1、2026

改性聚碳酸酯是指在基体材料聚碳酸酯（PC）的基础上，通过共混、填充、增强、阻燃、合金化等手段，使其物理性能、机械性能、热性能、阻燃性能或加工性能等得到显著提升的工程塑料。 由于未改性聚碳酸酯在耐热性、尺寸稳定性、阻燃性或耐候性等方面存在一定限制，改性技术使其能够更好地满足不同领域的高性能需求。 图1. 改性聚碳酸酯产品图片. 改性聚碳酸酯通常通过添加玻璃纤维、阻燃剂、抗UV剂、增韧剂、矿物填料，或与其他高分子材料合金化来实现性能优化。 改性后的聚碳酸酯材料在强度、韧性、耐候性、电气性能和阻燃等级方面具有显著提升，广泛应用于电子电器、汽车、建筑、医疗和光学等领域。 改性聚碳酸酯行业技术门槛较高，涉及高分子材料配 …

2、PC改性塑料

聚碳酸酯（Polycarbonate）是一种无色透明的无定性热塑性材料。 由于其无色透明和优异的抗衝击性，常见的应用有CD/VCD光碟、桶装水瓶、婴儿奶瓶、树脂镜片、防弹玻璃、车头灯罩、动物笼子、行李箱、登月太空人的头盔面罩；智慧型手机的机身外壳等等。

3、SABIC

LEXAN BX72141 modified Polycarbonate (PC) resin is an an enhanced performance & processability grade that can be injection molded. This non-chlorinated, non-brominated flame retardant impact modified PC has a UL V0 & 5VA/B flame rating.

4、Modified polycarbonate_化工百科

Modified polycarbonate ... Modified polycarbonate - 简介 改性聚碳酸酯是一种聚合物材料，它的性质可以通过调整其成分和结构来实现。 一般来说，改性聚碳酸酯具有以下性质： 强度和刚性：改性聚碳酸酯具有较高的强度和刚性，使得它在工程领域中广泛应用。

LEXAN™ Copolymer ML0992

LEXAN ML0992 is a translucent impact modified polycarbonate injection molding (IM) grade with release properties. This resin offers good low temperature ductility in combination with medium flow characteristics, excellent surface aesthetics, excellent knit line strength, and excellent processability with opportunities for shorter IM cycle times ...

改性聚碳酸酯

ChemicalBook 为您提供改性聚碳酸酯的化学性质，熔点，沸点，密度，分子式，分子量，物理性质，毒性，结构式，海关编码等信息，同时您还可以浏览改性聚碳酸酯产品的价格，供应商，贸易商，生产企业和生产厂家，最后改性聚碳酸酯的中文，英文，用途 CAS cas number cas no可能也是您需要的。

Modified Polycarbonate PC Resin, Excellent Chemical Resistance

To further enhance our R&D capabilities and the cost-effectiveness of materials, ZEICIN Plastic has gradually evolved from a single cleaning and crushing business into a comprehensive enterprise integrating recycling, sorting, cleaning, modified granulation, R&D, fully automated equipment, and sales.

Solution blending, casting, thermo

The research found that incorporating polycarbonate into epoxy resin significantly enhances mechanical and thermal properties, with the best results observed at 7.5 and 10% polycarbonate concentrations. These blends demonstrated improved tensile strength, impact resistance and thermal stability.

Modified Polycarbonate/ABS/PC

Samtion Chemical Offer: Modified Polycarbonate (PC)/PC ABS/ABS Plastic Material Granules. We Can Customize The Physical Properties of The Product According to All Your Needs.

Impact Modified S

S-Plastics Lexan PC is a family of polycarbonate (PC) resins produced by the S-Plastics company.Lexan polycarbonate is available in a range of grades that are tailored to specific applications, such as high-impact resistance, UV stability, and flame retardance.

Modified Polycarbonate Resin: Exploration and Application of a High-Performance Material

In modern industry, the performance of materials determines their versatility and effectiveness in applications. Polycarbonate resin, as a traditional synthetic polymer material, has been widely used in various fields due to its excellent mechanical properties, chemical stability, and cost-effectiveness. with advancements in technology and societal development, the demands for material performance have increasingly grown. Single-component polycarbonate resin can no longer meet all application requirements. Consequently, modifying it has become an important yet challenging topic. This paper explores the concept, classification, and applications of modified polycarbonate resin in various fields.

1. Concept and Importance of Modified Polycarbonate Resin

Modified polycarbonate resin refers to a composite material whose specific properties are enhanced by adding particular chemicals or altering its molecular structure. Such materials typically exhibit higher strength, better wear resistance, superior heat resistance, and improved corrosion resistance. These characteristics offer broad application prospects in many fields. For example, in aerospace, automotive manufacturing, and construction, modified polycarbonate resin provides lighter, stronger, and more durable material options.

2. Classification of Modified Polycarbonate Resin

1. Thermoplastic Modified Polycarbonate Resin: This type softens when heated to a certain temperature and returns to its original state upon cooling. Common examples include polyethylene (PE) and polypropylene (PP). These materials have good processability, ease of molding, and relatively low costs.
2. Thermosetting Modified Polycarbonate Resin: This type undergoes a chemical reaction upon heating to form a stable solid structure. Examples include epoxy resins and polyurethanes. These materials offer high mechanical strength and chemical resistance but are more difficult to process and costly.
3. Blend-Modified Polycarbonate Resin: This type is created by mixing polycarbonate resin with other materials to form new composites. Common blends include polycarbonate-polyamide combinations. These materials leverage the优势互补 (complementary advantages) of different materials to enhance overall performance.

3. Applications of Modified Polycarbonate Resin

1. Aerospace: Due to its lightweight and high-strength properties, modified polycarbonate resin is widely used in critical components such as aircraft fuselages and engine parts. For instance, carbon fiber-reinforced modified polycarbonate resin composites improve structural strength and rigidity, reduce weight, and enhance fuel efficiency in aviation.
2. Automotive Industry: In car manufacturing, modified polycarbonate resin is primarily used for body shells, chassis, and suspension systems. These components require high strength, rigidity, and impact resistance to ensure safe operation under complex road conditions.
3. Construction: Modified polycarbonate resin is employed in exterior decorations, flooring, and ceilings due to its excellent corrosion and wear resistance. It is also used in infrastructure such as bridges, tunnels, and ports.
4. Electronics and Appliances: In electronics, modified polycarbonate resin is used for circuit boards, casings, and heat sinks. These components demand good electrical insulation, thermal conductivity, and dimensional stability to ensure proper device function.
5. Biomedical Field: Modified polycarbonate resin, thanks to its biocompatibility and degradability, holds vast potential in biomedicine. Examples include artificial joints and bone defect repair materials.

As a high-performance material, modified polycarbonate resin demonstrates significant potential and value across various fields. Through in-depth research and development, its application scope can be further expanded, contributing more to human society’s progress.