Design, fabrication, and testing of an electromechanical high-temperature tensile test machine

Abstract EN

The following paper presents a developed design and manufacturing of a servo-driven Electromechanical high-temperature tensile machine with an integrated environmental chamber.

The maximum load capacity is set to be 20 kn with the possibility of future upgrades.

The machine is automated by a computerized system that controls the entire operation of the designed machine.

It is designed to be capable for testing a variety of materials at various temperatures ranging from room temperature up to 500℃.

The machine was fully controlled using automated software to control the entire operation and to provide users with a certified test report.

The main component is a high-quality aluminum frame that hosts the entire setup, like a furnace, and a universal type gripping mechanism.

The structure is monitored by precise measurement instrumentation and a dependable data acquisition system.

The machine was validated by testing AA6063-T6 to evaluate the sophistication of the machine's functionality.

The results then compared to an international standard, provided close results with a low percentage error of about 4.5% compared to international standard The following paper presents a developed design and manufacturing of a servo-driven Electromechanical high-temperature tensile machine with an integrated environmental chamber.

The maximum load capacity is set to be 20 kn with the possibility of future upgrades.

The machine is automated by a computerized system that controls the entire operation of the designed machine.

It is designed to be capable for testing a variety of materials at various temperatures ranging from room temperature up to 500℃.

The machine was fully controlled using automated software to control the entire operation and to provide users with a certified test report.

The main component is a high-quality aluminum frame that hosts the entire setup, like a furnace, and a universal type gripping mechanism.

The structure is monitored by precise measurement instrumentation and a dependable data acquisition system.

The machine was validated by testing AA6063-T6 to evaluate the sophistication of the machine's functionality.

The results then compared to an international standard, provided close results with a low percentage error of about 4.5% compared to international standard readings.