Acrylic Glass vs Polycarbonate: Which is Better for Your Needs?

Polycarbonate and Acrylic are among the clearest of all thermoplastics currently available on the market, and are similar in quite a few properties.

The similarities shared between Acrylic Glass vs Polycarbonate means their areas of use sometimes overlap, and it is also because of these similar characteristics and outlook that people have a hard time differentiating between one or the other, and also fail to notice the dissimilarities between them to make an educated, correct choice.

The following article is a brief introduction and comparison of these two excellent materials and how they differ.

What is Acrylic Plastic

Acrylic plastic is a widely used thermoplastic material known for its exceptional clarity, strength, and versatility. From everyday products to industrial applications, acrylic plastic continues to prove its value thanks to its balance of performance and aesthetics.

Key Features of Acrylic Plastic

• Lightweight yet durable: Acrylic plastic offers the perfect balance of strength and agility; it provides 10 times the impact resistance of standard glass while weighing 50% less, making it an ideal choice for durable yet easy-to-install designs.
• High optical clarity: Boasting a light transmittance of 92%, acrylic plastic provides superior optical clarity that surpasses standard glass, ensuring a crystal-clear view without the green tint often found in thicker panes.
• UV and weather resistance: Engineered for exceptional UV and weather resistance, acrylic plastic maintains its structural integrity and pristine clarity even after years of prolonged exposure to harsh sunlight and outdoor elements.
• Easy to fabricate and shape: Highly versatile and easy to fabricate, acrylic plastic can be effortlessly cut, drilled, and heat-bent into complex shapes, offering limitless design possibilities for custom projects.

Common Applications of Acrylic Plastic

• Signage and displays
• Protective barriers and shields
• Automotive and aerospace components
• Furniture and home décor

Types of Acrylic Plastic

• Cast acrylic sheets
• Extruded acrylic sheets
• Impact-modified acrylic
• Specialty acrylics

What is Polycarbonate Plastic

Polycarbonate plastic is a high-performance engineering thermoplastic renowned for its extraordinary impact resistance, heat tolerance, and transparency. Its unique balance of strength and versatility makes it a trusted material across demanding industries.

Key Features of Polycarbonate Plastic

• Exceptional impact resistance: Virtually unbreakable, polycarbonate provides 250 times the impact resistance of glass and 30 times that of acrylic. It is engineered to withstand extreme force and heavy-duty use without cracking, making it the ultimate safety material for high-risk environments.
• High heat resistance: Polycarbonate maintains its structural integrity in temperatures ranging from -40°C up to 130°C. With a significantly higher melting point than most plastics, it is inherently flame-retardant and safe for use in high-heat industrial environments.
• Optical-grade transparency: Engineered with optical-grade clarity, polycarbonate offers up to 88% light transmittance and minimal visual distortion. It provides the crystal-clear transparency required for precision lenses and high-visibility guards, while remaining 250 times stronger than glass.
• Good dimensional stability: Polycarbonate offers excellent dimensional stability, maintaining its precise shape and size under varying loads and temperatures. Its low shrink rate ensures consistent, tight-tolerance performance for complex engineering parts.
• Flame-retardant properties: Polycarbonate is inherently flame-retardant with a high ignition temperature of 450°C and often meets UL94 V-0 safety standards. It self-extinguishes upon fire removal and does not contribute to flame spread, making it ideal for electrical and public safety use.

Common Applications of Polycarbonate Plastic

• Safety glazing and bullet-resistant windows
• Electronic housings
• Medical devices
• Automotive components
• Lighting lenses

Types of Polycarbonate Plastic

• General-purpose polycarbonate
• UV-stabilized polycarbonate
• Flame-retardant polycarbonate
• Glass-filled polycarbonate

Acrylic Glass vs Polycarbonate

Polycarbonate is often compared to Acrylic among other plastics and below is a brief comparison of how the properties of these two plastics differ  in the context of Acrylic Glass vs Polycarbonate.

Please note that all of the information and properties listed below only fits sheets made from 100% Virgin Material. Polycarbonate sheets made with recycled material are very prone to yellowing and breaking. As for Acrylic, some unscrupulous manufacturers add either melamine or polyester resin to lower costs; what people don’t know is that these additives lower the clarity (yellowing) and lifespan of the Acrylic.

---

Strength

Acrylic and Polycarbonate are both half the weight of glass and yet both of these plastics are much stronger than glass. Acrylic has 17 times the impact resistance of glass. Polycarbonate has 250 times the impact resistance of glass and 10 times over FRP. Acrylic is very rigid whereas polycarbonate can be bought in flexible grades. Acrylic cracks more easily than polycarbonate under stress.

Light & Clarity

Acrylic has slightly better clarity than glass, with a light transmittance of 92%. Polycarbonate has a light transmittance of 88%, though the same clarity can be achieved with the help of post processed coating. It must be noted that for greenhouse applications, the light diffusing properties of polycarbonate actually benefits vegetation because direct sunlight creates burning effects.

Acrylic can be polished to restore its clarity, while polycarbonate cannot. I would argue that when used as roofing applications, cleaning with water from afar is already a burden in the desert, let alone climbing up to polishing the surface, so there’s no real advantage with this comparison.

