PLA RFID Cards 100% Biodegradable for Sustainable Applications

Product Details
Customization: Available
Function: Identification, Payment, Encrypt/Decrypt, Information
Type: Smart Card
Still deciding? Get samples of US$ 0.5/Piece
Request Sample
Diamond Member Since 2019

Suppliers with verified business licenses

Audited Supplier

Audited by an independent third-party inspection agency

Number of Employees
8
Year of Establishment
2018-12-13
  • PLA RFID Cards 100% Biodegradable for Sustainable Applications
  • PLA RFID Cards 100% Biodegradable for Sustainable Applications
  • PLA RFID Cards 100% Biodegradable for Sustainable Applications
  • PLA RFID Cards 100% Biodegradable for Sustainable Applications
  • PLA RFID Cards 100% Biodegradable for Sustainable Applications
  • PLA RFID Cards 100% Biodegradable for Sustainable Applications
Find Similar Products

Basic Info.

Model NO.
PLA card
Material
PLA
Read-Write Method
Non-Contact Type
Label Category
Passive
Structure
Read-Write Card
Application Field
Transportation
Power Supply Mode
Passive Card
Frequency
High Frequency
Data Transmission Mode
Parallel, Serial
Color
White, or Customed
Package
200PCS/Box, 1000 Carton
MOQ
100 PCS
Capacity
5000000 Pieces/Month
Lead Time
Normally 1 to 2 Weeks
Lamination
Glossy, Matt, Double-Sided Film
Personalization Available
Magstrip &Chip Encoding/Numbers Printing/Engraving
Operation Frequency
125kHz, 13.56MHz
Printing Methord
Offset/Silk Screen Printng
Transport Package
Box / Carton / Pallet
Specification
85.5x54x0.76mm
Trademark
Wallis
Origin
Shanghai, China
HS Code
8523521000
Production Capacity
5000000 Pieces/Month

Product Description

 

Introduction to Biodegradable RFID PLA Cards

 

With growing environmental concerns and the global movement towards sustainability, the demand for eco-friendly alternatives to traditional products is on the rise. One such innovation is the 100% biodegradable RFID PLA card, a groundbreaking product made from polylactic acid (PLA), an eco-friendly material derived from renewable resources like corn starch and sugarcane. These cards combine cutting-edge RFID (Radio Frequency Identification) technology with sustainable materials, offering an environmentally responsible alternative to conventional plastic cards.

 

 

PLA RFID Cards 100% Biodegradable for Sustainable Applications
PLA RFID Cards 100% Biodegradable for Sustainable Applications

 

 

 

Understanding PLA (Polylactic Acid) as a Material

 

Polylactic Acid (PLA) is a bioplastic made from fermented plant sugars, typically derived from corn or sugarcane. Unlike petroleum-based plastics, PLA is both renewable and biodegradable, breaking down into natural components over time when disposed of properly. It is widely used in packaging, medical devices, and now, in card production.

 

PLA has gained popularity for its eco-friendly properties, as it reduces dependency on fossil fuels and lowers carbon emissions during production. PLA can decompose in industrial composting environments, making it an ideal choice for a greener future.

 

PLA RFID Cards 100% Biodegradable for Sustainable Applications

 

How RFID Technology Works

 

RFID (Radio Frequency Identification) is a technology that allows for the wireless transmission of data between a card and a reader using electromagnetic fields. RFID cards are widely used in various sectors, including payment systems, access control, and supply chain management.

 

An RFID card contains a microchip and an antenna that communicates with RFID readers. When the card is near a reader, the stored data is transmitted wirelessly, enabling fast, contactless interactions.

 

Why Use PLA for RFID Cards?

 

Traditional RFID cards are typically made from PVC, a plastic that is not biodegradable and can take centuries to decompose in landfills. By using PLA for RFID cards, manufacturers can drastically reduce the environmental impact of their products.

 

PLA RFID cards offer the same functionality as PVC cards but with a significantly lower ecological footprint. The material is naturally biodegradable, making it a perfect choice for businesses looking to reduce plastic waste and promote sustainability.

 

Environmental Impact of Traditional RFID Cards

 

Plastic RFID cards, particularly those made from PVC, have a high environmental cost. The production process is energy-intensive, and the disposal of plastic cards contributes to the global plastic pollution problem. With millions of RFID cards used worldwide, the impact is substantial, leading to more waste in landfills and the release of harmful chemicals during degradation.

In contrast, PLA RFID cards are biodegradable and compostable, helping to address the plastic waste crisis.

 

PLA RFID Cards 100% Biodegradable for Sustainable Applications

 

Benefits of Using PLA RFID Cards

 

Sustainability and Reduced Carbon Footprint

 

One of the key benefits of PLA RFID cards is their sustainability. PLA is made from renewable resources and has a lower carbon footprint during production compared to traditional plastics. By choosing PLA, companies can contribute to a cleaner environment and support the reduction of greenhouse gas emissions.

 

Biodegradability and Compostability

 

PLA RFID cards are designed to be biodegradable, meaning they break down naturally without leaving harmful residues. When disposed of properly in industrial composting facilities, PLA cards decompose into water, carbon dioxide, and organic matter, leaving no long-term waste.

 

PLA RFID Cards 100% Biodegradable for Sustainable Applications

 

Applications of PLA RFID Cards

 

Contactless Payments

 

As the world moves towards contactless and digital transactions, RFID cards play a significant role in facilitating fast and secure payments. PLA RFID cards offer a green alternative to plastic cards in the payment industry, helping financial institutions reduce their environmental impact.

 

Access Control and Security

 

Many businesses and organizations use RFID cards for access control and security. By switching to PLA RFID cards, companies can maintain high levels of security while also contributing to environmental sustainability.

 

Public Transport and Ticketing Systems

 

RFID technology is widely used in public transport for ticketing and fare collection systems. PLA RFID cards provide a sustainable option for transport authorities looking to minimize their ecological footprint.

 

 

PLA RFID Cards 100% Biodegradable for Sustainable Applications
PLA RFID Cards 100% Biodegradable for Sustainable Applications

 

 

Comparing PLA RFID Cards with Traditional Plastic RFID Cards

 

 

When comparing PLA RFID cards to traditional PVC cards, it's clear that the former offer significant environmental benefits. Both types of cards function in the same way, but PLA cards are biodegradable, renewable, and have a much lower environmental impact.

 

How to Recycle and Dispose of PLA RFID Cards

 

The best way to dispose of PLA RFID cards is through industrial composting. Many facilities can handle the decomposition process, turning the cards into harmless organic matter. Consumers should be encouraged to check for local composting services that accept PLA products.

 

The Future of PLA in the RFID Card Industry

 

As businesses and consumers become more environmentally conscious, the demand for eco-friendly alternatives will continue to grow. PLA RFID cards are at the forefront of this movement, offering a sustainable solution without compromising on functionality. The future of RFID cards is undoubtedly green, and PLA is leading the way.

 

Conclusion: The Eco-Friendly Choice for the Future

 

In a world where environmental impact is a growing concern, PLA RFID cards present a practical and responsible solution for industries that rely on RFID technology. They are biodegradable, sustainable, and just as efficient as traditional plastic cards. By switching to PLA RFID cards, businesses can reduce their carbon footprint and contribute to a more sustainable future.

 

 

 

 

 

Send your message to this supplier

*From:
*To:
*Message:

Enter between 20 to 4,000 characters.

This is not what you are looking for? Post a Sourcing Request Now
Contact Supplier