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Activity 3.1 - De Havilland Comet.

Sunday, 16 Oct 2016, 15:40
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Edited by Lauren Powell, Sunday, 16 Oct 2016, 15:41

Activity 3.1

Question: Suggest examples of engineering which tried , but failed to meet a particular need. 

My Example: De Havilland Comet

Wikipedia Link….: https://en.wikipedia.org/wiki/De_Havilland_Comet

Other interesting Links….: http://lessonslearned.faa.gov/ll_main.cfm?TabID=1&LLID=28&LLTypeID=2


Summary Why I have picked this.

I have chosen to focus on the De Havilland comet as my example of extremely successful engineering but also had equal catastrophic failures. These failures were later  re designed and contributed towards most base model of most modern day aircraft.

 

One of the most famous issues with the De Havilland was the fact the aircraft was designed with square windows. The problem with this design started to become evident when an aircraft test was carried out under water to demonstrate a similar level of compression to what the aircraft would have to withstand during flight. The experiments soon demonstrated how the square window design upon the aircraft could not deal with the stress In such a localised area. Unlike modern day aircraft where the stress and strain can freely transfer around the oval shape the square windows simply formed an intense pressure of strain in one small area. The stress was so intense on the localised areas that it began to change the way in which the material characteristic acted which eventually resulted in in-flight break ups of the cabin fuselage leading to multiple fatal crashes.

 

What was changed / learnt. – Solution.


Aviation engineering and structural design learnt a huge lesson from this aircraft and that has resulted in the oval design of aircraft windows that we have today. These continue to be developed and re-designed be that in a different material or with the new features such as auto dimming which is quite a common feature upon new Boeing aircraft such as the Dreamliner.

 Had the Havilland not gone through these “Modelling cycle” practices and unfortunately the loss of aircraft no one would have found this design feature simply from drawings or concept ideas.


Tags: strain, modelling cycle, 3.1
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Lauren Powell

Section 3.1 notes.

Sunday, 16 Oct 2016, 14:03
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Section 3.1 notes.


Communicating in teams.

·      “Communication skills are Vital, particularly in organisational structures where there is extensive team working.”

·      Team work is required for success.

·      Greater responsibility within a project normally increases an individual’s commitment.

·      Communication doesn’t just mean verbal or written it can include…

- Numerical material, Statistical , algebraic and graphical information.

- Scale Drawings or other pictorial communication.

 

 

Knowing what and knowing how.

·       “In order to do engineering you need to able to solve problems”.

·       Modelling cycle often used within engineering. – Model is a tool for thinking with – An abstraction which often helps to solve an engineering problem.

 

* See attached file for Modelling cycle diagram. *

 

·       The cycle starts with a problem – the problem being the item that needs to be created for example a bridge to cross water.

·       The second step is the model – This being the original concept or plan, in this case may be a scale drawing of a bridge or idea of material that will be required for the build.

·       The next arrow shows that you should use your model to plan a solution , this may be where your occur problems such as the material required may not be available to the amount of specialised craftsman etc.

·       The final step is the solution, this is where you will fix the problems or adapt the design sp that your earlier problems are identified and minimalised. This will then allow you to have another solution or final product, you can continue to break this down and test your solution until you happy with your final product.


Tags: ta192, tma01, modelling cycle, 3.1
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