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2012-09-28
Magazine
Shed a few joules with better aerodynamics A team of engineering students from Laval University has managed to reduce the energy demand due to wind resistance of its Supermileage vehicle by 10% after carefully designing a new vehicle body with a 25% larger frontal area. Telemetry helps Formula SAE team close the loop on design Once a year, a team of students at Virginia Tech get to do something that ought to put a grin on any aspiring engineer's face: build a racecar. Unconventional steel wheel designs The drawings done by collegiate students for a steel wheel design competition had industry professionals thinking about future production possibilities.
2014-04-01
Magazine
Toward smarter manufacturing and materials At the U.K.'s new Advanced Manufacturing Research Center, engineers and innovators have at their disposal some of the world's most advanced design and manufacturing assets for precision engineering. More electric, integrated fuel systems Engine system reliability can be improved by advanced electric architectures, while the reduction of hydraulic components, fuel tubes, and fittings can enhance the maintainability of the engine and minimize pilot workload.
2010-01-01
Book
Harold M. Cobb
This book provides a fascinating glimpse into a vital material that we may take for granted today. Stainless steel, called “the miracle metal” and “the crowning achievement of metallurgy” by the prominent metallurgist Carl Zapffe, is a material marvel with an equally fascinating history of people, places, and technology. As stainless steel nears the 100th anniversary of its discovery, this book is a fitting perspective on a vital material of our modern life, and it is the first book that captures the unfolding excitement and innovations of stainless steel pioneers and entrepreneurs. Amply illustrated with photographs, the book also includes a timeline that lists more than 450 important facts and events related to stainless steels technology and applications.
HISTORICAL
2006-05-17
Standard
AMS5035A
This specification covers a low-alloy steel in the form of welding wire.
HISTORICAL
2010-08-18
Standard
AMS5035B
This specification covers a low-alloy steel in the form of welding wire.
CURRENT
2015-09-16
Standard
AMS5034B
This specification covers a low-alloy steel in the form of welding wire.
HISTORICAL
2001-04-01
Standard
AMS5035
This specification covers a log-alloy steel in the form of welding wire. This wire has been used typically as filler metal for gas-tungsten-arc and gas-metal-arc welding of low-alloy steels of similar composition where the weld area is required to have strength comparable to that of the parent metal, but usage is not limited to such applications.
CURRENT
2014-12-23
Standard
AMS5035C
This specification covers a low-alloy steel in the form of welding wire.
HISTORICAL
2006-05-17
Standard
AMS5034A
This specification covers a low-alloy steel in the form of welding wire.
HISTORICAL
2001-04-01
Standard
AMS5034
This specification covers a low-alloy steel in the form of welding wire.
CURRENT
1942-12-01
Standard
AMS5033
HISTORICAL
1996-02-01
Standard
AMS4187B
This specification has been declared "NONCURRENT" by the Aerospace Materials Division, SAE, as of February 1996. It is recommended, therefore, that this specification not be specified for new designs.
HISTORICAL
1974-06-01
Standard
AMS4187
This specification covers an aluminum alloy in the form of bars, rods, and wire.
CURRENT
2006-05-17
Standard
AMS4187C
This specification covers an aluminum alloy in the form of bars, rods, and wire.
HISTORICAL
1995-05-01
Standard
AMS4187A
This specification covers an aluminum alloy in the form of bars, rods, and wire.
CURRENT
2001-05-01
Standard
AMS5693C
This specification covers a corrosion resistant steel in the form of round, square, and rectangular wire.
HISTORICAL
1994-04-01
Standard
AMS5693B
This specification covers a corrosion resistant steel in the form of round, square, and rectangular wire.
HISTORICAL
1988-04-01
Standard
AMS5693A
This specification covers a corrosion resistant steel in the form of round, square, and rectangular wire.
HISTORICAL
1982-07-01
Standard
AMS5693
This specification covers a corrosion resistant steel in the form of round, square, and rectangular wire.
HISTORICAL
1993-07-01
Standard
AMS5584
This specification covers a corrosion and heat resistant steel in the form of two types of thin-wall, close-tolerance tubing 0.125 to 2.00 inches (3.18 to 50.8 mm), inclusive, in nominal OD.
2017-05-04
WIP Standard
AMS5584B
This specification covers a corrosion and heat resistant steel in the form of two types of thin-wall, close-tolerance tubing 0.125 to 2.00 inches (3.18 to 50.8 mm) in nominal OD.

This tubing has been used typically in high pressure hydraulic or pneumatic systems assembled with brazed joints, but usage is not limited to such applications.

CURRENT
2000-12-31
Standard
AMS5584A
This specification covers a corrosion and heat resistant steel in the form of two types of thin-wall, close-tolerance tubing 0.125 to 2.00 inches (3.18 to 50.8 mm), inclusive, in nominal OD.
Viewing 1 to 30 of 5332

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