At K2016 Instron will show their comprehensive range of testing systems for the polymers industry, including a system for versatile HDT and Vicat tests, an electromechanical table-top system for tension, compression and bending, optionally featuring an automated specimen loading feature, a drop weight tester, as well as an electrodynamic testing system using patented, oil-free linear motor technology, all of them supported by tailored state-of-the-art software packages.
At K2016, Instron, a leading global manufacturer of material and structural testing systems, will present their comprehensive portfolio of systems for testing polymers from static to dynamic, from R&D to 24/7. Visitors of stand J18 in Hall 10 will find a full range of devices for applications from basic research to incoming inspection and routine testing in manufacturing.
For static tensile, flexure, compression, bend, peel, shear, tear and cyclic tests, Instron will show a versatile 5969 electromechanical dual column table-top system for mid-range testing, together with pneumatic grips, designed for a nominal load of 10 kN, in combination with an automatically contacting Instron® AutoX extensometer. For automated testing runs, meeting the requirements of all common testing standards, Instron will present their latest development, the TestMaster AT3 for tensile and flexure testing. Once the tray has been loaded and the start button pushed, its automated specimen loading feature improves repeatability and reproducibility of testing and results, minimising human influence, increasing safety by keeping the operator away from the testing area, and improving ergonomics by virtually eliminating repetitive motions associated with high volume manual testing. All test runs will be controlled, documented and stored in a data base using Instron’s universal Bluehill® 3 testing software with fully-integrated modular software packages that provide easy, tailored application solutions for today”s laboratory managers and test technicians.
For impact testing of polymers, Instron will exhibit two systems: a CEAST 9350 floor standing drop tower designed to deliver 0.59 to 757 J or up to 1,800 J together with an environmental chamber, and a motorised CEAST 9050 impact pendulum. Both systems will be operated using Instron’s CEAST VisualIMPACT software, designed to control these devices, record force and absorbed energy data, visualise and help analyse the results and calculate resilience. VisualIMPACT is tailored to using the CEAST high-speed data acquisition system DAS64K. Providing a data acquisition rate of 4 MHz, this system is particularly advantageous when testing brittle materials or performing tests at high speeds or low temperatures, as will be showcased on the stand.
For HDT and Vicat tests, Instron will present its recently introduced Instron® HV Series designed to significantly reduce workload and increase efficiency in the testing lab. Available for visitors will be a HV6X with six testing stations and automatic weights application, using advanced electronics that automatically zero the position of the LVDT measuring sensors before starting a test, reducing test time and human errors. The HV tester will be operated by the company’s Bluehill HV test software to run tests, edit methods, analyse results or configure the system with a few mouse clicks, even further minimising effort, and raising both laboratory efficiency and throughput to a high level.
For dynamic testing tasks, Instron will showcase at K2016 the ElectroPuls E1000 Electrodynamic Testing System which uses patented, oil-free linear motor technology, together with the recently introduced AVE2 Advanced Video Extensometer. Offering slow-speed static and high-frequency fatigue testing, the versatile ElectroPuls systems are ideal for any lab or office space, designed for up to 10 kN axial load or combined axial-torsion loadings, delivering 10 kN and 100 Nm. The AVE2 is a non-contacting extensometer for dynamic strain control at variable gauge lengths and differing travels, offering speed and flexibility for studying the behaviour of materials without damaging the specimen”s surface. A fully-integrated device, it easily adapts to the normal fluctuations in environmental conditions in the lab. Designed to dramatically reduce errors from thermal and lighting variations that are common in most labs, the AVE2 utilises a real-time 490 Hz data rate while achieving a 1 micron accuracy.