Low Crystal Point Photovoltaic Film Additives

Intriguing benefits of low crystal point photovoltaic film additives include decreased crystallization temperature, increased optical transparency, improved material compatibility, and increased curing efficiency. These additives effectively lower the crystallization point of films and show good thermal stability and compatibility with encapsulating materials. They speed up the curing process during encapsulation and improve photovoltaic modules’ overall efficiency.

COACE’s R1030 photovoltaic packaging film additive has the characteristics of high transparency, low crystal point, high grafting rate, good fluidity and high resistivity, and is favored by the majority of users!

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More than 10 experienced technical R&D staff drive continuous innovation.

Note: The above data are typical test values and should not be interpreted as specifications.

Suggested Dosage：According to the actual application, taking into account the cost, the appropriate amount of increase or decrease.

Packing and transportation：20kg plastic bag, according to non-dangerous goods, avoid sunlight, rain.

• Decreased Crystallization Temperature: The main benefit of low crystal point additives is their capacity to reduce encapsulation films’ crystallization temperature. This facilitates quicker curing, lowers production energy usage, and encourages improved material qualities.
• Enhanced Curing Efficiency: Low crystal point additives enable for shorter curing times and higher production throughput by considerably increasing the curing efficiency of encapsulation films. This characteristic lowers expenses and increases industrial efficiency.
• Enhanced Material Compatibility: EVA and polyolefin films are only two examples of the encapsulating materials with which these additives work exceptionally well. They improve the overall integrity and robustness of solar modules by ensuring appropriate adherence and compatibility between various layers.
• Enhanced Optical Transparency: Additives with low crystal points help encapsulation films have better optical transparency. They optimize light transmission to the solar cells by lowering light scattering and reflection, which raises the module’s overall energy conversion efficiency.

Enhanced Module Performance: The application of low crystal point additions results in improved long-term stability, a rise in power output, and a decrease in potential-induced degradation (PID) effects. These advantages directly raise the efficiency and dependability of solar modules.

Enhanced Module Durability: Low crystal point additives improve compatibility and adhesion, which leads to an increase in module durability. By mitigating problems like moisture infiltration, delamination, and environmental deterioration, these additives assist extend the lifespan and performance of the modules.

Expedited Manufacturing Processes: With faster curing times and greater curing efficiency, low crystal point additives enable expedited manufacturing processes. Higher production yields, less energy use, and increased manufacturing productivity as a whole result of this advantage.

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