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Silanfunktionelles Additiv für photovoltaische POE-Folie

Modell Nr.: R1030

Einführung:

Coace® R1030 ist ein silanfunktionalisiertes Ethylen-Octen-Copolymer mit hohem Silangehalt und hoher Transparenz.
Leistung Wert Prüfverfahren
Dichte 0.87g/㎤ ASTM D792
Schmelzpunkt(DSC)  46℃(115℉) ASTM D3418
MFR(190℃ 2.16kg)  8-15g/10min ASTM D1238
Silangehalt  Hoch Interne Methode
Produkte Beschreibung

 

Coace® R1030 ist ein silanfunktionalisiertes Ethylen-Octen-Copolymer mit hohem Silangehalt und hoher Transparenz.

When it comes to improving the efficiency of solar photovoltaic modules, R1030 provides a number of beneficial characteristics and advantages that are exclusive to it. The longevity, energy efficiency, and dependability of photovoltaic photovoltaic oxide (PoE) films are all improved as a result of its higher dispersion, moisture resistance, weatherability, and electrical insulating qualities. The utilisation of this additive in the fabrication of modules results in a number of advantages, including an increase in power generation, an extension of the module’s lifespan, and cost reductions.

 

Fortschrittliche Ausrüstung!

Ausgestattet mit fortschrittlichen Produktionslinien und einem experimentellen Testzentrum zur Gewährleistung der Produktqualität.

Starke technische Kraft!

Mehr als 10 erfahrene technische F&E-Mitarbeiter sorgen für kontinuierliche Innovation.

 

Charakteristisch

 

Leistung Wert Prüfverfahren
Dichte 0.87g/㎤ ASTM D792
Schmelzpunkt(DSC)  46℃(115℉) ASTM D3418
MFR(190℃ 2.16kg)  8-15g/10min ASTM D1238
Silangehalt  Hoch Interne Methode

Hinweis: Die oben genannten Daten sind typische Testwerte und sollten nicht als Spezifikationen interpretiert werden.

Empfohlene DosierungJe nach der tatsächlichen Anwendung und unter Berücksichtigung der Kosten wird der entsprechende Betrag erhöht oder gesenkt.

Verpackung und Transport:20kg-Plastiksack, entsprechend ungefährlicher Ware, Sonnenlicht und Regen vermeiden.

  • Increased Resistance to Moisture: The use of this additive results in an increase in the resistance of photovoltaic POE films to moisture. The formation of a protective barrier that prevents moisture from entering the structure of the film is achieved by it. Even in humid situations, this helps to maintain the film’s dimensional stability, mechanical strength, and electrical insulating capabilities. This is because of the composition of the film.
  • Improved Weatherability: The product’s high weather resistance capabilities allow it to successfully preserve photovoltaic photovoltaic oxide (PoE) films from degradation that is caused by ultraviolet light, variations in temperature, and environmental variables. The deterioration, staining, and loss of physical characteristics that might occur as a result of prolonged exposure to harsh weather conditions are reduced considerably as a result of this procedure.
  • Optimal Electrical Insulation :The Silane Functional Additive possesses exceptional electrical insulation capabilities, which guarantees the solar modules’ high level of dependability and long-term performance. It prevents electrical breakdown, leakage currents, and potential hot spots, which ultimately results in an increase in the PV system’s overall safety and efficiency with regard to its operation.

 

Vorteil

 

Enhanced Energy Efficiency:The product enhances the performance of photovoltaic photovoltaic oxide (POE) films, which results in an enhanced energy efficiency. This results in a reduction in electrical losses, an increase in power production, and an overall improvement in the performance of the photovoltaic system. This is accomplished by improved electrical insulation and enhanced dispersion.

 

Enhanced Power Generation: The Silane Functional Additive makes it possible to improve electrical insulation and dispersion inside the photovoltaic POE film, which in turn maximises the amount of power that is generated. Through the enhancement of overall module performance, the reduction of series resistance losses, and the guarantee of appropriate electrical contact, it leads to an increase in the amount of energy that is produced.

 

PV modules have a longer lifespan as a result of the additive’s ability to prevent degradation of the photovoltaic POE film and to preserve its physical qualities. This is one of the reasons why the additive contributes to the prolonged lifespan of PV modules. As a result, solar power plants will maintain their operations for a longer period of time and will provide a higher return on investment.

 

Unser Vorteil

Globale Lieferkette!

Solide Lagerung und Logistik Supply Chain System
Technische Unterstützung
Schutz nach dem Verkauf

Fokus - Leistung - Exzellenz!

Maßgeschneiderte Produkte
Fokus auf F&E
Globale Dienstleistungen

Coace-Zertifizierung!

ISO9001:2015 Zertifizierung
ISO14001:2015 Zertifizierung
EU REACH-Registrierung

Korea K-REACH Vorregistrierung

Vorteil für Unternehmen!

Layout im In- und Ausland, wunderbar zum Mischen
Gestaltung der Inlandsvermarktung
Layout für die Vermarktung in Übersee

 

Anmeldung

 

The Silane Functional Additive was developed expressly for the purpose of making solar POE films, which go into solar photovoltaic (PV) modules. It is compatible with a wide range of modules, including monocrystalline, multicrystalline, and thin-film technologies, among others. PV films that are utilised in these modules are significantly improved in terms of both their performance and their longevity by the additive.

Improvements in Module Reliability The Silane Functional Additive offers greater electrical insulation and protection against environmental conditions, which contributes to an overall improvement in the reliability of photovoltaic modules. It guarantees that the photovoltaic PV evaporation film will continue to be firmly attached to the components of the module, even when subjected to severe operating circumstances.

Improved Resistance to the Elements The product’s exceptional weather resistance capabilities shield photovoltaic photovoltaic (PV) films from ultraviolet (UV) radiation, temperature changes, and moisture, hence reducing the amount of film degradation occurred. As a result, the performance of the module is enhanced, the amount of maintenance required is decreased, and the resistance to environmental pressures is raised.

Companies that make solar PV modules can improve their overall performance and longevity by integrating the Silane Functional Additive. This allows them to generate larger energy yields, lower the costs of maintenance, and improve overall performance.

 

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