Our Products

Complete IET Solutions

Everything you need for non-destructive material characterization using Impulse Excitation Technique

GrindoSonic MK7
Flagship Product

GrindoSonic MK7

The industry standard for Impulse Excitation experiments. Cutting-edge precision for laboratories and quality control environments.

Frequency Range

20 Hz – 150 kHz

Frequency Accuracy

>0.005%

E and G Modulus Accuracy

± 0.03 GPa*

Frequency Resolution

0.1 ppm

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Software

Advanced Software Suite

Comprehensive measurement and analysis software for quality control and research applications.

  • GO/NOGO quality control with user-defined tolerance bands
  • 3D waterfall plots for tracking material evolution
  • CSV export for data analysis
GrindoSonic Software

Extreme Conditions

High-Temperature Systems

State-of-the-art furnaces for material testing under extreme thermal conditions

HT1200 Furnace

HT1200

High-temperature furnace for testing up to 1200°C. Ideal for ceramics and composites.

Up to 1200°C Learn More →
HT1600 Furnace

HT1600

Advanced high-temperature furnace for extreme conditions. For high-performance materials research.

Up to 1600°C Learn More →

Production Ready

Automated Solutions

Production-ready systems for 100% inspection at high throughput

Measurement Station

Measurement Station

Automated sample holder with integrated excitation system and sensors for rapid testing.

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In-Line System

In-Line System

Production line integration for mass-produced components: gears, bearings, valves.

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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.

Discuss Your Project

Need Help Choosing?

Contact us to discuss your application and find the right solution for your needs.

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* 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.