Dh 106 Comet Interior



Round 2 LLC is a US based company that now owns the rights and moulds to Hawk, AMT, Lindberg and a few other kit brands that have long since disappeared. They have recently re-released the Hawk Dh.106 Comet 4 kit as HL512-12.

The kit itself is advertised as 1/144 scale, and is moulded in white styrene plastic with a clear cockpit piece. I’ve not measured it, so cannot comment further on the accuracy of the dimensions.

  • The de Havilland DH.106 Comet was one of the most revolutionary planes in aviation history. It holds the title of being the first commercial jet airliner in the world. The aircraft’s first flight was in July 1949, and it was introduced in May 1952 with BOAC. However, following the type’s launch, it had some controversial moments in its.
  • This is one of three 51 squadron Comet 2Rs of 'Special Radio Installation Flight' first based at Watton and then Wyton. Note electronic equipment bulges and square windows. The role of these aircraft was a closely guarded secret and they were generally described as Electronic Warfare Aircraft. It is now known that they had AEW and Radar jamming capabilities. De Havilland DH-106 Comet.
  • De Havilland DH-106 Comet 4. JetPhotos.com is the biggest database of aviation photographs with over 4 million screened photos online!

It was the 10th of January, 1954, and another de Havilland Comet was making its way from Singapore to London. Designated Yoke Peter, it was the third Comet ever built, and on this trip it made it safely as far as Rome, where BOAC engineers made a routine inspection of the aircraft. However, a few years after being introduced into commercial service, DH.106 Comet airframes began suffering from major metal fatigue, causing two accidents where the aircraft was torn apart in mid-flight. The DeHavilland Comet had to be withdrawn and tested to find the cause.

The kit features a cabin interior, complete with seats and passengers, that can be seen by opening a 4 1/3″ long hatch in the port side of the fuselage. Also included is a fuel tanker truck, air conditioner trolley, and an airport passenger bus.

Now…. look carefully at the box art. See anything not quite right? “BOCA” ???

It seems to avoid any trademark issues, Round2 made a few deliberate mistakes in the decal artwork and on the box. It’s not a question of the original decal artists, but rather with British Airways and Mobil. So, “BOAC” became “BOCA”, Mobilgas became “Mobile gas”, “G-ANLO” became “G-ALNO” and the BOAC “Speedbird” got slightly re-interpreted.

It should be noted that G-ANLO was in fact the only airworthy Comet 3 (a second ground test airframe was built but never flew). As the Comet 3 and Comet 4 shared the same dimensions, the kit can be used to build either. The 4B had a longer fuselage and shorter wings. The 4C combined the longer fuselage of the 4B with the original wings of the 4, and added additional “slipper” fuel tanks extending from the leading edge of the wings.

A useful kit – though other than BOAC, only Aerolineas Argentinas (6) and East African Airways (3) ordered the series 4. All surviving Comet 4 (and 4B and 4C) airframes were ultimately purchased and operated by Dan Air London (or used for spares). The Dan Air aircraft flew in their early “white tail” scheme.

TS44-497 East African Airways

STS44-231 Dan Air London

Although engineering is all around us, all of the time, most of us don’t tend to give it much thought. The processes by which everyday items are designed don’t usually matter too much to the end user.

They do matter a lot, though, when they have an impact on safety. And when the product in question is a commercial jet airliner, supposed to carry people around the world in comfort and luxury, a flaw in the design can cost lives.

Commercial aviation is arguably one of the wonders of the modern age. It has helped to shrink the world, putting the entire globe within relatively easy reach of the average person.

Although it existed as far back as the First World War – the first commercial air passenger paid $400 for a journey made in January 1914 – it was in the wake of the Second World War that it expanded and, if you’ll excuse the pun, really took off.

Many of the first commercial aircraft were originally designed for military use, and only later converted for passengers, but as air travel became more popular it was clear that aviation manufacturers needed to cater specifically to civilian usage. They needed to equip their aircraft with onboard comforts like lavatories, and for airline companies to make flight affordable, they needed to expand capacity.

This led to the development of commercial jet airliners. They could be larger, faster, and more comfortable than their propeller-driven predecessors. It was the beginning of the Jet Age.

De Havilland were a British aviation manufacturer intent on riding the crest of that wave. In 1949, they proudly unveiled the world’s first commercial jet airliner, the de Havilland Comet. It was introduced to passenger services in May of 1952.

Interior

With four turbojet engines in the wings, the Comet promised a smoother flight experience than propeller aircraft could provide. Its pressurised cabin – something modern air travellers take for granted – was also a new development which meant that the Comet could now fly above rough weather, instead of taking a rough trip through it or a long one around it. And the large square windows gave passengers spectacular views.

