Affiliation:
1. Riga Technical University
2. Latvian State Institute of Wood Chemistry
3. COMPOR
Abstract
For a simulation of pultrusion processes with polyester resin C-L ISO 112 G, the curing kinetic model for the matrix material should be developed. This resin is characterized by excellent glass fibre wet out properties and for this reason is suitable for the utilization in pultrusion processes. The first order, n-th order, Prout-Tompkins and Kamal-Sourour models were used to build the curing kinetic models for the examined resin. The models’ accuracy was determined by calculating the relative errors between theoretical and experimental results. The curing kinetic models with the best accuracy are recommended for the development of future pultrusion processes.
Publisher
Trans Tech Publications, Ltd.
Subject
Mechanical Engineering,Mechanics of Materials,General Materials Science
Reference12 articles.
1. E. Barkanov, O. Ozoliņš, E. Eglītis, F. Almeida, M.C. Bowering and G. Watson, Optimal Design of Composite Lateral Wing Upper Covers. Part I: Linear Buckling Analysis, Aerosp. Sci. Technol. 38 (2014) 1-8.
2. E. Barkanov, E. Eglītis, F. Almeida, M.C. Bowering and G. Watson, Optimal Design of Lateral Wing Upper Covers. Part II: Nonlinear Buckling Analysis, Aerosp. Sci. Technol. 51 (2016) 87-95.
3. E. Barkanov, E. Eglītis, F. Almeida, M.C. Bowering and G. Watson, Weight Optimal Design of Lateral Wing Upper Covers Made of Composite Materials, Eng. Optimiz. 48 (2016) 1618-1637.
4. P. Masarati, M. Morandini, J. Riemenschneider, P. Wierach, S. Gluhih and E. Barkanov, Optimal Design of an Active Twist 1:2.5 Scale Rotor Blade. In: Proceeding of the 31st European Rotorcraft Forum (2005 ERF: Firenze, Italy), 37.1-37.14.
5. E. Barkanov, A. Kovalov, P. Wierach and J. Riemenschneider, Optimised Comparative Analysis of an Active Twist for Helicopter Rotor Blades with C and D-Spar Designs, Mech. Compos. Mater. 5 (54) (2018) 553-566.
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