Elddis and Hymer

[PTA]

2026 Crusaders utilise ABS for rear panels only. Side and front are GRP.
I'll keep you posted.

 

[Dustydog]

It wasn’t the windows that caused failure it was square cut outs of the ADF, and escape hatch combined with a very flexible lightweight structure. These findings came from tank tests and further examination of the remains recovered from the sea. The windows were changed during the aircraft’s re-design following the two major crashes from altitude.

There’s a good programme on the investigation of the crashes “ A great British air disaster”

I think it went a lot deeper Clive.
The cause of two of the accidents were as you describe.
But the real lesson was a number of factors.

Aluminium skin too thin.
No understanding of repeated stress cycles.
Square windows cause stress concentration, exactly like the radio radar domes that failed.All punched and screwed holes building in an inherent crack propagater.
No crack stoppage system.

Sadly by the time us Brits revised the air frame, discarding all square orifices , thicker alloys, the Boeing 707 was airborne , learning all the engineering pitfalls from us😢

Worth a read like your suggestion

https://www.bradyheywood.com.au/wp-content/uploads/2020/04/52fa7d_26c0a4ff1a5448cbbab972f169a764d9.pdf

 

[otherclive]

I think it went a lot deeper Clive.
The cause of two of the accidents were as you describe.
But the real lesson was a number of factors.

Aluminium skin too thin.
No understanding of repeated stress cycles.
Square windows cause stress concentration, exactly like the radio radar domes that failed.All punched and screwed holes building in an inherent crack propagater.
No crack stoppage system.

Sadly by the time us Brits revised the air frame, discarding all square orifices , thicker alloys, the Boeing 707 was airborne , learning all the engineering pitfalls from us😢

Worth a read like your suggestion

https://www.bradyheywood.com.au/wp-content/uploads/2020/04/52fa7d_26c0a4ff1a5448cbbab972f169a764d9.pdf

An interesting article, but your comment wrt the 707 learning the lessons isn't strictly aligned with events. The 707 went airborne almost exactly at the time of the two major Comet losses and had circular windows. On one test flight the test pilot even barrel rolled it! Notwithstanding the Comet's accidents, Boeings success was down to economics with a higher passenger load, ease of maintenance, especially engine access and swop out. It was more attractive to airlines. When I was in Canada I used the Canadian Forces 707 shuttle a number of times. A great feeling as Anne Murray's "Snowbird" can over the PA system as the pilot hit the throttles, and that thing rocketed down the runaway and up. Almost as good as the RAF's VC 10s and you sat facing forwards in the 707 too.

View: https://www.youtube.com/watch?v=Ra_khhzuFlE

 

[Dustydog]

Those comments are at variance from my knowledge and what I have read. It is well documented the Comet commenced flights in 1952 and the 707 in 1958..

Whilst not a fan of AI what do you think of the following?
Hutch is our Aviation expert and may well have a technical view . Please no more black cats🙀

The Boeing 707 was significantly more advanced than the de Havilland Comet, marking a leap from the experimental first generation of jets to the economically viable, mass-market era of aviation. While the Comet was the world's first jetliner (1952), it was plagued by structural failures, whereas the 707 (1958) utilized lessons from those failures and superior design to become the dominant, safer, and more efficient,, long-range aircraft
.
The Boeing 707 was more advanced in the following key areas:

1. Structural Safety and Engineering

• Failed-Safe Design: Following the catastrophic, fatal structural failures of the early Comet 1s due to metal fatigue around square windows, Boeing designed the 707 with a "fail-safe" structure.
• "Guillotine" Testing: Boeing subjected the 707 fuselage to rigorous testing, including simulating damage to ensure the skin would not rip open from small cracks (fatigue).
• Thicker Skin: The 707 was built with stronger, thicker-gauge metal skin, avoiding the weight-saving, thin-skin issues of the early Comet.

2. Aerodynamic and Engine Design

• Podded Engines: The 707 moved the engines from being buried in the wing roots (like the Comet) to pods under the wings. This allowed for easier maintenance, less risk to the wing structure if an engine failed, and easier upgrading to more powerful engines later.
• Advanced Wing Sweep: The 707 featured a 35-degree swept wing designed for higher cruising speeds and better efficiency at high altitudes, drawing from Boeing’s experience with the B-47 and B-52 bombers.
• Improved Aerodynamics: The 707 was more aerodynamically advanced and faster than the Comet.

3. Performance, Range, and Capacity

• Massive Capacity Leap: The early Comet 4 held around 81 passengers, while the 707 could carry up to 189 passengers. This allowed for a much lower cost per seat-mile, making it more profitable.
• True Transatlantic Range: The 707 was designed for, and achieved, non-stop, high-speed, transatlantic, and transcontinental capabilities. While the Comet 4 eventually achieved this, it struggled with range early on, often needing refueling stops.
• More Powerful Engines: The 707 used engines with up to 17,000 lbs of thrust, significantly more powerful than the 10,500 lbs thrust on the Comet 4, allowing for faster speeds (nearly 600 mph).

