Unfortunately, the path of aviation design is a learning curve of crashes and disasters. Metal fatigue square windows in Comet planes that popped out mid flight after awhile.

That said aviation is safer than automobiles. Roll on 2026 when we get driverless cars on the road.

They're already out there! Just wait until hackers figure out a way to hack these driverless vehicles, as well as all of these modern cars with massive computer systems. Hey, as any hacker will tell you, there is no computer, built by man, or another computer, that cannot eventually be hacked.

A friend just bought a Tesla: it kind of surprising, but then I remembered him years ago saying he hated driving and couldn't wait for self-driving cars!

-it was a bold marital move: he didn't tell his wife first! (Let's hope he doesn't end up living in it!)

Paul, your description of the fire's characteristics sounds very much like how nitrate film burns. It gives one second thoughts about getting on one of these planes.

Graham's description of Kapton wiring adds to the dread.

We don't know how many "close calls" we may have avoided. I remember the Alaska Airlines Flight 261​ in back in 2000:

I was on that same route and plane model the month before.

Bob Newhart had it summarised years ago with Grace L Ferguson airline sketch

https://youtu.be/DR5auN1QSp0?si=1Uw8dgBnh7VBE4hz

That was great Mike, thanks for posting, I laughed my head off! Bob Newhart was hilarious on radio.

Ed, that was a close call you had. Unfortunately it only takes one critical component to fail for a plane to come down. Amazing really that commercial aviation is so safe.

Innocent days before Ryanair made it a reality.

Remember travelling in one of the box with wings planes to Blackpool convention stopping on the Isle of Man to pick up a passenger and drop off and pick up freight. Tea and shortbread was dispensed to all from an oversized flask.

Still think we landed in a car park at Blackpool.

Another memory trip back and that was not the 146 but the 748 where the night shift had fitted the galley etc. I came in the morning turned on the galley power as they said it was finished, shortly after smelt smoke coming from under the floor, called out to the cockpit to kill the power. The night shift had wired it up wrong, and as such a single wire had shorted out along underneath the floor area. I got the avionics folk to check things out. It was just one wire but what a stink from the molten mess. I asked them why did the CB not trip? and if I remember right, the answer was there were more than one wire to that CB therefore its rated higher. Now if you imagine that single wire although shorted out, it was still not drawing enough current to trip it due to the higher CB rating for all the other stuff that was also connected to it.

So there you have it, you can have a single wire happily burning away underneath a floor area without enough amps going through it to trip the Circuit Breaker, makes you think doesn't it. About the time I was working on aircraft, airlines were still operating a lot of old aircraft, they were not replacing them with new ones that quick. Some of the 747s I saw on tarmac looked tired. It did make me think at time I hope there maintenance is up to scratch.

Remember the TWA 747 that blew up in flight due to faulty wiring shorting out in the centre tank, the United airlines 747 that wire shorted out causing the motor to run causing the freight door to open in flight over the Pacific with terrible results.

For all that I still feel flying is really safe, there is more chance of getting killed on the road driving your car to the airport than in the air.

Air travel is definitely much safer than automobiles. The only human element is the take off and landing most of the rest of the journey is undertaken by IT.

Remember when Robert Mc Namara became chief executive of Ford in the late 1950s before joining JFK cabinet and he couldn’t believe that most cars were death traps and car companies didn’t care. 250,000 deaths a year in US alone. Wasn’t it the Pinto that was produced with a fault that it instantly combusted into a fireball if involved in a rear collision. It wasn’t until the deaths built up that Ford withdrew it. Peugeots in the 90s were the same. Strong front and back but side collision pancaked the car into the occupants.

Yes car safety has come a long way since the Ford Pinto and Corvair fiasco's. American cars up to the 1970's had no seat belts, no head rests, no collapsible steering columns (they were fitted with solid rod steering columns that would impail you in the chest or neck in the event of a severe front end crash). So car safety has improved immensely, unfortunately largely offset by the increased numbers of numbskull drivers on the roads.

I am starting to think after looking at the news items that although the aircraft was totally destroyed by fire, even though the fire service was right there and unable to stop or looks like to even slow the fire down, those factors I am sure will be looked at as to tackle such a fire, and what changes in what they use in future.

One thing I think with composite fuselage when watching the news, was its strength to hold the aircraft together on impact and not break up. If that's the case that's a big plus for composite, however in a fire, well that's, a different story. It will be interesting to hear the results of the investigation.

I gather from what I have read that composite is very strong, but does not show evidence of long term repeated stress. That is, it is fine until it is not, and when it is not, it fails catastrophically.

Source: https://www.eit.edu.au/titan-submers...its-implosion/

As Paul noted in his post:

If composite materials are like Nitrate Film, and can burn (even if submerged in water), they should not be used to make planes.

This is beginning to sound simialr to the imploded vessel going down to the Titanic. That was glued carbonb fibre!!