Precise detection, differentiation and batch separation through comparative measurement of self-stored alloys.
The METALSCOPE [MI-LAB 2] uses the detected physical properties like a fingerprint.
Alloy Mix-up Check
Alloy mix-up check
Precise detection, differentiation and batch separation through comparative measurement of self-stored alloys.
The METALSCOPE [MI-LAB 2] uses the detected physical properties like a fingerprint.
Alloy mix-up testing is used to quickly distinguish between two or more alloys. Specific characteristics such as electrical conductivity, magnetic conductivity and microstructures are recorded at several penetration depths. A few measured value spectra are sufficient for precise alloy testing. The mix-up test detects the finest physical differences in all non-ferrous metals, stainless steel alloys up to low-alloyed iron-based alloys.
Specific characteristics such as electrical conductivity, magnetic conductivity and microstructures are recorded at several penetration depths. A few measured value spectra are sufficient for precise alloy testing. The mix-up test detects the finest physical differences in all non-ferrous metals, stainless steel alloys up to low-alloyed iron-based alloys.
High selectivity and batch separation
all non-ferrous metals and stainless steel alloys
private database
Machine Learning AI Algorithms
Cloud based Android GUI
Product description
Android APP Alloy mix-up check
Place the METALSCOE [MI-LAB 2] on an alloy and save the individual magnetic spectrum in the database. Use the Android app to control the METALSCOPE [MI-LAB 2] and adapt it to your testing requirements. AI and machine-learning based signal analysis methods calculate and visualise your self-created measured value spectra. Software functions for full quality control, hit probability, alloy databases, temperature monitoring and charge status are displayed.
Analysis software
Analysis software for testing tasks, system and database control.
Alloy database
Store your own alloys for the mix-up check.
The test device
Universal test device with magnetic field frequencies from 3 kHz to 3 MHz
... to control the METALSCOPE [MI-LAB 2] and adapt it to your testing requirements. AI and machine-learning based signal analysis methods calculate and visualise your self-created measured value spectra. Software functions for full quality control, hit probability, alloy databases, temperature monitoring and charge status are displayed.
Analysis software
Analysis software for testing tasks, system and database control.
Alloy database
Store your own alloys for the mix-up check.
The test device
Universal test device with magnetic field frequencies from 3 kHz to 3 MHz