Advertisements for the plane in the 1950s made it sound like a dream.

“Eight miles a minute, eight miles high, in the smooth clear sky.”

“You scarcely hear the Comet’s four mighty Rolls Royce jet engines… You delight in the Comet’s luxury and BOACs world-famed personal service… You arrive gloriously fresh, barely realising you’ve travelled at all!”

However, de Havilland would soon discover that having the first jet airliner didn’t necessarily mean it was the best.

On the 2nd of May, 1953, BOAC Flight 783 took off from what was then called Dum Dum Airport in Calcutta. (It’s now Netaji Subhas Chandra Bose international Airport in Kolkata.)

The flight had started in Singapore, and was heading on towards London, via Delhi. On board this particular Comet there were six crew members and 37 passengers, mostly British but also including three Americans, two Burmese passengers and one Filipino.

Just six minutes after taking off, Flight 783 was seen coming down in flames near the village of Jagalgori. There were no survivors.

An investigation quickly followed.

It was noted that the weather had been poor when Flight 783 came down; thunder storms were reported in the area. However, the investigation reported that weather conditions at take-off had been well within the allowed criteria, and the pilot was aware of the risk of storms.

It further stated, “The captain was not only well qualified but had considerable experience of weather conditions on this route. He was therefore fully competent to judge the weather forecast en route and the warning given, and make up his mind whether to take off or not.”

Witnesses had reported that the storm was unusually severe, though, and as the Comet was still climbing out they wouldn’t have been able to fly over it.

The evidence at this point, just one month after the incident, was somewhat inconclusive.

“We have no evidence before us to indicate sabotage or a stroke of lightning,nor faulty workmanship or defective material. There being thus no direct evidence as to the cause of the failure of the Comet to get safely through the storm, we have to infer it from the the state of the wreckage, which was distributed over a large area. There is no doubt that, as an expert witness, Mr Lett, has stated, the aircraft suffered a complete structural failure in the air and thereafter the aircraft was on fire in the air.”

What, specifically, had caused that failure, nobody knew for sure.

De Havilland and BOAC made a joint statement after the report was published.

“The report is agreed in that the aircraft met severe gusts in thunderstorms. The force of the gusts has not been possible to determine but it is probable that they were of an unusually high order.

It is not possible until the detailed examination, now underway, of the aircraft wreckage has been completed at the Royal Aircraft Establishment to determine the sequence of structural failure. Until such a sequence is determined it is only possible to theorise on the cause of the accident.

Dh 106 Comet

The very considerable flying experience including many flights in turbulent conditions over the last three years by BOAC and de Havillands with Comet aircraft does not suggest that overcontrol or loss of control by the pilot was likely.”

The investigation recommended that de Havilland “consider if any modification to the structure of the Comet is necessary.” Of course, without knowing what the problem was, they were in the dark as to what they should modify.

They didn’t really have time, either. Six months after the publication of that report, there was another catastrophe.

It was the 10th of January, 1954, and another de Havilland Comet was making its way from Singapore to London. Designated Yoke Peter, it was the third Comet ever built, and on this trip it made it safely as far as Rome, where BOAC engineers made a routine inspection of the aircraft. They didn’t see anything wrong with it, and Flight 781 took off as planned for the final leg of its flight. There were 6 crew and 29 passengers on board. Ten of the passengers were children.

About twenty minutes into the flight, the captain of the Comet, 31 year old Alan Gibson, was on the radio speaking to another BOAC pilot in the area about the weather. In the middle of a sentence, Gibson was abruptly cut off.

Near Elba Island, off the Italian coast, fishermen saw wreckage falling from the sky into the sea. They rushed to the scene, hoping to find survivors, but there were none.

Investigators faced a challenge. In 1954, planes didn’t carry flight data or cockpit voice recorders – the so-called black boxes which today’s investigators rely on. Instead, like the investigators of Flight 783, they had to figure out what had happened from the physical evidence. But the wreckage of the plane had fallen into the sea.

A pioneering search and recovery operation ensued. It involved Royal Navy ships, a civilian salvage vessel and novel use of underwater TV cameras – something which had never been done before. Eventually, enough wreckage would be raised and taken to the Royal Aircraft Establishment for the investigators to examine it for evidence.

They already knew it had been a sudden event, of which Captain Gibson had no warning – otherwise he would have said something to the pilot he was on the radio with.