Climate

In the recent past, most greenhouses were constructed using twin-wall plastics with polycarbonates being the most common types of plastics being used in the agricultural industry. This is mainly due to the better insulation properties it has to offer.  Polycarbonate sheets have good insulation properties. They are neither affected by the fluctuating environmental temperatures nor the humidity.

Read more: Polyvinyl Chloride Greenhouse vs Polycarbonate: Which is Best?

Feature	Acrylic Glass	Polycarbonate
Weight	Half the weight of glass	Half the weight of glass
Strength	17 times more than glass	25 times more than glass10 times over FRP
Rigidity	Very rigidCracks more easily under stress	Available in flexible gradesLess prone to cracking
Clarity	92% transmittance	88% transmittance
Maintenance	Can be polished to restore clarity	Cannot be polished
Greenhouse Benefit	Clear transmittance	Light Diffusing propertiesPrevent burning of vegetables
Climate & Insulation	Standard	Better insulation

Working with Acrylic Glass vs Polycarbonate

Acrylic can be used at temperatures ranging from -34°C (−29.2 °F) to 88°C (190 °F). It may expand and contract with changes in temperature although it won’t permanently shrink over time. Polycarbonate can handle temperatures ranging from −40 °C (−40 °F) to 115–130 °C (239–266 °F). Polycarbonate is also highly resistant to chemicals such as gasoline and acids.

Cutting

Both acrylic and polycarbonate can be cut with conventional tools such as saws or routers, though acrylic cuts easier than polycarbonate. Polycarbonate fights the initial push of a saw or router at the start of a cut.

Read more: How to Cut Polycarbonate Sheets: Tips, Tools, and Techniques

Drilling

Acrylic will crack if it is drilled near an edge or with a drill bit not designed for plastic. Polycarbonate typically does not crack when being drilled even if drilled close to the edge with a standard drill bit.

Polishing

The edges of acrylic can be polished smooth if necessary; polycarbonate cannot be polished.

Heat bending

Heat bending works better with acrylic than polycarbonate. Polycarbonate can be cold formed or bent without heating.

Gluing

Gluing with cements designed for acrylic and polycarbonate, acrylic gives a cleaner glue joint than polycarbonate.

Cleaning

Both acrylic and polycarbonate are easy to clean. The best choice for cleaning is a microfiber or 100-percent cotton cloth. Acrylic has a low chemical resistance and needs more specific cleaners. When cleaning acrylic, it is best to use only mild soap and water or a plastic cleaner. Polycarbonate has a higher chemical resistance than acrylic; harsher cleaners containing chemicals such as ammonia can clean it. Neither plastic should be cleaned with solvents.

Read more: How to Clean Polycarbonate Roof

Durability

Both acrylic and polycarbonate are weather resistant and expand and contract with temperature changes without long-term or permanent shrinkage. Both acrylic and polycarbonate can scratch, so wool rags and paper towels, which are made from abrasive binding agents, should be avoided. Acrylic is more likely to chip than polycarbonate because it is less impact-resistant. It does not scratch easily, however, and will not yellow over time.

However, with current technology and advanced UV coating, polycarbonate sheets can last more than 10 years under extreme conditions. Polycarbonate sheets have low flammability and are self-extinguishing, while acrylic will burn slowly and is not recommended in areas where flames may be present.

FAQs for Acrylic Glass vs. Polycarbonate

While they may look similar, acrylic and polycarbonate offer unique advantages in terms of impact resistance and optical clarity. This FAQ guide breaks down everything you need to know about these two versatile plastics.

Q1. Which is better: polycarbonate or acrylic?

The choice depends on your specific needs: Acrylic glass is the superior option for aesthetics, offering 92% optical clarity and a polishable surface that resists yellowing. However, Polycarbonate is the ultimate choice for safety and toughness, providing 250 times the impact resistance of glass and better thermal insulation for demanding environments.

Q2. Is Polycarbonate safer than Acrylic for public spaces?

Generally, yes. Polycarbonate is virtually unbreakable and does not shatter into sharp pieces. Additionally, it has better flame-retardant properties (self-extinguishing), making it a safer choice for electrical enclosures and high-traffic public areas.

Q3. Which is easier to bend or shape for custom designs?

It depends on the method. Acrylic is easier to heat-bend and laser-cut for a polished edge. However, Polycarbonate is unique because it can be cold-curved (bent without heat) on-site, offering more flexibility for curved architectural structures.

Making the Right Choice: Acrylic Glass vs. Polycarbonate

When it comes to Acrylic Glass vs Polycarbonate, there is no clear-cut winner — each material excels in its own way. 

Acrylic Glass delivers exceptional optical clarity and a sleek, polished finish, making it perfect for applications where aesthetics and visual appeal matter most. In contrast, Polycarbonate provides superior impact resistance and remarkable toughness, making it the go-to choice for environments that demand maximum strength and durability. 

Ultimately, it’s all about choosing the material that best fits your unique needs. If you have any questions, contact us today to discuss which material is right for your project and get expert advice tailored to you.

Related articles:

How to Choose the Right Polycarbonate Roof Sheet Colours?

Essential Guide to Outdoor Polycarbonate Roofing Design Ideas!

Installing Polycarbonate Roofing: The Complete Installation Guide