Design and Test of a Sliding Cutting Device for the Plastic Mulch Waste

Agricultural mulch waste that is mechanically recycled has a high resource value. It has been found that the mulch is tightly entangled in the crop straw, forming a knotted feature that prevents further resource utilization. Traditional cutting tools were found to be ineffective in breaking up the k...

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Veröffentlicht in:	Sustainability 2023-03, Vol.15 (5), p.4513
Hauptverfasser:	Guo, Mengyu, Hu, Bin, Luo, Xin, Yuan, Chenglin, Cai, Yiquan, Xu, Luochuan
Format:	Artikel
Sprache:	eng
Schlagworte:	Agricultural wastes Crushing Cutting equipment Cutting machines Cutting tools Cuttings Design Design and construction Indicators Methods Mulching Physical properties Physical tests Plastic scrap Resource recovery Resource utilization Sliding Sustainability Testing Variance analysis
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creator	Guo, Mengyu Hu, Bin Luo, Xin Yuan, Chenglin Cai, Yiquan Xu, Luochuan
description	Agricultural mulch waste that is mechanically recycled has a high resource value. It has been found that the mulch is tightly entangled in the crop straw, forming a knotted feature that prevents further resource utilization. Traditional cutting tools were found to be ineffective in breaking up the knotted feature. In response to the above problems, a sliding cutting device for mechanically recovered mulch waste was proposed and built. The structure of the device and key components were designed and analyzed. A three-factor five-level orthogonal test was conducted and regression variance analysis was performed with the Central Composite Design (CCD) module in Design expert 8. The relationship model was constructed between the test factors such as supporting motor speed a, cutting-support rotation speed ratio b, and cutting edge angle c and the response indicators such as film breakage rate y1 and knotted feature removal rate y2. The influence law between each key parameter with its significant interaction and the waste crushing effect was analyzed, and the optimum combination of parameters of the crushing device were obtained. Under the same conditions, the errors between the physical test values and the model prediction values of the two response indicators were 2.17% and 3.52%, respectively, indicating that the verification test results were basically consistent with the model prediction results.
doi_str_mv	10.3390/su15054513
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The influence law between each key parameter with its significant interaction and the waste crushing effect was analyzed, and the optimum combination of parameters of the crushing device were obtained. 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It has been found that the mulch is tightly entangled in the crop straw, forming a knotted feature that prevents further resource utilization. Traditional cutting tools were found to be ineffective in breaking up the knotted feature. In response to the above problems, a sliding cutting device for mechanically recovered mulch waste was proposed and built. The structure of the device and key components were designed and analyzed. A three-factor five-level orthogonal test was conducted and regression variance analysis was performed with the Central Composite Design (CCD) module in Design expert 8. The relationship model was constructed between the test factors such as supporting motor speed a, cutting-support rotation speed ratio b, and cutting edge angle c and the response indicators such as film breakage rate y1 and knotted feature removal rate y2. 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subjects	Agricultural wastes Crushing Cutting equipment Cutting machines Cutting tools Cuttings Design Design and construction Indicators Methods Mulching Physical properties Physical tests Plastic scrap Resource recovery Resource utilization Sliding Sustainability Testing Variance analysis
title	Design and Test of a Sliding Cutting Device for the Plastic Mulch Waste
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