エッセンスと特性
ポリカーボネート・プラスチックの用途は?
Polycarbonate is a high-performance thermoplastic famous for its intense impact strength, heat resistance, and optical clarity. It is primarily used for products where high-impact strength is a priority.Polycarbonate has a wide range of applications because of its desirable properties. Some of its applications across different industries are as follows:
- Construction: Used for safety shields and roofing sheets because it is 250 times stronger than glass.
- Automotive: Ideal for headlamp lenses and instrument panels because of its high impact resistance and lightweight.
- Electronics: Used for electrical housings, LED light covers, and more because of its high electrical insulating properties.
- Medical equipment: Its transparency and temperature resistance make it suitable for sterilization.
Consumer goods: Useful for making food storage containers and water bottles.
ポリカーボネートの一般的な欠点は何ですか?
The application of polycarbonate is often limited by its high susceptibility to scratching, sensitivity to certain chemicals, and higher cost.An untreated PC will turn yellow and become brittle when exposed to prolonged UV rays from the sun. Although transparent, PC has lower light transmission (≈88%) compared to acrylic glass (≈92%).
| 特徴 | Drawback |
|---|---|
| Surface | Easily scratched or marred |
| Chemicals | Susceptible to stress cracking |
| Sunlight | Yellows or degrades, unless UV-stabilized |
| コスト | More expensive than acrylic or glass |
| 耐久性 | High expansion or contraction with heat |
PCの物理的特性は?
Some of the physical characteristics of PC include exceptional impact resistance, great thermal stability, and high optical transparency.| Physical properties | 価値 |
|---|---|
| 耐衝撃性 | Extremely high toughness |
| 透明性 | High optical clarity |
| Thermal stability | High transition temperature (T8) around 147°C |
| Dimensional stability | Good stability with low mold shrinkage (0.1-0.2 mm) |
| Electrical properties | Strong electrical insulator |
| 引火性 | Self-extinguishing properties (UL 94 HB to V0-V2) |
| Heat Deflection Temp (1.8 MPa) | 125-135°C |
| Water absorption (24 hrs) | 0.12% – 0.15% |
| Light transmittance | 85% – 90% |
| Tensile strength (yield) | 55 – 75 MPa |
| 密度 | 1.20 to 1.22 g/cm3 |
ポリカーボネートの化学的性質は?
Polycarbonate resists weak acids and mineral oils but is susceptible to strong alkalis, aromatic/halogenated hydrocarbons, and UV degradation.ポリカーボネートは、カーボネート基とビスフェノールA(BPA)残基を持つ非晶質の長い分子鎖から構成されている。PCは非プロトン性溶媒、多くのアルコール、強塩基による加水分解や環境ストレスクラックに非常に弱い。.
PCのガラス転移温度は?
The glass transition temperature (T8) of polycarbonate typically ranges from 140°C to 150°C.The glass transition temperature is the temperature at which the material loses its rigidity and becomes rubbery. Blending PC with ABS lowers its T8 to around 130°C.
PCプラスチックは耐候性に優れていますか?
Yes, PC plastic has good overall weathering properties, especially in relation to temperature resistance, moisture resistance, and impact strength.しかし、屋外で使用されるほとんどの商業グレードのポリカーボネートには、黄変や劣化を防ぐUV安定化コーティングや共押出層が施されている。.
PCは射出成形に適していますか?
Although PC has good properties, it presents injection molding challenges, especially because of its high viscosity and high molding temperatures.Due to its high viscosity, it requires higher molding temperatures, which can add to the injection molding costs. Other key injection molding requirements include:
- Drying: It must be dried before molding to prevent defects like silver streaks, which lower product strength.
- Uniform thickness: Make sure the design has consistent wall thickness to prevent warpage.
PCでよく報告される不具合は何ですか?
Environmental degradation, surface damage, and manufacturing-related flaws like warping are common defects with polycarbonates.- Environmental degradation: long-term exposure of untreated PC to UV radiation can cause yellowing.
- Surface damage: Polycarbonate surfaces can scratch easily during cleaning or handling.
- Manufacturing defects: Inadequate drying before molding can lead to silver streaks, bubbles, or weakened parts.
PCの一般的な産業用途は?
