Cellophane Film: The Transparent Revolution in Packaging Materials

April 1, 2025

History and Evolution of Cellophane Film

1. The Birth of Transparent Packaging

Swiss chemist Jacques E. Brandenberger invented cellophane in 1908 while attempting to create spill-proof tablecloths. This serendipitous discovery revolutionized packaging with its unique combination of transparency and moisture resistance.

2. Commercial Breakthrough

1924: DuPont acquires US manufacturing rights
1930s: Moisture-proof version developed
2023: Global market value reaches $1.2 billion

Manufacturing Process Demystified

1. Raw Material Preparation
Cellophane film derives from cellulose sources:

Wood pulp (60%)
Cotton linters (25%)
Hemp (15%)

2. Viscose Process

Alkali treatment: 18-20% NaOH solution
Aging: 48-72 hours oxidation
Xanthation: CS₂ gas treatment
Dissolving: Creates viscose solution

3. Film Formation

Casting thickness: 20-50μm
Regeneration bath: H₂SO₄ + Na₂SO₄
Drying temperature: 60-80°C

Technical Specifications and Variants

1. Physical Properties

Property	Value Range
Tensile Strength	50-100 MPa
Oxygen Barrier	0.5-3 cm³/m²/day
Water Vapor Transmission	10-50 g/m²/day

2. Common Modifications

PVdC-coated: Moisture resistance ↑300%
PLA-laminated: Biodegradation time ↓6months
Metallized version: UV protection 99%

Industrial Applications

1. Food Packaging

Confectionery: 30% moisture retention
Meat products: Extends shelf life by 40%
Baked goods: Reduces staling rate 25%

2. Pharmaceutical Use

Blister packs: 0.03mm thickness standard
Medical device packaging: Sterility maintenance >5 years
Desiccant integration: RH control <10%

Environmental Impact Analysis

1. Biodegradation Process

Degradation Timeline:

Initial breakdown: 28-42 days

Complete mineralization: 90-180 days

Life Cycle Assessment

Carbon footprint: 2.3 kg CO₂/kg vs Plastic 3.8 kg

Water consumption: 180 L/kg

Energy use: 50 MJ/kg

Future Development Trends

1. Nanocellulose Enhancement

Strength increase: 200% with 5% NFC addition
Barrier improvement: OTR reduced to 0.1 cm³/m²/day

2. Smart Packaging Integration

pH-sensitive films: Color change at spoilage
RFID embedding: 0.02mm thick antennas
Antimicrobial coatings: 99.9% bacterial reduction

Dennis

Hi, I'm the author of this post. We have 22 years of experience in the manufacturing and supplying of flexible packaging films. We have helped over 400 customers in over 30 countries with high-quality plastic film products such as BOPP, BOPET, BOPA, CPP film, etc., which are widely used in plastic flexible packaging and paper-plastic composites, graphic. If you have any requests, get in touch with us for free quote and one-stop solution for your market.

Get In Touch

Welcome To Share This Page：