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plastic/metal
TOYOE
The phase change lining material (PCM-lined) under development integrates microencapsulation technology, which can absorb or release heat within a specific temperature range, enabling the temperature control accuracy of cold chain transportation to reach ±0.3℃, and saving 40% energy compared with the traditional ice strip scheme.
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The piezoelectric lining developed in collaboration with Siemens can convert transportation vibration energy into electrical energy to power Internet of Things sensors and enable real-time monitoring of packaging status. |
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After a certain biotech company tried out this technology, it not only increased the survival rate of stem cell transportation to 99.2%, but also reduced carbon emissions by 32% through energy recovery. |
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We are exploring the integration of AI algorithms into lining materials, predicting transportation risks through machine learning, and dynamically adjusting the buffer structure to usher in a new era of intelligent protection.
The phase change lining material (PCM-lined) under development integrates microencapsulation technology, which can absorb or release heat within a specific temperature range, enabling the temperature control accuracy of cold chain transportation to reach ±0.3℃, and saving 40% energy compared with the traditional ice strip scheme.
| | |
The piezoelectric lining developed in collaboration with Siemens can convert transportation vibration energy into electrical energy to power Internet of Things sensors and enable real-time monitoring of packaging status. |
|
After a certain biotech company tried out this technology, it not only increased the survival rate of stem cell transportation to 99.2%, but also reduced carbon emissions by 32% through energy recovery. |
|
We are exploring the integration of AI algorithms into lining materials, predicting transportation risks through machine learning, and dynamically adjusting the buffer structure to usher in a new era of intelligent protection.