Polycarbonate is widely used in industrial applications because of its exceptional impact resistance, lightweight, and heat resistance.| Industrial applications | Examples |
|---|---|
| Automotive and transport | Headlamp lenses, interior components, exterior components |
| 建設 | Roofing, bullet-resistant windows, sound walls, greenhouses |
| Electronics and electricals | Protective casing, electrical insulation, LED light diffusers |
| メディカル | Face shields, medical equipment, rigid packaging for medical supplies |
| 製造業 | Protective barriers around industrial machinery, helmet, casing for power tools |
分類、等級、マーキング
What are the common grades of PC?
The common grades of polycarbonates include general purpose (GP), machine grade, abrasion or scratch resistant, UV-stabilized, flame retardant, bullet-resistant, glass-filled, and optical grade.| PC grade | 主要特性 | Typical application |
|---|---|---|
| General purpose | Good clarity and high impact resistance | Machine guards and DIY projects |
| Machine grade | High dimensional stability | Medical devices and manifolds |
| Abrasion resistant | Enhanced scratch resistance | Optical disks and windows |
| 耐紫外線 | Do not yellow when exposed to UV | Outdoor signage and skylights |
| 難燃性 | Low flammability and UL94 rated | Electrical housings |
| Bullet resistant | High impact, ballistic performance | Security glazing and bank partitions |
| Glass-filled | High stiffness and low expansion | Machinery housing and automotive parts |
| Optical | High light transmission | Lenses and light reflectors |
What is the PC plastic Resin Identification Code?
Polycarbonate plastics are classified under Resin Identification Code #7.This category is used for all plastic resins that don’t fit into categories 1 – 6, including polycarbonate, nylon, and bioplastics. The purpose of the code is to identify the polymer type for sorting and recycling.
Is polycarbonate (PC) a food-grade plastic?
Some formulations of polycarbonate are considered food-grade and safe for food contact.Food-grade polycarbonate complies with FDA regulations for direct food contact. However, since polycarbonate is made using bisphenol A (BPA), there are health concerns regarding hormone disruption. Consequently, many consumers are always seeking BPA-free alternatives like polypropylene.
How can I improve PC wear resistance?
The best way to improve polycarbonate wear and scratch resistance is by applying hard coatings, adding lubricating additives, or blending with other polymers like PMMA.The different techniques that can be used to improve polycarbonate’s wear resistance are as follows:
- Hard coatings: Apply UV-curable coatings or siloxane-based coatings to create a glass-like, abrasion-resistant surface.
- Silicone-based additives: Add 1-3% silicone additives (like PDMS) to increase internal lubrication and lower the coefficient of friction.
- Polymer blending: Blend PC with 10-20% PMMA to increase surface hardness or with PBT to improve wear resistance.
- Nanocomposite reinforcement: This is the addition of nanofillers (0.5-2% by weight), including alumina, nanosilica, or graphene oxide, to the PC matrix.
- Annealing: Slow heating and cooling can relax the molecular structure to improve impact strength.
- Surface modification: Deposit thin hard coatings on the surface using plasma treatment.
What is polycarbonate plastic modification?
It is the process of enhancing the natural properties of polycarbonate—like transparency, impact strength, and heat resistance—by blending with other polymers, adding agents, or applying surface treatments.The table below shows how the properties of the standard PC compare to the modified version.
| プロパティ | Standard PC | Modified PC |
|---|---|---|
| Scratch resistance | 貧しい | Enhanced with hard-coating |
| UV resistance | Becomes yellow over time | High resistance, stabilized |
| 強さ | 高い | Higher for fiber-filled |
| Chemical resistance | 低~中程度 | Improved with blending |
| 引火性 | Slow-burning | 難燃性 |
How can you identify polycarbonate plastic?
The best way to identify polycarbonates is through their extreme toughness, high clarity, and slight blue tint on cut edges.Some of the key methods used to identify polycarbonate are:
- The edge test: Polycarbonates have a slight blue or dark tint to their edge. On the other hand, acrylic will remain crystal clear.
- The physical strength test: It is nearly impossible to break polycarbonate by hand.
- The burn test: PC produces a yellow flame when burning and emits a significant amount of black smoke. When removed from the flame, it can self-extinguish.
- The acetone test: This is not a definitive test, but applying acetone can sometimes make PC brittle or slightly hazy.
