欢迎访问全球领先的太阳能EVA产品名录。太阳能电池组件生产商可以在我们的名录中找到所需的EVA产品。我们从全球EVA生产商处收集了产品的详细数据并整理到统一的模板中,便于您轻松地进行不同EVA之间的对比。
类型: | 快固型 | 抗拉强度: | -- |
厚度: | 0.2 ~ 0.8 mm | 热收缩率(纵向) ≤: | 3 % |
地区: |
中国大陆
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High transmittance eva encapsulation film
Provides strong and stable adhesion performance
Excellent long-term resistance to heat and humidity,UV and PID resistance
Perfect matching with various components and auxiliary materials
Good process compatibility with most laminating equipment.
类型: | 超快固型 | 抗拉强度: | -- |
厚度: | -- | 热收缩率(纵向) ≤: | 3 % |
地区: |
泰国
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类型: | 快固型 | 抗拉强度: | 11 MPa |
厚度: | -- | 热收缩率(纵向) ≤: | -- |
地区: |
韩国
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类型: | 常规型 | 抗拉强度: | -- |
厚度: | 0.2 mm | 热收缩率(纵向) ≤: | -- |
地区: |
荷兰
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类型: | 常规型 | 抗拉强度: | -- |
厚度: | -- | 热收缩率(纵向) ≤: | -- |
地区: |
中国大陆
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√ High Transmittance,Higher Power Output
√ Thermosetting,No Creep, Especially Suitable for Glass-Glass Modules
√ No Acetic acid,No corrosion , Long Lasting Power Output
√ First choice encapsulant films for type N or P double-sided cells
√ Lower MVTR,Excellent Damp-Heat Stability
√ High Compatibility ,Good Capacity with c-Si, Cd-Te & CIGS Modules
类型: | 超快固型 | 抗拉强度: | 16 MPa |
厚度: | 0.30 ~ 0.80 mm | 热收缩率(纵向) ≤: | 3 % |
地区: |
印度
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类型: | 常规型 | 抗拉强度: | 16 MPa |
厚度: | -- | 热收缩率(纵向) ≤: | 2 % |
地区: |
中国大陆
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• Different types of EVA film available: highly transparent, high UV cutoff, and highly reflective white
• Excellent weather resistance against high temperature, high humidity, and ultraviolet radiation
• Good adhesion between glass and different types of back films
• Low shrinkage to ensure component stability during lamination
类型: | 快固型 | 抗拉强度: | 20 MPa |
厚度: | 0.2 ~ 0.8 mm | 热收缩率(纵向) ≤: | 3 % |
地区: |
中国大陆
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1. Z1,261 Extra Fast Cure within 10 mins
2. Over 25 Years Quality Assurance
3. Free of PID and Snail Trails
4. 15 Years Experience Technology Team
5. Excellent material compatibility with contact materials
类型: | 快固型 | 抗拉强度: | -- |
厚度: | 0.2 ~ 0.8 mm | 热收缩率(纵向) ≤: | 3 % |
地区: |
中国大陆
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Black infrared reflective encapsulation film
Improve the effective utilization rate of visible light
Help to increase the power yield of the module
Solve the problem of black film overflow after laminated
Has high reflectivity retention rate and low attenuation rate on peel strength