blue chevy
06-11-2005, 02:59 AM
X-ray machine is helping design automotive parts quicker and more efficiently at Ford.
معدة الاشعة هذي تساعد على صناعة قطع السيارات بسرعة و بدقة عالية في فورد
المانيفولد
http://www.americancarfans.com/news/2051104.003/2051104.003.Mini1L.jpg
الترانزميشين
http://www.americancarfans.com/news/2051104.003/2051104.003.1L.jpg
التورك كونفرتور
http://www.americancarfans.com/news/2051104.003/2051104.003.Mini2L.jpg
جهاز الاكس راي وعليه الترانزميشين
http://www.americancarfans.com/news/2051104.003/2051104.003.Mini3L.jpg
What role does an X-ray serve in automotive engineering?
“We can examine the very molecular make-up of a car part, checking for cracks or other potential weaknesses,” said lab engineer David Gerke.
For example, Ford engineers used the lab to evaluate the parts of the new 3.5-liter V-6 engine. X-ray images helped engineers find unwanted soft spots in the aluminum engine block, created as molten metal cooled at an inconsistent rate. This information was used to alter the design, delivering the strongest, most reliable engine block possible. In addition, areas of unneeded strength were refined to save weight – improving fuel economy.
“We also can reverse engineer parts, which you can compare to a CAT scan,” Gerke explained.
“We layer x-ray images like slices of bologna to make a three-dimensional model. This model can be used in any number of computer-aided engineering tests such as durability, fluid flow, or noise, vibration and harshness tests. We do the same type of analysis that you would do on a computer-aided design (CAD) model, but we’re working with a real part.”
For example, Ford engineers used the lab to create three-dimensional models of several different intake manifolds for the 3.5-liter engine. Each design was then tested and benchmarked, measuring the amount of airflow per minute. Engineers then picked the manifold that provided the optimum amount of air to the engine, improving the engine’s performance feel and fuel economy.
The lab’s name comes from the old way of testing metal components. To determine metal thickness or porosity levels, engineers used to cut parts into small, manageable pieces to be viewed under a low-energy x-ray
معدة الاشعة هذي تساعد على صناعة قطع السيارات بسرعة و بدقة عالية في فورد
المانيفولد
http://www.americancarfans.com/news/2051104.003/2051104.003.Mini1L.jpg
الترانزميشين
http://www.americancarfans.com/news/2051104.003/2051104.003.1L.jpg
التورك كونفرتور
http://www.americancarfans.com/news/2051104.003/2051104.003.Mini2L.jpg
جهاز الاكس راي وعليه الترانزميشين
http://www.americancarfans.com/news/2051104.003/2051104.003.Mini3L.jpg
What role does an X-ray serve in automotive engineering?
“We can examine the very molecular make-up of a car part, checking for cracks or other potential weaknesses,” said lab engineer David Gerke.
For example, Ford engineers used the lab to evaluate the parts of the new 3.5-liter V-6 engine. X-ray images helped engineers find unwanted soft spots in the aluminum engine block, created as molten metal cooled at an inconsistent rate. This information was used to alter the design, delivering the strongest, most reliable engine block possible. In addition, areas of unneeded strength were refined to save weight – improving fuel economy.
“We also can reverse engineer parts, which you can compare to a CAT scan,” Gerke explained.
“We layer x-ray images like slices of bologna to make a three-dimensional model. This model can be used in any number of computer-aided engineering tests such as durability, fluid flow, or noise, vibration and harshness tests. We do the same type of analysis that you would do on a computer-aided design (CAD) model, but we’re working with a real part.”
For example, Ford engineers used the lab to create three-dimensional models of several different intake manifolds for the 3.5-liter engine. Each design was then tested and benchmarked, measuring the amount of airflow per minute. Engineers then picked the manifold that provided the optimum amount of air to the engine, improving the engine’s performance feel and fuel economy.
The lab’s name comes from the old way of testing metal components. To determine metal thickness or porosity levels, engineers used to cut parts into small, manageable pieces to be viewed under a low-energy x-ray