CHARPY IMPACT TEST

The Charpy vee-notch impact test is the most common fracture toughness test used by industry. A notched specimen is broken by a swinging pendulum and the amount of energy required to break the specimen is recorded in foot-pounds or joules. This is determined by measuring how far the pendulum swings upwards after it fractures the specimen. If the specimen is tough, the pendulum will only swing up a small distance since part of its energy has been absorbed by the specimen. If the specimen is brittle it will absorb little energy thus allowing the pendulum to swing up to almost its original height.

The amount of energy absorbed can be read directly off of the dial indicator that is located on the machine. The specimen is supported in place as shown and the pendulum strikes it from behind the notch.

ASTM E23 Standard Methods For Notched Bar Impact Testing Of Metallic Materials).

Impact energy vs. temperature

The absorbed energy is the most common value reported; however, the percent shear and the lateral expansion may also be noted. Metals that exhibit a high Charpy vee notch value are typically those that are more resistant to brittle fracture. It is important to remember that these tests are comparative only and are no guarantee of ductile behavior in actual service.

The fractured ends of a specimen often reveal the manner in which it fractured. If the specimen has fractured in a brittle manner with low energy the faces will have a flat, crystalline and shiny surface. A tough specimen will exhibit more deformation and will have a dull and fibrous surface.

Metals such as carbon and low alloy steels, exhibit a change in failure mode with decreasing temperature. For this reason, it is common to conduct impact tests over a range of specimen temperatures.

The performance of the material at different temperatures can be observed and a conclusion made regarding the temperature below which the material can no longer be used without a risk of brittle fracture. Them graph shows the relationship between test specimen temperature and absorbed energy.