5-50 years, average say 10 years, getting longer for the newer types. I just cant see that airframe is the main determinant of long term longevity. I think the usefulness of the airframe has more to do with it. in peace time the airframe will get looked after, so it doesn't wear out so much as just stops being useful.
Wood continued to be used for at least 10 years after the war in military aircraft in the eastern block, because the formula they were using for airpower was totally different to the formula employed in the US where such shortages and economies were never an issue. . The use of wood is, (especially un-laminated) inherently weaker and more prone to critical damage than metal, but it has its advantages that are especially useful in wartime. It uses non-strategic materials, it uses skill and a workforce generally underutilised in wartime and frees up more specialised metal working and alloy production for more critical jobs. in the case of the Soviets they opted for those wood construction. Using wooden airframes with fabric coverings allowed them to divert their meagre alloy production and metal working capable workforce to the production of AFVs which they played to their maximum advantage. they didn't produce more than 80000 T-34s with only the 5th largest economy using our formulas for production. They also used steel framing in their IL-2s and 10s, a non-strategic material, another variation to avoiding use of critical materials and skills
in the post war situation where wartime pressure don't exist, it doesn't make sense to build in wood. it is an inherently weaker material, but this is not a major factor in determining airframe longevity. mentioning the so-called issues about RAAF mossies post war, it was just one of perhaps half a dozen types that we had in surplus in 1945, and yet it was the mosquito that was selected to map half of SE Asia and then provide recon as late as 1954. RAAF mosquitoes incidentally that were selected for retention were all photo recon variants, so they retained their primary roles until retiremement at the beginning of malaya.
ive deliberately kept my comments confined to RAAF, to maintain some semblance of comparability. Talking about some Sth American airforce and how it retains a wwii crate in service for 50 years may not be comparable to another user. they may have lower airworthiness criteria, lesser annual hours per airframe, just plain acceptance they don't need top shelf toys for their forces. I don't know that the claim that these air forces, if equipped with a mosquito or two instead of a p-51 or two, might not still try and fly them 30 years after their use by date, once or twice a year, or how ever many times, or accept attrition rates totally unacceptable to a modern western air force. the two subsets are just not that comparable
Don't forget that De Havilland continued to use wood post-war, including in the Venom and Vampire jets, so the fact of utilising other skills for manufacturing doesn't hold water, IMO. Post-war aluminium workers would have been a dime a dozen.
Comparing Al with unlaminated wood is a bit of a straw-man argument, as unlaminated wood was very rarely (if ever) used in an airframe.
If there was a will to have maintained these aircraft, they would have been. The IAF managed to retain their Vampire trainers in service from 1953 to 1982...
There are still airworthy examples of the Dh Dragon Rapide.
From what I have read the later Me109s had a quite good use of the meredith effect the spitfire was so/so depending on which model. As far as I know the thrust from the P51s meredith effect merely compensated for the drag of the inlet duct. On the Mosquito the outlet of the cooling system was under the wing, it couldnt provide forward thrust but then the inlet was in the wing leading edge and so didnt cate drag either.
On the Hornet construction of a system to provide thrust by the Meredith effect was impossible due to the wing spar, the challenge was therefore to re introduce the airflow from the radiators without turbulence.
I was reading the link below, from what I can glean the considerations of thrust/meredith effect were tied in with achieving low turbulence in the airflow. To my simplistic mind the more effective any meredith effect is the more likely you are to create drag at the inlet. The target was to achieve as close to zero cooling drag,As for the Mosquito's underwing cooling exhaust not being able to provide thrust ... of course it could. There are lots of examples of thrust recovery outlets on aircraft that are parallel to the local airframe. I'm not sure where your assertion comes from. And even if a cooling duct doesn't increase frontal area in can still create a bunch of drag. (One could say a radial engine doesn't increase frontal area - lol).
I was reading the link below, from what I can glean the considerations of thrust/meredith effect were tied in with achieving low turbulence in the airflow. To my simplistic mind the more effective any meredith effect is the more likely you are to create drag at the inlet. The target was to achieve as close to zero cooling drag,
Some questions after reading the DH Hornet book...
BTW - "Chuter" seems curiously close to "Shooter" - hopefully by coincidence.
My fellow pilots, in their infinite wisdom, used the term to refer to individuals who would willingly and repeatedly jump out of a perfectly good airplane. Needless to say, the individuals themselves didn't take it as a term of endearment, preferring to be called "jumpers" or skydivers. I went along with this disparagement until I became one and suddenly the tune changed.
The meredith effect is a ramjet effect?