🌱 SUSTAINABLE & RENEWABLE

BIO-BASED POLYESTER RESINS

Environmentally friendly alternative to traditional fossil fuel-based resins, produced partly or entirely from renewable plant resources. Reduces your carbon footprint by up to 60% while delivering mechanical performance comparable to conventional resins.

  • Renewable raw material content (30-70%)
  • Low carbon footprint
  • Compatible processing with traditional resins
  • Recyclable composites
Consult for sustainable solutions

ENVIRONMENTAL BENEFITS

  • 70% renewable content
  • 60% lower carbon footprint
  • 95% recycling compatibility
  • LEED certification support

Sustainable Features

Renewable Resource
Bio-based ingredients from corn, sugar cane, soy and other plant sources
Low Carbon
Climate-friendly production with 40-60% lower carbon footprint
Performance Conservation
Mechanical and chemical properties comparable to conventional resins

Environmental Impact

Up to 60%
Carbon Reduction
%70
Renewable Content
%100
Fossil Fuel Free
%95
Recycling Compliance

Technical and Environmental Advantages

Sustainable Supply Chain

Bio-based resins offer a more stable and sustainable supply chain by reducing fossil fuel dependency. Raw materials from renewable sources are less affected by fluctuations in oil prices and allow for long-term production planning.

Green Certification Support

Bio-based resins, which earn points in LEED, BREEAM and other green building certification systems, meet the demand for environmentally friendly products. Help your customers achieve their sustainability goals and improve their corporate social responsibility reporting.

Certifications and Compliance

♻️
ISO 14001
Environmental Management System
🌍
LEED Contribution
Green Building Certificate
📊
LCA Compliant
Life Cycle Analysis

Application Areas

Automotive Interior Trim
Furniture
Packing
Building Materials
Consumer Products
Sports Equipment
Electronic Accessories
Marin Applications

Technical Performance

Mechanical Strength
Tensile and flexural strength comparable to conventional resins
Thermal Stability
Dimensional stability between -20°C and +80°C
Processing Compliance
Full compatibility with existing production equipment and processes
Polyresin vs. Polyester Bio Resin Comparison
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Features
PRE-1000
PRE-1001
PRE-1002
PRE-1003
Description Bio Polyester Resin Bio Polyester Resin Bio Polyester Resin Bio Polyester Resin
Chemical Content Bio-Based Bio-Based Bio-based, dicarboxylic acid and glycol-based Contains bio-based carboxylic acids and epoxidized vegetable oils
Accelerator Optional Optional Optional Optional
Reactivity High High High High
Thixotropy Thixotropic Thixotropic Thixotropic Thixotropic
¹⁴C rate (%) 20 30 50 -
Viscosity (cps) 400 - 600 400 - 500 900 - 1100 550 - 650
Gel time (min.) 8 - 12 8 - 12 8 - 12 10 - 14
Monomer ratio (%) 38 - 42 38 - 42 38 - 42 43 - 47
HDT (°C) 55 - 65 60 - 70 110 - 120 105 - 115
Bending strength (MPa) 90 - 110 105 - 125 90 - 110 120 - 140
Tensile Modulus (MPa) 3250 - 3550 3350 - 3550 3400 - 3800 3100 - 3300
Features
  • It is easy to use in production techniques such as filament winding, resin transfer molding, vacuum infusion, and pultrusion.
  • Exhibits suitable reactivity that facilitates the production of glass fiber reinforced composite materials
  • Due to its aromatic structure and suitable viscosity, it accepts a high proportion of filler material.
  • A thixotropic form can be produced and used in production techniques such as fiber spraying and hand lay-up.
  • It is easy to use in production techniques such as filament winding, resin transfer molding, vacuum infusion, and pultrusion.
  • Exhibits suitable reactivity that facilitates the production of glass fiber reinforced composite materials
  • Due to its aromatic structure and suitable viscosity, it accepts a high proportion of filler material.
  • A thixotropic form can be produced and used in production techniques such as fiber spraying and hand lay-up.
  • Good HDT (Heat Deflection Temperature) and high mechanical properties
  • Fiber-reinforced composite materials possess superior mechanical properties.
  • Due to its aromatic structure and suitable viscosity, it accepts a high proportion of filler material.
  • A thixotropic form can be produced and used in production techniques such as fiber spraying and hand lay-up.
  • An innovative, bio-based vinyl ester resin designed for high-performance composite applications, offering exceptional mechanical strength and chemical resistance.
  • Excellent adhesion and compatibility with fibers
  • Highly suitable for marine, automotive, wind energy, and industrial applications where superior structural integrity and environmental sustainability are critical
  • Pipes, tanks, pressure vessels, wind turbine blades, automotive body panels, aerospace structural components, and advanced sports materials are an excellent choice of material.
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Modification Codes

Modification Codes

T Thixotropic
WV Winter Version
UV UV stabilized
A Cobalt accelerator
SW Summer Version
TT Spray Application
B Blue indicator
HV High Viscosity
FT Brush/Roller Application
D Filled
LV Low Viscosity
White
Color: White
ABP Amin accelerator
FR Non-flammable
PRO Color
Color PRO color
TE Terephthalic acid
FRHI Halogenated Isophthalic Flame Retardant
Light Color
Color Light color
LSE Low styrene emission
FRH Halogenated Flame Retardant
Transparent
Color: Transparent
H Halogenated
M Acrylic Modified
Product Packaging

Product Packaging

Different capacity and packaging options to suit your needs

18 Kg Tin
Tin
18 Kg
For small-scale use
20 Kg Bucket
Aquarius
20 Kg
Practical transportation and use
230 Kg Barrel
Barrel / Refurbished Barrel
230 Kg
For medium-scale production
1100 Kg Reconditioned IBC
IBC / Refurbished IBC
1100 Kg
Economic large capacity
25 Ton Tank Container
Tank Container
25 Tons
Industrial large scale