Horticulture
Sustainable twines applicable to horticultural sector
CELULOSE BIOTWINE
Final application
Celulose BioTwine for the trellising of vegetables and fruits in greenhouses
Fibers
High performance
High resistance
Low elongation
100% Compostable
Final diameter
From 1.3mm to 7mm Ø
Formats
Bobbins or cones of various diameters and lengths
Twines that improve your profitability
BIOTWINE by Hilaturas Mar
Sustainable
They degrade in the environment without leaving toxic residues, with a waste-free manufacturing process.
Brand improvement
Among consumers and partners who value a more sustainable planet
100% Compostable
Hilaturas Mar BioTwine come with Home, Industrial Compost and Biodegradable Soil Certifications. 100% Home Compostable and Biodegradable in soil, unlike cords made with PP AND PLA.
Tailored to you
Dimensions of bobbins can be produced and adjusted according to your needs
OPTIMIZE YOUR HORTICULTURAL PRODUCTION: efficiency and sustainability in your greenhouse.
Regulations on waste and sustainability are a reality. BIOTWINE leads this challenge for present and future well-being.
100%
Compostable
Fully
Biodegradable
Maxim
Durability
High
Performance (m/kg)
Elevated
Resistance
Guarantee
length
Home, industrial Compost and Biodegradable Soil Certificates
100% Domestic Compost and Soil Biodegradable, ensuring effective support for plants and environmental sustainability.
BioTwine is highly versatile. Depending on the specific tensile strength (kg/f) requirements of each crop, we offer various references to ensure the right for successful growth.
From Germany
"The twines are strong, resistant to wear and perfect for our tomato crops. Their biodegradability is an added value to our sustainability policy".
From Poland
"We've been in the horticulture business for years, and these cellulose cords are excellent. The shipment arrives well paletized and in perfect condition. We've never had supply issues".
From Netherlands
"BioTwine can withstand the conditions of our climate and keep the pepper plants in optimal conditions throughout the entire growing process."