- Density: Pure polycarbonate has a density of 1.20 g/cm3, which is denser than water. Therefore, it will sink when placed in a bowl of water.
比較と選択
What is the difference between PC and acrylic (PMMA)?
Strength and clarity are the two key factors that differentiate Polycarbonate (PC) and acrylic (PMMA). PC has better impact resistance and is suitable for high-temperature applications. On the other hand, acrylic is better for laser cutting and high-gloss aesthetics.| プロパティ | ポリカーボネート(PC) | アクリル(PMMA) |
|---|---|---|
| 衝撃強度 | Extremely high (250x stronger than glass) | High (10-17x stronger than glass) |
| Scratch resistance | Low (scratches easily) | High (harder surface and polishable) |
| Optical clarity | Good (86-88% light transmission) | Excellent (92% light transmission) |
| 柔軟性 | Flexible (can be cold-formed) | Rigid (brittle and breaks if bent) |
| Heat resistance | High (up to ≈ 120°C) | Low (up to ≈ 80°C) |
| 加工性 | Easy (doesn’t crack when drilled) | Moderate (prone to cracking or chipping) |
| UV resistance | Poor to fair (turns yellow over time) | Excellent (naturally UV stable) |
| コスト | より高い | より低い |
What is the difference between PC and PC-ABS?
PC is a pure, transparent, and exceptionally strong plastic. On the other hand, PC-ABS is an engineered alloy that combines PC with acrylonitrile butadiene styrene (ABS) to improve processability, while maintaining high toughness.| 特徴 | ポリカーボネート(PC) | PC-ABS blend |
|---|---|---|
| 構成 | Pure polymer | Blend of PC and ABS |
| 透明性 | Naturally transparent | 一般的に不透明 |
| 衝撃強度 | Extremely high | High (better than pure ABS) |
| Heat resistance | High (up to ~135°C) | Moderate (up to ~100–120°C) |
| Flow | High viscosity (harder to mold) | Better flow (easier to mold) |
| 表面仕上げ | Good (can be textured or glossy) | Superior aesthetics (easy to paint or plate) |
| Shrinkage or warping | Higher shrinkage | Lower shrinkage (better dimensional stability) |
| コスト | 高い | Moderate (lower than pure PC) |
How can you prevent PC from yellowing?
The primary way of preventing polycarbonate from yellowing is by making sure it has a co-extruded UV-protective layer during manufacturing.Other techniques you can use to prevent PC from yellowing include:
- Proper installation: Ensure the side with the UV protection is facing outward.
- Controlled maintenance: Clean with mild soap and water only. Solvents like alcohol and acetone will strip the UV coating.
- Environmental control: Install or store in cooler environments (below 35°C).
- Sacrificial coatings: Use acrylic or silicone-based sprays. Reapply every 1-2 years.
PC vs ABS, which is better?
The best choice will depend on the application, as neither is universally better than the other. PC has superior strength, heat resistance, and transparency, while ABS is better for cost-efficiency, ease of processing, and high-gloss aesthetics.| プロパティ | PC | ABS |
|---|---|---|
| 衝撃強度 | Exceptionally high | グッド |
| Heat resistance | Very high (~135°C) | Moderate (~100°C) |
| 透明性 | 透明 | 不透明 |
| 加工性 | 中程度 | 素晴らしい |
| Chemical resistance | 低い | グッド |
| UV resistance | Good (but needs additives) | Poor (degrades and yellows) |
| コスト | 高い | 低い |
Which is better, PVC or polycarbonate?
Application, budget, and durability requirements are the key factors that will determine the best option to use. PC is superior for applications that need high impact resistance and extreme durability. PVC is a better choice when low cost, strong chemical resistance, and ease of installation are priorities.| プロパティ | ポリカーボネート | Polyvinyl Chloride |
|---|---|---|
| 耐衝撃性 | Excellent (virtually unbreakable) | Moderate (can crack or shatter) |
| 透明性 | High (up to 90%) | Low to medium (translucent) |
| Durability outdoor | 10-20+ years (with UV coating) | 5-10 years (vulnerable to cold and UV) |
| Temperature range | Excellent (-40°C to +120°C) | Good (becomes brittle in cold) |
| Chemical resistance | Moderate (susceptible to some solvents) | Excellent (resistant to acids and bases) |
| 重量 | 非常に軽量 | 軽量 |
| Fire performance | 自己消火性 | Generally lower flame resistance |
| コスト | より高い | Lower (budget-friendly) |
Can polycarbonate be recycled?
