Linear Polarizer Film Sheets & Rolls - Online Wholesale Supplier
Looking to buy linear polarizer film for optical, industrial, or DIY applications? 3Dlens offers a full range of linear polarizer film sheets and rolls in multiple sizes, available with or without self-adhesive backing. Whether you need small cut sheets for prototypes or large rolls for production, we provide high-quality polarizer film with excellent light transmission and polarization efficiency. Purchase linear polarizer film online at wholesale prices, backed by global shipping and professional service.
Our online store offers pre-cut linear polarizing film sheets in various sizes (A4 ~ A1) with superior extinction ratio and high transmittance for wavelengths between 400 – 700 nm. These films are ideal for optical experiments, LCD applications, and industrial use.
Structure & Durability
The film consists of three layers: a PVA (Polyvinyl alcohol) polarizing membrane and TAC (Tri-acetate cellulose) support layers on both sides. The material is resistant to fading under normal light exposure and has a typical lifespan of 10 years at room temperature and humidity.
3Dlens linear polarizer film has passed a 60 °C / 90 % RH / 500-hour durability test, making it a reliable alternative to Polaroid film and 3M HN38 & HN42. Optional self-adhesive backing or release film is available.
Applications
High contrast linear polarizing film is suitable for a wide range of uses, including:
3D glasses and polarized sunglasses
Polarizing microscope, camera filters, studio lights
Polariscope and photoelastic stress analysis
LCD displays, Nintendo Gameboy, STN black & white monitors
DIY experiments, photography, 3D printer optics, elctronic instrument
We supply 0° and 90° linear polarizer sheets to customers in the United States, Canada, Italy, France, Germany, United Kingdom, Denmark, Finland, India, Australia, and more.
Easy to Cut & Compliance
The sheets can be easily cut with scissors, knives, or paper cutters. All films are RoHS compliant.
HS Code: 9001.20.00.00 – Sheets and plates of polarising material
Common Specifications of Linear Polarizer Film
Material: PVA & TAC plastic
Color: Neutral gray
Single Transmittance: 42 ± 2 %
Crossed Transmittance: ≤ 0.005 %
Extinction Ratio: ≥ 8000 : 1
Feature: High contrast
Polarizing Efficiency: 99.9%
Wavelength Range: 400 – 700 nm
Humidity Resistance: 60 °C / 90 % RH / 500 hrs test passed
Heat Resistance: 80 °C / dry / 500 hrs test passed
Operating Temperature: −30 °C to 80 °C
Protective Film: Both sides
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Polarizer film is an interesting optical technology. Whether you’re looking at your smartphone, watching 3D movies through a pair of polarized 3D glasses, or do a laboratory experiment, there’s a polarizing film is silently doing its job.
Since Polaroid company earliest invention, polarizing filters have played an important role. In this guide, we will take a look at what polarizers are, how the films made.
We’ll also cover common uses (from LCD repair to optical instruments) and answer some frequently asked questions to help you understand how high-quality polarizing filters can improve clarity, reduce glare.
Polarizer film, often called a polarizing film sheet, Polaroid filter, or simply “polarizer,” is a special type of optical filter that allows light waves of only a specific polarization to pass through. What a polarizer does is block out certain orientations or angles of light wave vibration so that only one preferred orientation can pass.
• Polarizing effect:
By controlling the direction of light waves, polarizing films help reduce reflections and glare. That’s why it’s commonly found in sunglasses, camera lenses, and industrial inspection tools.
• Accessibility:
Plastic polarizing films are usually less expensive than polarizing films made of glass or crystal. Due to their low price, they have become a major component of consumer electronics such as mobile phone, LCD displays, and simple calculator.
The first polarizing filter was invented by Polaroid company in 1928. The invention was revolutionary at that time, athough nearly a century has passed, its principles and structure remain similar.
Today, polarizing films are manufactured in large quantities for use by a wide range of companies and consumer electronics manufacturers.
What is Polarized Light?
Sinlight is essentially an electromagnetic wave that can vibrate in multiple direction. However, polarized light vibrates primarily in one direction.
• Unpolarized light:
A beam of light, electric field vibrates at all possible angles perpendicular to the direction of propagation.
• Linearly polarized light:
The electric field vibrates in only one direction, which is a phenomenon produced when unpolarized light passes through a polarizing film.
