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Renewable & Eco-Friendly (Both terms emphasize the use of sustainable, environmentally conscious materials in adhesive production.)
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Tannins & Polyflavonoids (Tannins, which contain polyflavonoids, contribute to bonding strength in bio-based adhesives but are sensitive to moisture.)
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Emission Standards & Formaldehyde-free Adhesives (Formaldehyde-free adhesives help meet emission standards, improving indoor air quality by reducing toxic emissions.)
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Lignin Modification & Bonding Strength (Modifying lignin enhances bonding strength, making it a viable alternative to synthetic adhesives in wood products.)
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Carbohydrate-Based Adhesives & Water Sensitivity (Carbohydrate-based adhesives often exhibit high water sensitivity, which limits their use without chemical modification.)
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Life Cycle Analysis & Environmental Impact (Life cycle analysis assesses an adhesive’s full environmental impact, from production to disposal, key for sustainable development.)
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Differential Scanning Calorime & Thermal Properties (Differential scanning calorimetry is used to evaluate adhesives’ thermal properties, revealing heat stability for various applications.)
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Lignin-Phenol-Glyoxal Resin & Cross-linking Density (In lignin-phenol-glyoxal resins, cross-linking density impacts durability and bonding strength, critical for wood composites.)
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Hydrophobic Modifications & Moisture Resistance (Hydrophobic modifications improve moisture resistance, enhancing adhesive performance in humid or wet conditions.)
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Spectroscopic Analysis & Molecular Structure (Spectroscopic analysis provides insights into molecular structure, crucial for optimizing adhesive formulation and performance.)