AI fully automated X-ray diffractometer
The AI fully automated X-ray diffractometer deeply integrates the high-precision manipulation of a robotic arm based on a portable diffractometer. Compared to traditional diffractometers, it significantly reduces manual intervention, making it suitable for R&D scenarios requiring high-throughput and high-repeatability testing. It can be remotely controlled via mobile phone or APP, featuring automatic door opening and closing technology. With autonomous sampling and analysis capabilities, it offers precision and convenience.
- Tongda
- Liaoning, China
- 1—2 months
- 100 units per year
- Information
Overview:
Dandong Tongda Science & Technology Co., Ltd. introduces the AI fully automated X-ray diffractometer, which deeply integrates high-precision robotic arm technology with intelligent AI algorithms. The AI fully automated X-ray diffractometer achieves full automation across the entire workflow—from sample identification and positioning to measurement and analysis—significantly reducing manual intervention compared to traditional diffractometers. This system is particularly suitable for R&D and quality control scenarios that demand high-throughput and high-repeatability testing.
Instrument Features:
Intelligence and Automation
The instrument features an autonomous sample feeding function, where the robotic arm system automatically performs sample grasping, placement, and positioning. It is compatible with various sample forms, including powders, thin films, and bulk materials. Combined with AI-powered analysis software, it enables automatic qualitative and quantitative phase analysis, as well as crystal structure analysis.
Modular Design and High Scalability
The hardware circuitry adopts a modular design concept, offering strong anti-interference capability and high system stability. Thanks to the powerful expandability of the core controller (PLC), various functional accessories can be easily added without requiring extra hardware circuits. This approach protects the user's initial investment and ensures the instrument can adapt to future analytical requirements.
Precision Robotic Arm Technology
Equipped with a highly integrated joint-module robotic arm, its lightweight design ensures flexible and precise movement. The separable modular design also facilitates maintenance and customization. The robotic arm excels in automated control, precise operation, and heat dissipation optimization, ensuring long-term stable operation.
Remote Control and Safety Reliability
The system supports remote control via mobile phone or dedicated APP and includes an automatic door opening/closing mechanism. Its safety devices provide dual protection—for example, the optical shutter and lead door are interlocked, so the shutter automatically closes when the lead door is opened—ensuring user safety. These features enhance operational safety when handling radioactive materials and enable unattended, continuous remote operation.
Compact Design and High-Efficiency Measurement
The instrument boasts a compact structure and supports plug-and-play operation. The goniometer utilizes high-precision bearing transmission and a fully closed-loop vector drive servo system, ensuring rapid and accurate measurements.
Application Scenarios
This diffractometer is adaptable to testing, analysis, and research needs across various industries, such as:
• Qualitative/quantitative phase analysis
• Crystal structure analysis
• Macro/micro stress measurement