Ebay Dh 106 Comet Diecast

The bodies of the passengers and crew had also revealed some details of the crash. The pathologist who examined them found a pattern of injuries. Many had limbs which had been broken or damaged after they died, but in the majority the cause of death appeared to be a combination of fractured skulls and ruptured lungs.

The lung damage pointed to a problem older planes hadn’t had – sudden depressurisation of the cabin, which caused the air inside to expand rapidly. Investigators simulated the crash, using a model fuselage with dummies seated inside and increasing the pressure inside until it exploded.This showed that the injuries had been caused when the passengers were thrown out of their seats and into the ceiling by the forces involved.

But what had caused the explosion? The possibility of a deliberate bombing was considered, but discounted. The engines then came under suspicion. Based on the possibility of an explosion in the engines’ turbines, the entire Comet fleet was grounded until modifications to reinforce the turbine ring could be made.

The New York Times reported this action on the 12th of January 1954 – just two days after the crash.

“The British Overseas Airways Corporation temporarily withdrew from service tonight all de Havilland Comet jet airliners as an aftermath of the crash of a Comet yesterday near the island of Elba. This suspension of jet service by Britain’s one big overseas airline was followed promptly by similar action by the two French airlines that use the Comet – Air France and Union Aero Maritime des Transports.
The B. O. A. C. described its action as ‘a measure of prudence to enable a minute and unhurried technical examination of every aircraft in the Comet fleet to be carried out at maintenance headquarters at London airport.’ It was emphasized that the step did not constitute a ‘grounding.’ It was taken after consultation with Alan T. Lennox-Boyd, Transport Minister, and had his concurrence – but was not Government-ordered.”

However, keeping the Comet out of service would be costly, so BOAC was keen to get the modifications made to the turbine rings and get it back into the skies as soon as possible. By the end of March, their Chairman was speaking reassuringly to the public on TV.

“We obviously wouldn’t be flying the Comet with passengers if we weren’t satisfied conditions were suitable.”

Comet flights resumed on the 23rd of March 1954. A little over two weeks later, on the 8th of April, a BOAC charter flight operating as South African Airways Flight 201 left Ciampino Airport in Rome, bound for Cairo with a crew of 7 and 14 passengers.

The same team of engineers who had checked Flight 781 inspected this Comet, designated Yoke Yoke, too. They had found some minor faults, and the plane had been held up for 25 hours as a result, but they were satisfied that it was ready to fly.

The weather that evening was overcast but otherwise good. As the plane climbed into the sky, the Captain made routine radio reports of his location.

And then, silence. Once again, radio contact with a de Havilland Comet had been lost.

The New York Times later carried the bad news:

“Britain today weighed the cost of a stunning blow to her proudest pioneer industry – jet civil aviation – as the crash of another Comet airliner was confirmed. Twenty-one persons, including three Americans, were believed to have died when the plane was lost in the Mediterranean. The discovery of at least six bodies and bits of wreckage floating in the sea about 70 miles (110 km) south of Naples put a pall on the last hopes for the British Overseas Airways Corporation craft, missing since 6:57 o’clock last night.”

The loss of this plane made it clear that the investigators working on Flight 781 had been wrong about the turbine ring; the modifications they had made to the fleet had done nothing to stop this plane, and all its passengers, from falling out of the sky. The investigation was back to square one.

Once again, the Comet fleet was grounded as air-sea operations began to search for wreckage. However, aside from pieces that had been found floating, there was little hope for retrieval. The depth of the Mediterranean Sea at that location, much deeper than where Flight 781 had come down, made it impossible.

With so little evidence available from the latest crash, the investigators had to return to the wreckage of Yoke Peter, the Flight 781 plane, to solve both incidents.

Fortunately, that search operation was meeting with more success; by the end of August 1954 they had some 70% of the plane, and from the parts brought to the surface the investigators could draw more conclusions. In the tail section, they found shreds of carpet from the cabin. The rear fuselage also bore the imprint of a coin thrown from somebody’s pocket, and traces of paint that were found to come from the passengers’ seats.

All of this pointed, again, to an in-flight breakup.

With most of the wreckage of Yoke Peter now raised and returned to the Royal Aircraft Establishment, the investigators were able to piece it back together, like a jigsaw puzzle, and trace the cracks in the aircraft back to the point where they had begun; a point in the roof of the cabin.

Dh 106 Comet Interior Paint Colors

They could now see that, after that first rupture had opened, a window had smashed into the elevators – vital control structures on the wings. The rear fuselage had torn away, the outer wing structure fell, and finally the cockpit broke away. The wreckage had caught fire from the fuel as it fell.