One of advantages of using a polarizing filter is the reduction of reflections and glare. You can selectively block or transmit certain polarized reflections, which is why polarizers are widely used in photography, sunglasses, and laboratory applications.
Types of Polarizer Films: Iodine vs. Dye-Based
Currently, the most common polarizers on the market are mainly divided into two categories: iodine-based polarizing films and dye-based polarizing film.
1. Iodine Polarizing Film
◦ High contrast: These films typically have higher contrast and better light transmission than dye-based polarizers.
◦ Cost-effective: Iodine-based polarizers are generally inexpensive, and widely available and suited for general consumer applications such as LCD displays of electronic devices
2. Dye-Based Polarizing Film
◦ Superior durability: Dye-based films generally have better resistance to heat and moisture in harsh environments.
◦ Applications: Due to their durability, these high temperature resistant polarizer films are often used for marine, automotive, or aerospace displays that may be exposed to harsh conditions.
Materials Used in Polarizing Film Sheet
When considering available polarizers, you’ll see materials like glass, acrylic, or plastic. Glass polarizers can be precise but with a higher price and more fragility. In fact, plastic polarizing film usually made of polyvinyl alcohol (PVA) is the most common type
• Plastic Polarizers:
Affordable, flexible, easy to cut, suitable for mass production. Widely used in consumer electronics and daily necessities.
• Glass Polarizers:
Offers greater stability and higher optical quality, but is more expensive. It is often used in scientific instruments that have high requirements on lifespan and precision.
• Crystal or Acrylic Polarizers:
They have unique optical properties and are sometimes used in specialized applications such as advanced polarization measurements.
The Role of Protective Film and Additional Treatments
A linear polarizer film can be quite delicate. To protect the polarizing plate surface from scratches and environmental hazards, it’s common to have a protective film on top. Consumers often must remove this protective film when ready to use the polarizer’s capabilities. Beyond this, manufacturers may apply additional treatments:
• Adhesive coating:
Many commercial polarizers come with a built-in adhesive (like the difference between P620 and P620A or between P200 and P200A) for convenient application in LCD repairs or craft projects.
• Antiglare coating:
These coatings reduce reflections and increase clarity, which is especially useful for outdoor displays or high-end optics.
• Other surface treatments:
May include ultraviolet (UV) blocking or specialized color filters integrated with the polarizer.
These enhancements extend the life of polarizers, especially in harsh environments such as automotive dashboards or outdoor measurement equipment.
Manufacturing Process of Plastic Polarizers
The manufacturing of plastic polarizers is a tightly controlled process. The following is a description of the thin film manufacturing process from raw materials to optical filters:
1. Starting with PVA:
Polyvinyl alcohol film (PVA) is the foundational substrate.
2. Swelling:
The PVA film is soaked or ‘swollen’ in water or another solution, making it receptive to iodine or dye.
3. Immersion in Iodine or Potassium Iodide:
The film is placed in a bath containing a dichroic dye—often an iodine and potassium iodide solution.
4. Stretching:
The film is stretched, aligning the molecular chains in a single orientation. The more precise and extensive the stretch, the higher the optical quality of the final polarizer.
5. Drying:
Once the film has absorbed the iodine (or dye), it’s dried. This step transforms the film into a polarizing layer with those iconic dark parallel lines at the microscopic scale.
6. Mounting on TAC:
Because PVA by itself can be quite fragile, the film is laminated onto a Tri-acetate cellulose (TAC) or a similar layer for stability.
7. Additional Treatments:
Adhesive backing, anti-scratch coatings, anti-reflection layers, or other specialized finishing steps may be applied.
When the film is ready for the consumer or manufacturer, the film can be rolled, cut into sheet type to ensures that each polarizing film offers reliable quality.
Polarizers in Technology
You’ll notice polarizer films are virtually everywhere. Some of the most common examples include:
• LCD Displays:
From your wristwatch to your notebook, TV, liquid crystal displays rely on polarizers to generate images with clarity and contrast.
• Smartphones and Tablets:
The reason you can see your phone’s screen at various angles due to the presence of polarizing layers.
• 3D Movie Glasses:
These glasses use pairs of polarizers to separate left eye and right eye images to that immersive 3D viewing experience.
• Polarized Sunglasses:
By blocking intense sunlight reflecting off water or roads and reduce eye strain and enhance visibility.
• Camera Lenses and Photography:
Photographers often use a circular polarizing filter to deepen the sky color, reduce reflections on and improve image quality.
