Small Punch Disc Testing

Small punch disc testing incorporates the use of small discs of material, approximately 8-10mm diameter and 0.5mm thick (final thickness prepared on site). The use of these small test pieces yields several advantages over conventional full scale mechanical test specimens:

• Can be used to characterise limited amounts of expensive materials
• Small samples can be taken from actual components (scoop extraction)
• Localised material behaviour can be analysed (e.g. Heat affected

SMaRT has an extensive bespoke capability
for small punch creep testing up to 900˚C and can carry this out to
the requirements of the European Code of Practice for
Small Punch Creep Testing: Part A 2006 - CEN workshop
agreement CWA15627. In addition, small punch tensile
testing is available and work is underway to develop a
test capability for small punch fatigue testing.

Test Specimens

Discs of 8-10 mm diameter are supplied of approximate 0.7mm thickness. Specimens are then prepared on site by grinding with a specially designed holder to the final required dimensions of 500 +/- 5 microns. Grinding is undertaken with progressively finer grit papers until the final finish is achieved (1200 grit fine paper).

Small Punch Creep Test Equipment

A suite of specially designed and manufactured test rigs are available at SMaRT to conduct small punch disc creep testing (example shown below). The miniature disc specimen is mounted in a lower die holder, which locates the sample in the centre of the rig and applies a circumferential clamping load to hold the disc securely in place during loading.

Small Punch Creep Frame
Bench Mounted Small Punch Creep Frame

The load is then applied to the disc via a 2mm diameter hemispherical ended punch. A vertical ram connects the punch to the weight pan, where calibrated weights are stacked, applying the requied load to the specimen.

Heat is applied by a single zone furnace, digitally controlled and monitored throughout the test by two thermocouples which are located in a hole drilled in the upper die, close to the surface of the disc.

Two linear variable displacement transducers (LVDT) are employed to monitor the rate of displacement that the specimen undergoes during a test. The top transducer is located just below the load pan and monitors the displacement of the indenter penetrating into the top surface of the disc. The bottom transducer is locaed within the lower pull rod and the measurement is taken directly off the surface of the disc via a quartz rod which is in contact with the underside of the specimen. This facilitates monitoring of the average deflection experienced as the specimen starts to deform under the applied load.

All small punch creep tests are performed in an inert argon environment to limit any potential oxidation effects.