But the investigators still needed to establish why that first crack had appeared. They had their suspicions, but needed proof. Today, they would be able to turn to a computer simulation, able to recreate the flight in virtual space, but in the fifties that simply wasn’t an option.

Instead, they embarked upon a remarkable practical experiment.

BOAC donated the fuselage of another plane, Yoke Uncle, to the investigation, and a huge tank was constructed which would be able to contain the whole fuselage. By filling the tank with water, and then pumping even more water into the interior of the plane, they could recreate the effects of repeated pressurisation and depressurisation, as if the plane was taking flight after flight without ever leaving the ground.

It wasn’t going to be a quick test. Even running twenty-four hours a day and seven days a week, it was thought it could take months to reach a conclusion.

Before beginning the experiment, Yoke Uncle had taken 1,230 flights. The tank experiment continued until it had added another 1,830 – so the fuselage had experienced the equivalent of 3,060 flights – and then, the fuselage of Yoke Uncle broke, just as Yoke Yoke and Yoke Peter had done.

Because of the water in the tank, the depressurisation was contained, instead of exploding with the force of a 500lb bomb as it had done in the air with the real flights. This meant that the investigators could clearly and easily see where the failure had occurred.

The starting point was discovered at the corner of one of the windows. Upon closely examining that first crack, they found discolouration which came from algae in the water. This proved that the crack had endured several “flights” before it had actually spread to a catastrophic extent.

The cause was metal fatigue. Each time the Comet took off, the pressurisation in the cabin made the metal expand a little. Each time it landed, and depressurised, the metal contracted again. Over the course of many flights, this constant back and forth weakened the structure, just like bending a wire paperclip back and forth until it breaks.

Obviously metal fatigue itself wasn’t a new phenomenon. The engineers designing the Comet knew about it, but thought that they had taken it into account. What had they missed? The investigators returned to Yoke Uncle and the water tank.

According to the report, “no attempt had been made to measure the stress in the material of the skin at points where it might be expected to be higher than average. One reason for this omission was that the number of places coming within this descriptions is large, and it would have taken a long time to install the necessary strain gauges and other associated equipment. But it now seemed highly probable that the stress near the corners of the windows was higher than had been believed by the designers.”

Those strain gauges were now employed, and it was found that “the general level of the stress in the skin in these regions was significantly higher than had been previously believed.”

The experimental plane, Yoke Uncle, had failed after 3,060 simulated flights. However, there were additional stresses involved in a real flight that weren’t replicated by the water tank experiment, such as the vibrations of the engines, so investigators believed that the plane would have failed sooner in real flight conditions. Yoke Peter, the Flight 781 plane, had made 1,290 flights at the time of its crash, and Yoke Yoke, the South African Airways flight, had made 900 flights.

The report said, “Sir Arnold Hall said in evidence that in the light of the experiment on Yoke Uncle, and of the measurements and calculation of stress… he considered that the cabin of Yoke Peter had reached a point in its life when it could be said to be in danger of failure from fatigue, and that the cabin of Yoke Yoke would similarly be in danger. Dr Walker said that he did not regard the picture presented by the three failures (on the assumption that these were all due to the same fundamental cause) as surprising, since the three results taken together are consistent with general experience of the strength under repeated loading of a number of nominally identical structures, in which the stress level is high.”

Based on these conclusions, it was realised that designers had underestimated the safe loading strength requirements of pressurised airliner cabins. The standards were revised accordingly.

The Comet itself went through extensive redesign. Most importantly, those large square windows were replaced with the round windows we’re all so familiar with today. Just by removing the sharp corners, the stress on the metal was reduced dramatically.

But it was too late for de Havilland; they had lost their lead. Airlines who had been keen to buy the Comet before had now cancelled their orders, and even after the plane was redesigned and relaunched, sales didn’t recover. Other manufacturers had taken notice of the Comet’s issues – and the solutions – and had been able to implement those lessons in their designs. American designs, like the Boeing 707 and the Douglas DC-8, had taken over from the Comet as the leading choices.

In the end, the Comet’s first strength was also its biggest weakness; these tragedies occurred because it was the first commercial jet airliner. Metal fatigue, whilst a known phenomenon, wasn’t thoroughly understood, and the designers simply hadn’t known what effect the repeated stresses of pressurisation and depressurisation would have. Other manufacturers admitted, at least in private, that if de Havilland hadn’t made those mistakes, one of them would have.

Mistakes were made, and the lessons were learned at the expense of 99 lives, but every passenger who has travelled in a jet airliner since then has been safer because of it.

Dh 106 Comet Interior Colors

Thanks this episode go to:

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Dh 106 Comet Interior Colours

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Dh 106 Comet Interior For Sale






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