Instron

Instron was founded in Boston, USA in 1946 and developed the world's first closed-loop control electronic universal material testing machine and the first strain gauge load sensor. For 70 years, Instron has been committed to developing and producing high-quality material testing instruments and systems with the most advanced scientific and technological research and development. Currently, tens of thousands of Instron products are playing a role in numerous fields in nearly a hundred countries and regions.

Product Introduction

The Instron 5980 double column floor standing test system can be used for a series of force tests with a maximum load of 600 kN (134800 lb, 60000 kg). Multiple available load sensors can provide accurate measurement data for a wide range of experiments, from thin metal sheets to fully loaded racks. In addition, various fixtures, tooling devices, and strain measurement equipment can also be provided. Along with Armstrong&Bluehill; When used in conjunction with software, these experimental systems will have superior performance, accuracy, flexibility, and practicality. The experimental solutions cover high-strength metals and aluminum alloys, advanced composite materials, aviation and automotive structures, composite materials, bolts, fasteners, steel plates, and more.

function

A control panel with real-time display, soft keys, and sample protection functions to enhance practicality and work efficiency

The high stiffness and precise alignment conferred by precise guidance and preloading of bearings can provide more accurate test results

Industrial standard Ethernet interfaces enable fast and reliable communication with laptops or desktop computers

Digital electronic devices with characteristics of reliability, durability, and measurement accuracy

Meet and exceed all national and international standard requirements related to material testing

New features

New intelligent touch testing system

Improved the accuracy range of the load

Improved data sampling rate

Improved speed accuracy

A wider range of speeds

Increased the travel of the crossbeam

Built in Ethernet interface

Up to four sensor control channels can be built-in

Specific model and technical specifications

5982 100kN (22500 lbf) load capacity

1430mm (56.3 in) vertical test space*

1930mm (76 in) vertical test space (elevated type)

5984 150kN (33750 lbf) load capacity

1430 mm (56.3 in) vertical test space*

1930 mm (76.0 in) vertical test space (elevated type)

5985 250 kN (56200 lbf) load capacity

1430 mm (56.3 in) vertical test space*

1930 mm (76.0 in) vertical test space (elevated type)

5988 400 kN (89700 lbf) load capacity

2050 mm (80.7 in) vertical test space*

5989 600 kN (135000 lbf) load capacity

2000 mm (78.8 in) vertical test space*

*For models 5982, 5984, and 5985, the widening option will reduce the vertical test space by 55 mm.

Optional accessories

Automatic fixture control function to improve the testing efficiency of pneumatic fixtures

Additional cameras and software are used to record the testing process

T-shaped groove table with fixed components

Test area lighting for small samples

Load sensors of various capacities

Multiple fixtures and testing fixtures can meet various testing standards

Powerful software for experimental control, data collection, and reporting