Mastilović, Jasna, University in Novi Sad, Institute for Food Technology, Novi Sad, Srbija
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HEMIJSKA INDUSTRIJA : : ХЕМИЈСКА ИНДУСТРИЈА God. 74 Br. 1 (2020) - Inženjerstvo materijala - Polimeri
Application of solvent retention capacity tests for prediction of rheological parameters of wheat flour mill streams
Apstrakt PDF (934 kB) (English) Cover Letter (English) Figure 2. Solvent retention capacities of milling streams EPS (English) Figure 2. Solvent retention capacities of milling streams TIFF (English) Figure 3. Glutenin performance index of milling streams EPS (English) Figure 3. Glutenin performance index of milling streams TIFF (English) Figure 4. Principal component analysis (PCA) scree plot EPS (English) Figure 4. Principal component analysis (PCA) scree plot TIFF (English) Figure 5. Principal component analysis (PCA) Circle of correlations EPS (English) Figure 5. Principal component analysis (PCA) Circle of correlations TIFF (English) Figure 6. The standardized regression coefficients of predictive variables for multi-response PLSR model EPS (English) Figure 6. The standardized regression coefficients of predictive variables for multi-response PLSR model TIFF (English) Figure 7. The standardized regression coefficients of predictive variables for FWA predictive PLSR model EPS (English) Figure 7. The standardized regression coefficients of predictive variables for FWA predictive PLSR model TIFF (English) Figure 8. The standardized regression coefficients of predictive variables for E predictive PLSR model EPS (English) Figure 8. The standardized regression coefficients of predictive variables for E predictive PLSR model TIFF (English) Figure 1. Mill flow diagram TIFF (English) Figure 1. Mill flow diagram EPS (English) Supplementary file 1. (English) Response to Reviewers (English) CorrFig 2. (English) CorrFig3. (English) CorrFig4. (English) CorrFig5. (English) CorrFig6. (English) CorrFig7. (English) CorrFig8. (English)