제품 설명
B1C is a maleic anhydride modified polypropylene with high grafting rate. One kind of coupling agent made especially for use with polypropylene base compounds is called B1C. Maleic anhydride modified polypropylene, or polypropylene with the backbone of maleic anhydride chemically attached to it, makes up its composition.
This coupling agent has many benefits due to its advanced qualities, which include improved mechanical properties, increased thermal stability, greater adhesion and dispersion, compatibility with different fillers and reinforcements, and chemical resistance. Better material performance, cost effectiveness, adaptability, processing benefits, and sustainability are some of these advantages. Applications for the coupling agent are found in the consumer products, automotive, electrical and electronics, packaging, and construction industries. Producers of polypropylene compounds can obtain superior goods with increased performance, dependability, and durability by adding this coupling agent.
고급 장비!
제품 품질을 보장하기 위해 첨단 생산 라인과 실험 테스트 센터를 갖추고 있습니다.
강력한 기술력!
10명 이상의 숙련된 기술 R&D 직원이 지속적인 혁신을 주도합니다.
특성
| 모양 | 흰색 또는 밝은 노란색 |
| 용융 지수(190℃, 2.16kg): g/10분 | 3-10 |
| 말레산 무수물 함량 | 높음 |
| 밀도(g/㎤) | 0.92 |
- Improved Mechanical Properties: Polypropylene composites’ mechanical qualities are considerably improved by the coupling agent. Enhancements in tensile strength, flexural strength, impact resistance, and stiffness lead to materials with improved structural integrity and durability.
- Better Thermal Stability: The coupling agent-treated polypropylene compounds show better thermal stability. By efficiently slowing down the rate of thermal deterioration, the agent enables the compounds to tolerate greater temperatures without losing their mechanical characteristics.
- Improved Adhesion and Dispersion: Within the polypropylene matrix, the coupling agent enhances the adhesion and dispersion of fillers, reinforcements, and additives. This results in higher dispersion, decreased agglomeration, and improved interfacial bonding, which improves the PP compounds’ overall performance.
- Compatibility with Different Fillers and Reinforcements: A wide variety of fillers and reinforcements that are frequently employed in polypropylene compounds are compatible with the coupling agent with outstanding results. It guarantees even dispersion and robust interfacial adhesion with substances including minerals, glass fibers, and nanoparticles, hence augmenting the mechanical characteristics of the mixtures.
이점
Better Material Performance: Manufacturers may now create materials with better mechanical qualities, thermal stability, and chemical resistance thanks to the Coupling Agent for Polypropylene Compounds, which dramatically improves the performance of polypropylene compounds. This results in increased dependability and durability of the product.
Cost-Effectiveness: The coupling agent enhances the mechanical characteristics and thermal stability of polypropylene compounds, allowing producers to optimize material designs and perhaps lowering the requirement for further reinforcements or additives. Saving money is achieved without performance being sacrificed.
Versatility: The coupling agent can be used in a variety of sectors and applications since it works well with a broad spectrum of polypropylene compounds. It can be used in building products, electrical appliances, automobile parts, packaging, and other areas.
Processing Advantages: The coupling agent makes polypropylene compounds easier to process, which leads to improved mold filling, easier melt flow, and fewer processing errors. Increased productivity and efficiency in production follow from this.
Sustainability: By improving the qualities of polypropylene compounds, the Coupling Agent for Polypropylene Compounds may prolong product lifetimes and cut down on material waste. Furthermore, the agent itself is frequently made using compounds that are beneficial to the environment, guaranteeing a low impact on the environment.
Chemical Resistance: Polypropylene compounds become more resistant to solvents, chemicals, and harsh media when they have a coupling agent added to them. This characteristic broadens the range of possible uses for PP compounds, especially in sectors where chemical resistance is essential.
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
인필 재료와 폴리머 매트릭스 간의 접착력을 강화하기 위해 폴리프로필렌 베이스 컴파운드의 결합제로 사용됩니다.
폴리아미드와 폴리프로필렌의 호환성을 개선하기 위한 호환제로 사용됩니다.
애플리케이션 산업
Automotive sector: A wide range of components, including door panels, bumpers, interior trimmings, and under-the-hood parts, are manufactured in the automotive sector using coupling agents. For demanding automotive applications, its capacity to enhance mechanical qualities and thermal stability makes it perfect.
Electrical and Electronics: Electrical appliances, electronic enclosures, connections, and cable insulation are all made with the coupling agent. It satisfies the demanding standards of the electrical and electronics industries by improving the flame retardancy, mechanical strength, and electrical qualities of polypropylene composites.
Packaging Materials: The production of rigid containers, caps, and closures involves the employment of coupling agents. It ensures dependable packaging solutions by enhancing the impact resistance, stiffness, and environmental stress fracture resistance of polypropylene compounds.
Construction Industry: The coupling agent is used in the construction industry to make fittings, pipelines, roofing membranes, and insulation materials. It gives polypropylene compounds improved mechanical strength, chemical resistance, and dimensional stability, which makes them appropriate for a variety of building applications.
Consumer Goods: The coupling agent is used in the manufacturing of furniture, sporting goods, and home appliances, among other consumer products. The performance and longevity of these goods are improved by its capacity to increase the mechanical characteristics and processability of polypropylene composites.
