Our Products
Choose Your IET Solution
Three complete solutions tailored to how you work, from R&D characterization to full production-line integration.
Measure. Analyze. Understand.
Material Characterization Solution
Everything you need to determine elastic properties of materials in a research or lab environment. The essential IET setup for material scientists.
Includes
Test. Decide. Ship.
Quality Control Solution
Add GO/NOGO decision software to the MK7 and Measurement Station for instant pass/fail quality control on the production floor.
Includes
Automate. Integrate. Scale.
Inline Solution
Fully automated IET testing integrated directly into your production line for 100% inspection of mass-produced components.
Includes
Elevated Temperature
High Temperature Solutions
Complete IET solutions for measuring elastic properties at elevated temperatures — from ceramics and refractories to extreme high-performance materials.
Test. Heat. Characterize.
HT1200
Complete IET solution for testing up to 1200°C. Built for ceramics, refractories, and composites.
Includes
Push. Beyond. Limits.
HT1600
Advanced IET solution for testing up to 1600°C. For high-performance materials research at extreme conditions.
Includes
Cryogenic & Sub-Ambient
Low Temperature Solution
Complete IET solution for measuring elastic properties at sub-ambient temperatures — ideal for polymers, composites, and cryogenic research.
Cool. Measure. Discover.
LT85
Complete IET solution for testing from -85°C to +180°C. Built for polymers, composites, and cryogenic research.
Includes
Beyond Products
IET Consulting Expertise
With decades of experience in Impulse Excitation Technique, we offer expert consulting services to help you get the most out of your material testing.
Method Development
Custom test procedures tailored to your specific materials and quality requirements.
Training
On-site and remote training for your team to master IET measurement techniques.
Feasibility Studies
Sample testing and analysis to validate IET for your application before you invest.
Need Help Choosing?
Contact us to discuss your application and find the right solution for your needs.
Get in Touch* Example uncertainty calculation for E-modulus on a 100 GPa bar-shaped sample (100 mm × 25 mm × 10 mm): the uncertainty on Young's Modulus is defined mainly by 3× the uncertainty of the thickness (e.g., 0.001 mm on 10 mm thickness). This results in a 0.03 GPa overall uncertainty on the modulus calculation. The uncertainty of the GrindoSonic frequency measurement is negligible in this total uncertainty budget.