• Scientific and Industrial Instruments:
Engineer use polarizer to analys photoelastic stress analysis of plastic. Through the analysis of polarized light patterns, they assist in material investigation.
So, while the raw material seems specialized, its from fun recreational uses (like 3D movies) to critical scientific and industrial roles.
Real-Life Uses and Customer Feedback
Repairing LCD Modules and Screens
One of the most common do-it-yourself (DIY) uses for polarizing film is repairing old or damaged LCDs. This could be a vintage gaming console display, a car odometer, or even a classic handheld game. With a new linear polarizer film—often one that includes an adhesive backing—you can remove the scratched or faded original polarizer and replace it to restore clarity.
Customer experiences demonstrate how crucial a good polarizer can be: • Bob (Australia): “These polarizer sheets arrived packed very securely so they could not get warped in the post. I’m hoping I can use them to repair an old graphics LCD module if I can get the residue of the old polarizers off it.” • Rob G (Australia): “The linear polarising film you kindly sent me worked perfectly to repair the digital display on my motorbike.”
Artistic Applications
Artists, designers, and DIY enthusiasts also harness polarizing films for creative projects, including making polarized light art installations and dynamic color-shifting pieces. • Austine (USA): “Your polarizing film is higher contrast and works better for the art.”
Scientific and Educational Tools
Polarizers are used in schools and university labs for teaching optics, wave theory, and for performing experiments related to polarized light, reflection, and refraction. • Andres (Spain): “I purchased your linear polarizer. They work very well in a polarizing microscope.”
Industrial and Professional Usage
In professional settings, polarizers help analyze stress patterns in transparent materials, filter out unwanted reflections during machine vision inspections, and are often integrated into specialized instrumentation. • Neil (USA): “Your polarizer film has excellent extinction and transmission properties and appears to be a cost-effective solution for its size and price compared to Polaroid HN22 product.”
These real-world reviews highlight just how varied and essential polarizer films can be, showing up in everything from personal repair jobs to advanced optical instruments.
Frequently Asked Questions (Q&A)
Can I cut linear polarizer film to custom sizes?
Yes. Linear polarizer film sheets and rolls can be easily cut with scissors, knives, or cutters to fit your specific project requirements. For large production needs, custom cutting services are also available.
What’s the difference between adhesive and non-adhesive polarizer film?
Adhesive polarizer film has a self-adhesive backing, making it easier to apply to surfaces like glass, plastic, or acrylic without additional glue. Non-adhesive film is ideal when you need flexibility for temporary or experimental setups.
Do you offer wholesale prices for bulk orders?
Yes. 3Dlens provides competitive wholesale pricing for bulk quantities of linear polarizer film. Contact us for volume discounts and global shipping options.
I want to do an inversion of the display on my vehicle’s monochrome LCD. Which film do I need?
For a high-quality inversion, you generally require a linear polarizer film. You can either choose an adhesive-backed version or a non-adhesive version depending on your repair method. Having the adhesive can simplify installation if the existing polarizer is directly glued onto the LCD.
What is the difference between P620 and P620A polarizer film?
The only difference lies in whether there’s an adhesive backing. P620 typically has no adhesive, while P620A includes an adhesive layer to facilitate easy attachment during repairs or projects.
I’m looking to replace the reflector film and the polarizer on my old Nintendo Game & Watch. Which model should I select?
If you need to repair the screen, consider using P200A for the front (an adhesive polarizer) and RP200A (also with adhesive) for the back as the reflector film. If you prefer a film without any adhesive, the equivalent versions would be P200 and RP200.
Additional Considerations in Selecting a Polarizer
When choosing a polarizer for your specific application, you might consider:
1. Transmission vs. Extinction Ratio
◦ A polarizer’s effectiveness is determined by how well it transmits the polarized light you want while blocking the rest.
◦ The extinction ratio measures how little of the unwanted polarization gets through. A high extinction ratio usually means a higher contrast or deeper blacks on an LCD.
2. Adhesive vs. Non-Adhesive
◦ If you’re repairing an LCD screen or a device that already has a well-defined place for the polarizer, an adhesive layer can be extremely handy.
◦ However, if you need flexibility for repeated experiments or you’re crafting an art piece where you want to reposition the film, a non-adhesive version might be better.
3. Durability Requirements
◦ If the film will be exposed to sun, heat, and high humidity, a dye-based polarizer might hold up better in the long run.