Enhancing bamboo scrimber mechanical properties and mildew resistance through gamma irradiation crosslinking modification

IF 5.6 1区农林科学 Q1 AGRICULTURAL ENGINEERING

Industrial Crops and Products Pub Date : 2024-10-30 DOI:10.1016/j.indcrop.2024.119910

Zhuchao Xu , Qiuyi Wang , Yuan Feng , He Han , Yan He , Xin Han , Shengliang He , Meiling Chen , Yanjun Li

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引用次数: 0

Abstract

Bamboo scrimber is a dense and strong bamboo-based composite. As a fatal defect of bamboo-based composites, mildew seriously affects their performance and lifespan. Gamma irradiation is an efficient, safe, and environmentally friendly method to crosslink polymers and improve their strength. However, high irradiation doses lead to the decomposition of polymers in bamboo. In addition, moisture within natural bamboo promotes the excitation and reaction of free radicals. Therefore, balancing the irradiation dose with the bamboo moisture is crucial. In this study, the internal components of bamboo were self-crosslinked by controlling the gamma irradiation dose and the moisture content (MC) of bamboo bundles. The results indicated that the 100KGy-MC80 % bamboo scrimber exhibited the best overall performance. The cellulose and lignin were crosslinked by esterification reaction at low doses (≤100KGy), therefore, the modulus of rupture (MOR), the modulus of elasticity (MOE), the compressive strength parallel to grain (CSPG), and the dimensional stability of bamboo scrimber were effectively improved. When the gamma irradiation dose reached 150KGy, the cellulose and hemicellulose decomposed, which reduced free hydroxyl groups, as a result, the MOR, the MOE, and the CSPG decreased while the dimensional stability kept growing. The internal moisture of bamboo promotes the excitation and reaction of free radicals, amplifying the effect of irradiation. The mildew resistance was improved by the reason of the decomposition of hemicellulose and starch, which limit the moisture and nutrient conditions required by mildew.

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通过伽马辐照交联改性提高竹材的机械性能和防霉性

竹节材是一种致密坚固的竹基复合材料。霉菌是竹基复合材料的致命缺陷，严重影响其性能和使用寿命。伽马辐照是一种高效、安全、环保的聚合物交联方法，可提高聚合物的强度。然而，高剂量的辐照会导致竹子中聚合物的分解。此外，天然竹材中的水分会促进自由基的激发和反应。因此，平衡辐照剂量和竹子水分至关重要。在这项研究中，通过控制伽马辐照剂量和竹束的含水量（MC），对竹子的内部成分进行了自交联。研究结果表明，100KGy-MC80 % 的竹束整体性能最佳。在低剂量（≤100KGy）下，纤维素和木质素通过酯化反应发生交联，因此竹材的断裂模量（MOR）、弹性模量（MOE）、平行于纹理的抗压强度（CSPG）和尺寸稳定性都得到了有效改善。当伽马辐照剂量达到 150KGy 时，纤维素和半纤维素分解，使游离羟基减少，因此弹性模量、MOE 和 CSPG 下降，而尺寸稳定性保持增长。竹材内部的水分促进了自由基的激发和反应，放大了辐照的效果。半纤维素和淀粉的分解限制了霉菌所需的水分和营养条件，从而提高了抗霉性。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Industrial Crops and Products 农林科学-农业工程

CiteScore

9.50

自引率

8.50%

发文量

1518

审稿时长

43 days

期刊介绍： Industrial Crops and Products is an International Journal publishing academic and industrial research on industrial (defined as non-food/non-feed) crops and products. Papers concern both crop-oriented and bio-based materials from crops-oriented research, and should be of interest to an international audience, hypothesis driven, and where comparisons are made statistics performed.