Abstract
Rigid polyurethane (PUR) foams reinforced with 1, 2, and 5 wt.% of salvia filler (SO filler) and montmorillonite-modified salvia filler (MMT-modified SO filler) were produced in the following study. The impact of 1, 2, and 5 wt.% of SO filler and MMT-modified SO filler on the morphological, chemical, and mechanical properties of PUR composites were examined. In both cases, the addition of 1 and 2 wt.% of SO fillers resulted in the synthesis of PUR composites with improved physicomechanical properties, while the addition of 5 wt.% of SO fillers resulted in the formation of PUR composites with a less uniform structure and, therefore, some deterioration in their physicomechanical performances. Moreover, the results showed that the modification of SO filler with MMT improved the interphase compatibility between filler surface and PUR matrix. Therefore, such reinforced PUR composites were characterized by a well-developed closed-cell structure and improved mechanical, thermal, and flame-retardant performances. For example, when compared with reference foam, the addition of 2 wt.% of MMT-modified SO filler resulted in the formation of PUR composites with greater mechanical properties (compressive strength, flexural strength) and improved dynamic-mechanical properties (storage modulus). The PUR composites were characterized by better thermal stability as well as improved flame retardancy—e.g., decreased peak rate of heat release (pHRR), reduced total smoke release (TSR), and increased limiting oxygen index (LOI).
Highlights
Scientists around the world are focusing on the use of renewable resources in the production of polymeric materials, in line with the requirements of sustainable development [1,2,3]
In addition to urethane linkages, depending on the components used in the synthesis, polyurethanes can contain aliphatic or aromatic hydrocarbons, amides, esters, biuret, or isocyanurate groups
Based on on this,this, it may be concluded that the application of a high-energy ball milling processresulted it may be concluded that the application of a high-energy ball milling process resultedinin formation of SO
Summary
Scientists around the world are focusing on the use of renewable resources in the production of polymeric materials, in line with the requirements of sustainable development [1,2,3]. Polyurethanes are a dynamically developing group of complex polymers They are obtained by the reaction of compounds containing at least two active hydrogen atoms (most often polyols) with isocyanates in the presence of catalysts, surfactants, blowing agents, and other additives [9]. Given the wide range of raw materials used, polyurethanes are applied in various forms, e.g., foams (rigid or flexible), coatings, adhesives, sealants, films, fibers, and many more [11]. This allows them to be used in a wide range of applications in many industries including construction, automotive, packaging, electronics, or furniture [12]
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