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Volume 9

Journal of Chemical Engineering & Process Technology

ISSN: 2157-7048

Biopolymer Congress 2018

June 28-29, 2018

June 28-29, 2018 | Berlin, Germany

8

th

World Congress on

Biopolymers & Bioplastics

Development of novel bio-based epoxy resins: Study of the curing reaction between epoxidized plant

oil and different hardeners

Andrea Anusic

1

, Katharina Resch-fauster

2

and

Arunjunai Raj Mahendran

3

1,2

Montanuniversität Leoben, Austria

3

Wood Carinthian Competence Center, Austria

D

riven by the need for replacing petroleum based materials, the development and use of thermosets based on renewable

resources is growing vigorously and consistently. Thus, the overall objective of the present study was to develop a

thermoset with a high bio-based carbon content. Unsaturated linseed oil was used as main material for the novel thermoset.

The fatty acids of linseed oil were functionalized by the epoxidation of double bonds. In order to convert the epoxidized plant

oil into a curable thermoset, non-toxic and harmless petrochemical-based hardeners and catalysts were used. The main focus

was on discovering substances which enable a crosslinking reaction with the epoxidized linseed oil. The effect of different

hardeners, like amines (linear and cylic), cyanamides, acids and imidazoles on the curing reaction was investigated by means

of Differential Scanning Calorimetry and Infrared spectroscopy and appropriate hardener types were identified. The optimal

mixing ratio was determined by systematically varying the concentrations of functionalized linseed oil and hardener. Because

of the inert reactivity of the epoxidized plant oil with the hardener, also the influence of various catalysts on the curing

efficiency and overall conversion rate was investigated. Promising results were achieved specifically by using dicyandiamide,

which yielded a thermoset with a glass transition temperature of ~ 80 °C. The attained extensive set of information provides

an explanation of the curing reaction of different hardeners with an epoxidized linseed oil. The polymer physical property

profiles of the developed resins emphasize a great potential of the bio-based thermosets as substitute for petrochemical based

resins. The research project is funded by the Austrian Ministry for Transport, Innovation and Technology in frame of the

program “Produktion der Zukunft” under contract no. 858688, within the context of the project “Reliable and Sustainable

composite production for Biobased Components”. The authors acknowledge valuable scientific and technical input from bto-

epoxy GmbH (Manfred Sieberer).

Biography

Andrea Anusic has her expertise on polymers which are based on renewable resources, on natural fiber reinforced composites and on the characterization of polymers.

She has studied technical chemistry on the technical university in Graz (Austria). During her study she has focused on macromolecular chemistry. Now she is working on

her PhD at the department of polymer engineering at the chair of Materials and Testing of Polymers. The study is about the curing of epoxidized plant oil to create novel,

non-toxic and harmless resins with a high bio-based content, which can be used as substitute for petrochemical based resins.

andrea.anusic@unileoben.ac.at

Andrea Anusic et al., J Chem Eng Process Technol 2018, Volume 9

DOI: 10.4172/2157-7048-C1-011