4. Commercial Viability

• Lower Operating Costs: Due to its larger capacity and more efficient design, the 707 was far more economical for airlines to operate.
• The "Jet Age" Standard: The 707 became the industry standard for cabin comfort, featuring better pressurization and a quieter, smoother, and more stable cabin environment than its competitors.

In summary, the 707's design allowed for easier engine upgrades, greater passenger capacity, and, most importantly, a safer structural philosophy, making it the superior, more durable, and more popular aircraft compared to the Comet.

 

[otherclive]

Those comments are at variance from my knowledge and what I have read. It is well documented the Comet commenced flights in 1952 and the 707 in 1958..

Whilst not a fan of AI what do you think of the following?
Hutch is our Aviation expert and may well have a technical view . Please no more black cats🙀

The Boeing 707 was significantly more advanced than the de Havilland Comet, marking a leap from the experimental first generation of jets to the economically viable, mass-market era of aviation. While the Comet was the world's first jetliner (1952), it was plagued by structural failures, whereas the 707 (1958) utilized lessons from those failures and superior design to become the dominant, safer, and more efficient,, long-range aircraft
.
The Boeing 707 was more advanced in the following key areas:

1. Structural Safety and Engineering

• Failed-Safe Design: Following the catastrophic, fatal structural failures of the early Comet 1s due to metal fatigue around square windows, Boeing designed the 707 with a "fail-safe" structure.
• "Guillotine" Testing: Boeing subjected the 707 fuselage to rigorous testing, including simulating damage to ensure the skin would not rip open from small cracks (fatigue).
• Thicker Skin: The 707 was built with stronger, thicker-gauge metal skin, avoiding the weight-saving, thin-skin issues of the early Comet.

2. Aerodynamic and Engine Design

• Podded Engines: The 707 moved the engines from being buried in the wing roots (like the Comet) to pods under the wings. This allowed for easier maintenance, less risk to the wing structure if an engine failed, and easier upgrading to more powerful engines later.
• Advanced Wing Sweep: The 707 featured a 35-degree swept wing designed for higher cruising speeds and better efficiency at high altitudes, drawing from Boeing’s experience with the B-47 and B-52 bombers.
• Improved Aerodynamics: The 707 was more aerodynamically advanced and faster than the Comet.

3. Performance, Range, and Capacity

• Massive Capacity Leap: The early Comet 4 held around 81 passengers, while the 707 could carry up to 189 passengers. This allowed for a much lower cost per seat-mile, making it more profitable.
• True Transatlantic Range: The 707 was designed for, and achieved, non-stop, high-speed, transatlantic, and transcontinental capabilities. While the Comet 4 eventually achieved this, it struggled with range early on, often needing refueling stops.
• More Powerful Engines: The 707 used engines with up to 17,000 lbs of thrust, significantly more powerful than the 10,500 lbs thrust on the Comet 4, allowing for faster speeds (nearly 600 mph).

4. Commercial Viability

• Lower Operating Costs: Due to its larger capacity and more efficient design, the 707 was far more economical for airlines to operate.
• The "Jet Age" Standard: The 707 became the industry standard for cabin comfort, featuring better pressurization and a quieter, smoother, and more stable cabin environment than its competitors.

In summary, the 707's design allowed for easier engine upgrades, greater passenger capacity, and, most importantly, a safer structural philosophy, making it the superior, more durable, and more popular aircraft compared to the Comet.

You are talking entry in to commercial service but the 707 prototype flew in 1954 at close to the time of the Comet disasters. And that’s not AI generated.

Boeing 367-80 - Wikipedia

en.wikipedia.org

 

[RogerL]

You are talking entry in to commercial service but the 707 prototype flew in 1954 at close to the time of the Comet disasters. And that’s not AI generated.

Boeing 367-80 - Wikipedia

en.wikipedia.org

The Comet prototype flew 5 years earlier - given the pace of development during and after WW2 the 707 was a generation further on.

While the Comet had flaws, it also had potential forming the basis for Nimrod.

 

[otherclive]

The Comet prototype flew 5 years earlier - given the pace of development during and after WW2 the 707 was a generation further on.

While the Comet had flaws, it also had potential forming the basis for Nimrod.

That was a success but still suffered the limitations inherent from the original design and manufacture. When MOD started to upgrade Nimrod they found that no two planes were alike and basically each was bespoke in many structural areas, such that the cost estimate of upgrading the fleet went through the roof. Hence the decision to scrap the Nimrods and buy Poseidons based on the Boeing 737.