제품 설명
When it comes to improving the efficiency and longevity of photovoltaic modules, silane functional photovoltaic POE film additives provide a variety of distinct qualities, advantages, and benefits. As a result of their enhanced adhesion, resistance to moisture, UV stability, and crosslinking capabilities, the efficiency of the modules improved, the amount of maintenance required decreased, and their lifespan was prolonged. The production of solar modules, building-integrated photovoltaics, and off-grid solar systems are all areas that find applications for these additives due to their compatibility, adaptability, and application flexibility.
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특성
| 성능 | 가치 | 테스트 방법 |
| 밀도 | 0.87g/㎤ | ASTM D792 |
| 녹는점(DSC) | 72℃(161.6℉) | COACE 방법² |
| MFR(190℃2.16kg) | 10-20g/10분 | ASTM D1238 |
| 실란 함량 | 높음 | COACE 방법¹ |
참고: 위의 데이터는 일반적인 테스트 값이며 사양으로 해석해서는 안 됩니다.
권장 복용량실제 적용에 따라 비용을 고려하여 적절한 증액 또는 감액 금액을 결정합니다.
포장 및 운송 :20kg 비닐 봉투, 위험물이 아닌 상품에 따라 햇빛, 비를 피하세요.
- Silane Coupling Agents: These additives contain silane coupling agents that have both organic and inorganic components at their disposal. Because of its one-of-a-kind composition, the POE film matrix is compatible with this material, which permits robust bonding.
- Improved Adhesion: Silane functional additives improve the adhesion between the different layers of the solar film, which ultimately leads to an improvement in the film’s integrity and reliability.
- Resistance to Moisture: These additives contribute to increased resistance to moisture, which helps to prevent water from entering the material and reduces the danger of delamination, corrosion, and electrical degradation.
- UV Stability: Silane functional additives aid to improve the film’s resistance to ultraviolet radiation, which in turn helps to retain the film’s optical characteristics and power conversion efficiency over time.
- Capability of Crosslinking: These additives make it easier for crosslinking reactions to take place within the film, which ultimately results in enhanced mechanical characteristics, dimensional stability, and resistance to external stress factors.
이점
Improved Module Performance: The enhanced adhesion and compatibility that these additives provide contribute to an improvement in the overall performance and efficiency of solar modules.
Because of the moisture resistance and crosslinking properties of these additives, the solar film is able to maintain its durability and reliability over an extended period of time, which in turn extends the lifespan of the module.
The use of these additives helps to reduce the amount of maintenance that is required and the costs that are connected with it. This is accomplished by reducing the risk of delamination, corrosion, and electrical degradation from occurring.
Increased energy output and a higher return on investment are the results of improved cost-effectiveness, which is achieved by photovoltaic modules that have been
improved in terms of their durability and performance.
Compatibility with the Environment: Silane functional additives are frequently devoid of harmful compounds and have a lower migration potential, which makes them more ecologically friendly and safer for human health.
당사의 장점
글로벌 공급망!
사운드 스토리지 및 물류 공급망 시스템
기술 지원
판매 후 보호
집중 - 성취 - 우수성!
맞춤형 제품
R&D에 집중
글로벌 서비스
코이스 인증!
ISO9001:2015 인증
ISO14001:2015 인증
EU REACH 등록
한국 K-REACH 사전 등록
기업의 이점!
국내외를 넘나드는 레이아웃, 믹스 앤 매치하기 좋은 디자인
국내 마케팅 레이아웃
해외 마케팅 레이아웃
애플리케이션
a. Manufacturing of Solar Modules: These additives are utilized during the fabrication of photovoltaic films, the purpose of which is to improve adhesion, moisture resistance, and overall module performance.
Building-Integrated Photovoltaics (BIPV): Silane functional additives are useful in BIPV applications, which involve the incorporation of solar panels into building components, such as windows, facades, and roofing, in order to create renewable energy while preserving the integrity of the building’s structure.
c. Off-Grid Solar Systems: These additives contribute to the longevity and dependability of photovoltaic modules that are used in off-grid solar systems, which provide sustainable energy solutions in areas that are not connected to the grid.
