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plastic/metal
TOYOE
A phase change material (PCM)-lined solution is under development, with microencapsulation technology seamlessly integrated into its design. This innovative integration enhances the material’s functionality, enabling it to efficiently absorb and release heat within a specific temperature range. Such precise thermal behavior is crucial for maintaining stable conditions, laying a solid foundation for reliable temperature management in relevant applications
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This PCM-lined material excels in cold chain scenarios, boasting an impressive temperature control accuracy of ±0.3℃. Beyond precision, it also delivers notable energy efficiency—compared to the traditional ice strip scheme, it achieves a 40% reduction in energy consumption. This combination of high accuracy and energy savings makes it a promising alternative for optimizing cold chain operations
The piezoelectric lining, co-developed with Siemens, converts transportation vibration energy into electrical energy—powering IoT sensors and enabling real-time monitoring of packaging status. |
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After trialing this technology, a biotech company not only boosted the survival rate of transported stem cells to 99.2% but also cut carbon emissions by 32% via energy recovery. |
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We are exploring the integration of AI algorithms into lining materials—leveraging machine learning to predict transportation risks and dynamically adjust buffer structures, thereby ushering in a new era of intelligent protection.
A phase change material (PCM)-lined solution is under development, with microencapsulation technology seamlessly integrated into its design. This innovative integration enhances the material’s functionality, enabling it to efficiently absorb and release heat within a specific temperature range. Such precise thermal behavior is crucial for maintaining stable conditions, laying a solid foundation for reliable temperature management in relevant applications
| | |
This PCM-lined material excels in cold chain scenarios, boasting an impressive temperature control accuracy of ±0.3℃. Beyond precision, it also delivers notable energy efficiency—compared to the traditional ice strip scheme, it achieves a 40% reduction in energy consumption. This combination of high accuracy and energy savings makes it a promising alternative for optimizing cold chain operations
The piezoelectric lining, co-developed with Siemens, converts transportation vibration energy into electrical energy—powering IoT sensors and enabling real-time monitoring of packaging status. |
|
After trialing this technology, a biotech company not only boosted the survival rate of transported stem cells to 99.2% but also cut carbon emissions by 32% via energy recovery. |
|
We are exploring the integration of AI algorithms into lining materials—leveraging machine learning to predict transportation risks and dynamically adjust buffer structures, thereby ushering in a new era of intelligent protection.
