Was ist PVDF?

Was ist PVDF?

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In the realm of materials science and engineering, PVDF stands as an acronym shrouded in both mystery and fascination. PVDF, short for Polyvinylidene Fluoride, is a remarkable polymer that has found its place in an array of industries and applications. This article delves deep into the world of PVDF, offering a comprehensive overview of its properties, historical development, and its multifaceted utility.

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Was ist PVDF?

PVDF, or Polyvinylidene Fluoride, is a high-performance thermoplastic polymer characterized by its remarkable combination of chemical resistance, mechanical strength, and thermal stability. It is derived from vinylidene fluoride monomers, which undergo polymerization to form this unique material.

Chemische Struktur und Eigenschaften

PVDF’s molecular structure is predominantly composed of carbon (C) and fluorine (F) atoms, which contribute to its exceptional chemical inertness. The repeating CH2-CF2 units along its polymer chain make PVDF highly resistant to corrosive chemicals, UV radiation, and harsh environmental conditions.

One of PVDF’s standout properties is its piezoelectricity. This means that when subjected to mechanical stress or pressure, PVDF generates an electric charge. This property finds extensive use in sensors, actuators, and various electronic applications.

Physical Characteristics

PVDF is known for its semi-crystalline nature, resulting in excellent mechanical strength and stiffness. It boasts a wide range of working temperatures, from as low as -40°C to as high as 150°C, making it suitable for both cryogenic and high-temperature applications.

The material is available in various forms, including sheets, films, fibers, and powders, enabling its versatile use across industries.

Historical Overview

The history of PVDF dates back to the mid-20th century when it was first developed by research chemists exploring new materials with exceptional properties. Here is a brief historical overview of PVDF’s development and milestones:

Early Discoveries

  1. 1940s – Initial Research: The first steps towards PVDF’s discovery were taken in the 1940s when vinylidene fluoride (VDF) monomers were synthesized and identified as potentially interesting compounds.

  2. 1950s – Polymerization: During the 1950s, researchers successfully polymerized VDF monomers, leading to the creation of the PVDF polymer. Its unique properties, including its high thermal stability and chemical resistance, were soon recognized.

Commercialization and Applications

  1. 1960s – Commercialization: In the 1960s, PVDF started to gain commercial significance as its manufacturing processes were refined. Companies began producing PVDF materials in larger quantities.

  2. 1970s – Expansion into Industries: The material’s outstanding properties led to its adoption in various industries, including aerospace, electronics, and chemical processing.

Modern Applications

  1. 1990s and Beyond: PVDF’s versatility continued to drive its adoption in emerging technologies. It became a cornerstone material in the development of lithium-ion batteries, water purification membranes, and architectural coatings.

Today, PVDF continues to play a pivotal role in materials science and engineering, with ongoing research pushing the boundaries of its applications.


PVDF, or Polyvinylidene Fluoride, is a remarkable polymer that has evolved from its early discovery to become a cornerstone material in various industries. Its unique combination of properties, including chemical resistance, piezoelectricity, and thermal stability, has led to its widespread adoption. This article has provided an insight into PVDF’s chemical structure, properties, and historical development, setting the stage for a deeper exploration of its applications and future potential.

Häufig gestellte Fragen (FAQ)

1. What are the key properties of PVDF?
PVDF is known for its exceptional chemical resistance, mechanical strength, thermal stability, and piezoelectricity. These properties make it highly versatile in various applications.

2. What is the chemical structure of PVDF?
PVDF consists of repeating CH2-CF2 units in its polymer chain, with carbon (C) and fluorine (F) atoms, contributing to its chemical inertness.

3. In which industries is PVDF commonly used?
PVDF finds applications in a wide range of industries, including aerospace, electronics, chemical processing, water purification, architecture, and more.

4. What is the historical background of PVDF?
PVDF was first developed in the mid-20th century, with significant advancements in the 1950s and 1960s. Its commercialization and widespread use began in the 1970s, and it continues to evolve in modern applications today.

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