Technical datasheet

Bionolle™ 3001 MD

Supplied byResonac (formerly Showa Denko)- Last Updated on Feb 2, 2026

Polybutylene succinate. Bionolle™ 3001 MD by Resonac (formerly Showa Denko) is an aliphatic polyester resin that has the versatility of common plastics. While Bionolle™ is stable under ordinary conditions it becomes biodegradable in the presence of microorganism, e.g. compost, wet soil, fresh water, seawater and activated sludge. It will decompose completely into water and carbon dioxide and is therefore called "Eco-friendly material". Has low modulus and fast biodegradability. Has a MFR of less than 3 g/10 min. This makes it suitable for blown-film extrusion and facilitates the production of thin, high quality film by using conventional blown film extruders. Film made of Bionolle™ 3001 MD by Resonac (formerly Showa Denko) shows excellent mechanical properties similar to film made of LLDPE. Used in mulching film, trash bag, plant pot, filament, yarn, net, bottle, gloves, container, laminated paper, tray, comb, golf tee, foamed tube, frame of fan and peg.
Product family:
Polyester
Chemical family:
Polybutylene Succinate (PBS)|
Polyester
Product Type:
Thermoplastics
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Bionolle™ 3001 MD properties

Mechanical properties

PropertiesValue & unitTest conditionTest method
Modulus of Elasticity, MD0.0 Visible After LoginVisible After LoginVisible After Login
Modulus of Elasticity, TD0.0 Visible After LoginVisible After LoginVisible After Login
Tear Strength, MD0.0 Visible After LoginVisible After LoginVisible After Login
Tear Strength, TD0.0 Visible After LoginVisible After LoginVisible After Login
Tensile Strength at Yield, MD0.0 Visible After LoginVisible After LoginVisible After Login
Tensile Strength at Yield, TD0.0 Visible After LoginVisible After LoginVisible After Login
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Optical properties

PropertiesValue & unitTest conditionTest method
Haze0.0 Visible After LoginVisible After LoginVisible After Login
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Other properties

PropertiesValue & unitTest conditionTest method
Elongation at Break, MD0.0 Visible After LoginVisible After LoginVisible After Login
Elongation at Break, TD0.0 Visible After LoginVisible After LoginVisible After Login
Impact Strength, Tensile0.0 Visible After LoginVisible After LoginVisible After Login
Impact Strength, Tensile0.0 Visible After LoginVisible After LoginVisible After Login
Tensile Strength at Break, MD0.0 Visible After LoginVisible After LoginVisible After Login
Tensile Strength at Break, TD0.0 Visible After LoginVisible After LoginVisible After Login
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Physical properties

PropertiesValue & unitTest conditionTest method
Degree of Crystallinity0.0 Visible After LoginVisible After LoginVisible After Login
Density0.0 Visible After LoginVisible After LoginVisible After Login
Melt Mass-Flow Rate (MFR or MFI = Melt Flow Index or MI = Melt Index)0.0 Visible After LoginVisible After LoginVisible After Login
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Thermal properties

PropertiesValue & unitTest conditionTest method
Glass Transition Temperature (Tg)0.0 Visible After LoginVisible After LoginVisible After Login
Heat Deflection Temperature (HDT), Unannealed0.0 Visible After LoginVisible After LoginVisible After Login
Heat Seal Strength0.0 Visible After LoginVisible After LoginVisible After Login
Heat of Combustion0.0 Visible After LoginVisible After LoginVisible After Login
Melting Point0.0 Visible After LoginVisible After LoginVisible After Login
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