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Real-time monitoring of the additive manufacturing process:
marks abnormal areas.
The Additive Manufacturing Monitor (AMM) is a new product developed by Diligine to address process monitoring challenges in laser additive manufacturing. Equipped with a coaxial sensor, it monitors in real time the laser energy, metal vapor, reflected laser energy, and molten pool radiation during printing. By leveraging baseline data and adaptive algorithms, it diagnoses the process status and highlights anomalous areas on the printed component. This enables defect detection and process quality traceability in additive manufacturing.
Multi-Signal Online Acquisition:
Precise Defect Localization.
Multi-Signal Online Acquisition
Multi-Data Online Analysis
Multi-Signal Independent Analysis
Quality Report Generation
Refined analysis of historical data
facilitating quality traceability and defect localization
1D、2D &3D Result
Visualization
Presenting 1D signals, 2D planes, and 3D visualization
Recording down to the hundred-micron level
Establish more stable and convergent process parameters.
Massive data, powerful computing.
Capable of stable, long-duration operation
Determine a convergent process.
Sampling frequency: 200 kHz*4
Adapted to prolonged machining processes.
Quickly identify stable process parameters.
Additive manufacturing defect detection cases:
The above is not a complete list. For more types, please
consult for more types
consult for more types
Parameter
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Application Industry
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Aerospace, medical, mold & die, 3C industries, etc.
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Metals
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Stainless steel, copper alloy, aluminum alloy, titanium alloy, etc.
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Sampling Frequency
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200kHz*4 channels (maximum)
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Sampling Range
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400nm-1800nm
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Multiple Optical Sensors
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Metal vapor monitoring module, reflected laser monitoring module, molten pool,radiation monitoring module, laser power monitoring module |
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Defect Type
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Unreasonable support, bulging, warping, overheating, lack of fusion, power instability, etc. |
