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NSF PR 03-37 - April 1, 2003

Note About Images

 

Photo 1

Liberty Bell in its current pavilion

The Liberty Bell in its current pavilion located on Market Street in Philadelphia, Pennsylvania. Independence Hall is visible in the background on the left.
Credit: Curt Suplee, National Science Foundation

 

Photo 2

view of the crack

A view of the famous crack as viewed from within the Liberty Bell. The crack was originally a hairline, and by the 1840s it was a threat to the bell. In an attempt to repair the crack, part of it was drilled out (creating the widened, visible crack familiar to visitors) and rivets were inserted to hold the two sides of the fissure together. Unfortunately, the "repair" also deadened the sound, and the Bell can no longer ring. Also visible within the Liberty Bell is the spider, a structural brace that helps the Bell support its own weight-much like a flying buttress helps distribute weight away from a cathedral roof. Without the spider, the fractured Bell might collapse on itself.
Credit: Curt Suplee, National Science Foundation

 

Photo 3

Andrew Lins and Steven Mundell

Andrew Lins (sitting), chief conservator of the Philadelphia Museum of Art and metals conservation consultant to the National Park Service on preserving the Liberty Bell, worked with MicroStrain's Steven Mundell to carefully clamp sensor devices to the icon.
Credit: Curt Suplee, National Science Foundation

 

Photo 4

a view of the sensors

A close-up view of the MicroStrain NANO-DVRT wireless sensors clamped to the Liberty Bell (the top and bottom sensors are the same design, but oriented perpendicular to each other). With even tiny motions of the crack-on the scale of millionths of a meter-the metal rod shifts its placement. The movement is detected by electrical coils, and that information is transmitted to a wireless receiver. The wires visible in this image are connecting the sensors to a wireless transmitter inside the Bell.
Credit: Curt Suplee, National Science Foundation

 

Photo 5

a close-up view of the spider

A close-up view of the spider, a structural brace that helps the Bell support its own weight. Also visible is the wireless transmitter that conveys the signals from the sensors on the crack to the computer that is recording the stresses (black box on top in blue tape) and a MicroStrain G-link sensor that detects rocking motion (black box near lip of Bell).
Credit: Curt Suplee, National Science Foundation

 

Photo 6

Riggers position tackle

Riggers from the George Young Co. carefully position tackle that will be used to hoist the Liberty Bell.
Credit: Curt Suplee, National Science Foundation

 

Photo 7

The Liberty Bell hangs free

The Liberty Bell hangs after being hoisted out of its supports. Visible are the straps that hold the Bell, with protective padding separating the strap fabric and the Bell metal.
Credit: Curt Suplee, National Science Foundation

 

Photo 8

MicroStrain president Steve Arms

MicroStrain president Steve Arms monitors the incoming stream of sensor data as the Bell is lifted.
Credit: Curt Suplee, National Science Foundation

 

Animation

liberty_sensor_in_action.avi

Animation depicting the motion of the DVRT sensor core within the NANO-DVRT sensor. As the core moves further into the electrical coils within the block at the base of the diagram, the coils change the manner in which they conduct current. The current change is proportional to the motion, and the device can be sensitive to motions of less than one millionth of a meter.
Credit: Stephen Pendo, MicroStrain, Inc.

 

Photo 9

initial measurements on the Liberty Bell

Steve Arms conducts initial measurements on the Liberty Bell.
Credit: MicroStrain, Inc.

 

Photo 10

model of the Liberty Bell crack

A wooden model of the Liberty Bell crack which the researchers at MicroStrain used to design their custom sensor mounts.
Credit: MicroStrain, Inc.

 

 
 
     
 

 
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