Abstract
Plant fibrous material is a good resource in textile and other industries. Normally, several kinds of plant fibrous materials used in one process are needed to be identified and characterized in advance. It is easy to identify them when they are in raw condition. However, most of the materials are semi products which are ground, rotted or pre-hydrolyzed. To classify these samples which include different species with high accuracy is a big challenge. In this research, both qualitative and quantitative analysis methods were chosen to classify six different species of samples, including softwood, hardwood, bast, and aquatic plant. Soft Independent Modeling of Class Analogy (SIMCA) and partial least squares (PLS) were used. The algorithm to classify different species of samples using PLS was created independently in this research. Results found that the six species can be successfully classified using SIMCA and PLS methods, and these two methods show similar results. The identification rates of kenaf, ramie and pine are 100%, and the identification rates of lotus, eucalyptus and tallow are higher than 94%. It is also found that spectra loadings can help pick up best wavenumber ranges for constructing the NIR model. Inter material distance can show how close between two species. Scores graph is helpful to choose the principal components numbers during the model construction.
Highlights
Plant fibrous material is one of the most valuable materials because of its renewability, abundance and wide application (Cheng, 2009)
The identification results (Table 4) show that most of the samples were successfully identified to the correct species including Tallow
It was found that all the classification and identification performances were significantly improved by using the optimized wavenumber ranges
Summary
Plant fibrous material is one of the most valuable materials because of its renewability, abundance and wide application (Cheng, 2009). It can be used in textile (Costa et al, 2013), paper (Hubbell and Ragauskas, 2010), food (Muangrat et al, 2010), medical (Pomin and Mourão, 2008), composite (Messing and Oppermann, 1979), biofuel (Guazzotti et al, 2003), and other areas. Identification and determination of the properties of plant fibrous material prior to process is of great significance for industrial utilization to ensure the quality of the final product
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