Yes, polycarbonate (PC) can be recycled. One of the reasons why it is highly valued is its ability to be reprocessed multiple times without significant quality degradation.PC is either recycled through mechanical methods, where it is shredded, cleaned, and remelted, or via chemical recycling (chemolysis), where it is broken down into raw monomers.
What is the best manufacturing method for polycarbonate?
Injection molding is the best manufacturing method for high-volume, high-precision polycarbonate production.For low-volume prototypes of complex parts, CNC machining may be the preferred method. Other techniques that can be used for shaping polycarbonate include hot forming for sheets and CNC turning or milling for solid shapes. Ensure proper heat control to avoid warping.
コストと供給
Which industry has the highest demand for PC plastic?
The electrical and electronics industry has the highest demand for PC plastic. It accounts for the largest share of global consumption, often exceeding 35-50% of the total market.The high demand for PC in the electrical and electronics industry is driven by the need for durable, heat-resistant, and flame-retardant materials. PC is used in the electronics industry for smartphone and laptop casings, LED light covers, and 5G infrastructure equipment.
Polycarbonate cost vs alternatives
The cost of PC is around 50-75% higher than acrylic, and it has a significantly higher upfront cost than glass. On the other hand, its higher impact resistance provides better long-term ROI in high-stress applications.Below is a brief explanation of how polycarbonate costs compare to other materials.
- Acrylic (plexiglass): It is generally 40-50% cheaper, making it the better choice for budget-sensitive projects.
- Glass: A 4 mm polycarbonate sheet is 30-50% cheaper than tempered glass, if you include installation.
- ABS plastic: Cheaper than polycarbonate, but manufacturers will sacrifice heat resistance and tensile strength.
- Polypropylene: Significantly cheaper than polycarbonate, especially for high-volume manufacturing.
Which country is the highest supplier of PC plastic?
China is the leading producer and consumer of polycarbonate plastic, accounting for a dominant share of global production capacity.China’s installed capacity is expected to increase significantly, growing from roughly 2,320 kilotons in 2021 to around 5,000 kilotons by 2034. Major global manufacturers in Asia with significant production include Covestro, SABIC, Lotte Chemical, LG Chem, and Chimei.
What is the average cost of polycarbonate per square meter?
In 2026, the cost of polycarbonate sheets hovers around $8 to $30 per square meter, depending on the type, thickness, and UV protection.The price of higher-quality solid or multi-wall sheets for specialized applications can range from $15 to over $50 per square meter.
| PC type | Average cost ($) |
|---|---|
| Corrugated sheets (0.8mm – 1.5mm) | 8 – 15 |
| Hollow or twin-wall (4mm – 16mm) | 6 – 25 |
| Solid or compact sheet (2mm – 6mm) | 15 – 50 |
| UV-coated premium sheets | 10 – 28 |
What factors influence the cost of PC plastic?
Polycarbonate cost is determined by a combination of factors. They include raw material volatility, manufacturing complexity, demand, and shipping.Other factors that will influence the cost of polycarbonate include:
- Raw material: Since polycarbonate is derived from bisphenol A and phosgene, its price will be affected by fluctuations in crude oil and natural gas prices.
- Manufacturing: The manufacturing process for PC is complex. The need for optical-grade, high-quality, or food-grade certifications increases costs.
- Specialized coatings: Features like UV protection coatings, scratch-resistant treatments, or anti-glare finishes add significantly to the costs.
- Order volume: Bulk orders (e.g., >100 sq. meters) significantly lower the per-unit price compared to retail.
- Geopolitics and logistics: Disruptions in the global supply chain, such as trade tariffs and transportation bottlenecks, can lead to price spikes.
Does color affect polycarbonate cost?
Yes, the color of polycarbonate significantly affects its costs. Although clear is usually the standard and most affordable option, colored or tinted polycarbonate sheets are more expensive.Opal white and standard bronze or grey hues are common and generally less expensive. On the other hand, custom colors, special tints, or specific metallic finishes (for example, gold or silver mirror) attract higher production costs. Also, only minimum quantities are often needed. The combination of these factors pushes up the price.
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