Our diverse range of filter media is designed to cater to the evolving needs of multiple industries, delivering exceptional efficiency and reliability.
At our own research and development centres we leverage our expertise, experience, and innovative ideas to develop top-tier solutions for filter media made from meltblown, electrostatic, thermo-bonded and cellulose nonwovens. With our specialized solutions, you can ensure optimal performance and trust that you have the best materials for your air filtration applications.
Meltblown Nonwoven, Tribo-Electric Nonwoven & Thermo Bonded Nonwoven
We produce meltblown and triboelectric nonwoven media for pocket and pleated filter - with a broad filter media portfolio according to EN779:2002, EN779:2012, ISO 16890, and ASHRAE.
Meltblown Combinations and Triboelectric Nonwoven with Activated Carbon
GESSNER’s filter media solutions for air pollution control are made of meltblown nonwoven, thermo-bonded nonwoven or cellulose based papers or paper-meltblown combinations - designed to capture a wide range of particles, gaseous pollutants, and other contaminants from the air.
Meltblown Nonwoven & Composites
Our melblown nonwoven and composites are ideal for protecting your gas turbine from debris and other particles. It is highly durable and resistant to corrosion, making it a better option compared to traditional woven wire mesh filters commonly used in gas turbines.
Saturated Paper-Meltblown Combinations & Fully Synthetic SMS Combinations
Our dedusting filter media are designed with maximum filtration efficiency in mind and are classified according to the efficiency standards EN779:2012 (F7 – F9) and ISO 16890 and can be utilized for the pulse clean process and boast high mechanical stability.
Curing & Non-Curing Cellulose and Paper-Meltblown Combinations
We offer a broad range of engine air filter media made from curing and non-curing cellulose as well as paper-meltblown combinations - designed to meet the rigorous demands of markets around the world.
Meltblown Combinations and Triboelectric Nonwoven with Activated Carbon
Our meltblown nonwoven fabric filter media provides high efficiency filtering of harmful respirable particulates and has an electrostatic charge for stable efficiencies. Enhanced with a layer of activated carbon, our cabin air filter media are excellent at absorbing harmful gases, odors and volatile organic compounds.
Meltblown Nonwoven
Our NeenahSilence™ meltblown nonwovens are a great way to reduce external as well as in-vehicle noise and improve comfort in automotive applications. Crafted from a range of polymers, our nonwovens can be customized to deliver superior performance, offering a perfect balance of high airflow resistance and exceptional sound absorption.
Saturated Paper-Meltblown Combinations & Fully Synthetic SMS Combinations
GESSNER welding fume filter media provide the highest quality filtration for welding fumes. Our combination media ensures up to F9 efficiency acc. to EN779:2012.
Highly Charged Synthetic and Meltblown Nonwoven & Cellulose Based Nonwoven
We offer a wide range of filter media products that are designed to effectively capture and contain dust particles of various sizes for industrial vacuum cleaner. Additionally, the flame retardant cellulose prevents potential hazards such as dust fires, while providing increased strength and durability.
With our state-of-the-art production facilities, extensive knowledge, and long-standing expertise, we can customize filter media precisely to your specific needs and applications. Whether you require enhancements in efficiency, energy consumption, dust holding capacity (DHC), or filter service life, we develop a filter media to perfectly meet your requirements.
Our years of experience allow us to incorporate special properties into our filter media, such as antibacterial coatings and flame retardancy, achieved through advanced coatings and impregnation with a variety of resins. We pride ourselves on delivering high-quality, reliable products that meet and exceed industry standards. Partner with us to elevate your filtration systems to new levels of performance and durability.
Meltblown Nonwoven's microscopic fibers form a complex fabric that can effectively trap even the smallest particles. Thanks to this structure, it offers an exceptional balance between filtration efficiency and air permeability, making it an ideal media for a wide range of applications - from air and water filtration to use in medical masks. Its ability to achieve high levels of filtration with low pressure drop makes Meltblown Nonwoven a premium choice for advanced filtration solutions.
Our Alphastar™ - Tribo electric nonwoven enhances air purification by using electrostatic energy to attract and trap airborne particles such as dust, smoke, pollen, and pet dander. These synthetic fibers are electrically charged, increasing the efficiency of pollutant capture with lower energy consumption compared to traditional non-electrostatic filters. Unlike other filters, its effectiveness remains consistent over time, also contributing to healthier indoor air quality by removing micron-sized particles and reducing airborne allergens and bacteria through an anti-bacterial coating.
Delpore™ thermal-bonded media utilizes a novel through-air bonding process where hot air melts the outer layers of bicomponent fibers, creating a strong, reliable bond. This results in a material that surpasses traditional webbing in strength, durability, flexibility, and breathability. Its lightweight, cost-effective nature, combined with superior performance characteristics, makes it an ideal choice for various applications, including filtration media, acoustic insulation, and automotive interiors.
Our inclined and flat wire paper machines provide exceptional performance when it comes to producing technical special papers. With these machines, we can achieve weights of 18 – 250g/m² and air permeabilities of 1 – 2000 l/m²/s. This ensures that you have the perfect product for your needs every single time. Alongside selected cellulose fibres, we use synthetic, glass or carbon fibres to give further special properties. With creping technology, we can achieve different surface characteristics, from very fine to very rough crepe profiles, and with various stretch properties.