Produkte Beschreibung
RM210A, an inorganic EVA anti-acidification masterbatch, is a particular functional blend made from ethylene-vinyl acetate copolymers. It has advantages such as low addition requirements, high efficacy, easy dispersion, and little effect on light transmittance.
The masterbatch, which is based on a copolymer of ethylene and vinyl acetate, possesses a number of distinctive characteristics and benefits. the inorganic EVA film anti-acidification masterbatch that is easy to distribute and is based on an ethylene-vinyl acetate copolymer provides considerable advantages and benefits for EVA films. There are a number of factors that contribute to the overall performance, dependability, and durability of photovoltaic modules. These factors include its acid resistance capabilities, its easy dispersibility, extensive service life, and various uses. In the photovoltaic industry, there is a vital need for acid resistance and long-term stability. The masterbatch addresses this demand by finding specialized uses in backsheets, encapsulants, protective layers, and PV module assembly. Manufacturers are able to secure the manufacturing of high-quality EVA films with higher acid resistance by including this novel masterbatch. This allows them to optimize the performance and longevity of PV modules, which in turn promotes the widespread adoption of solar energy technology.
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Charakteristisch
| Merkmale | Wert | Prüfverfahren |
| Dichte | 1.10 g/㎤ | ASTM D792 |
| MFR(190℃ 2.16kg) | 10-20 g/10min | ASTM D1238 |
| Melting Point (DSC) |
66℃(151℉) | ASTM D3418 |
| Erscheinungsbild | White Granules | / |
Recommended addition amount is 0.5~2%
- Inorganic Additives: The masterbatch contains inorganic additives that give EVA films outstanding acid resistance qualities. These additives are incorporated into the manufacturing process. The integrity of the film as well as its performance are both maintained thanks to these additives, which create a barrier that protects against acid attacks.
- Easy Dispersibility: The masterbatch has been specifically designed to provide easy dispersion inside the EVA matrix throughout the process of film making through its own unique engineering. The film’s acid resistance capabilities are improved throughout the entire film as a result of its one-of-a-kind formulation, which guarantees a uniform distribution of the inorganic additives.
- Ethylene-Vinyl Acetate Copolymer Base: The masterbatch is based on an ethylene-vinyl acetate copolymer, which ensures compatibility and excellent dispersion inside the EVA matrix. This is the basis for the masterbatch. These compatibilities contribute to the overall performance and stability of the EVA film, which is a positive aspect.
- Environmental Compatibility: The inorganic composition of the masterbatch guarantees that it is completely compatible with the environment, which makes it an environmentally responsible option for photovoltaic applications.
Vorteil
a. Enhanced Acid Resistance: The masterbatch makes a significant improvement to the acid resistance of EVA films, which protects them from the deterioration that is induced by exposure to acid. This not only extends the lifespan of the film but also ensures that its performance is maintained even in difficult settings.
b. Improved Dispersion: The easiness with which the masterbatch may be dispersed guarantees that the inorganic additions are distributed evenly throughout the EVA matrix. As a result, the film’s acid resistance capabilities remain consistent throughout its entirety, which contributes to an improvement in its overall performance and reliability.
c. The masterbatch helps to retain the mechanical and electrical properties of EVA films for an extended period of time by providing better acid resistance. This is referred to as the extended service life. Because of this, the film’s service life is increased, which guarantees its continued performance and dependability over time.
d. Versatile Application: The masterbatch, which is simple to disperse, is suited for a wide range of applications that involve EVA films. These applications include backsheets, encapsulants, and other protective layers. It can be easily included into the manufacturing procedures that are already in place, which will result in an increase in the acid resistance of the film without sacrificing any of the other features of the film.
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Typische Anwendung
Used to improve the anti-PID performance of photovoltaic adhesive film.
Recommended addition amount is 0.5~2%
Specific Applications
The inorganic EVA film anti-acidification masterbatch, which is easy to distribute, has applications in a variety of elements of the manufacture of EVA film and the manufacturing of PV modules, including the following:
The backsheets are: It is possible to improve the acid resistance of EVA-based backsheets by including the masterbatch into them. This ensures that the PV module is protected from environmental variables and that it maintains its performance and dependability over the long term.
b. Encapsulants: The masterbatch boosts the acid resistance of EVA-based encapsulants, preserving the solar cells and boosting the longevity and dependability of the PV module.
c. Protective Layers: The masterbatch can be utilized in various protective layers of the solar module, such as anti-reflection coatings or surface films, which offer resistance to acid and ensure that the optical qualities of the module are preserved.
PV Module Assembly: The masterbatch makes a contribution to the overall performance and long-term durability of PV modules during the assembly process. It does this by increasing acid resistance and ensuring that film performance is consistent.
