Design of micro-perforated PTFE mould for manufacture of Paneer,Cheese and Tofu using finite element analysis

IF 0.2 Q4 AGRICULTURE, DAIRY & ANIMAL SCIENCE

INDIAN JOURNAL OF DAIRY SCIENCE Pub Date : 2023-01-01 DOI:10.33785/ijds.2023.v76i04.004

Jayanth KJ, Mahesh Kumar G, Rajunaik B, CT Ramachandra, M Manjunatha, Arun Kumar H

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Abstract

The idea of utilizing a micro-perforated PTFE(polytetrafluoroethylene) mould to manufacture paneer, cheese, and tofu was conceived and mould was designed, developed and tested. The micro-perforated PTFE mould is intended to work at temperature 65 to 110ºC, 200 kPa inside pressure. This new generation pressing mould contains micro perforations of 300μmdiameter which are drilled using advanced high precision 4 and 3axis CNC machines. There will be failure (due to induced hoop stress) in the mould when Von Mises(equivalent) stress generated is more than yield stress of virgin PTFE (30 MPa). Wall thickness of mould was optimized by Finite Element Analysis (FEA) by hyper tetrahedron meshing using ANSYS- 22. The results obtained from stress analysis were expressed as Von Mises stress, deformation and factor of safety. A design software developed by ASME was employed to validate shell thickness. The model prediction was shown to be in good agreement with the analytical calculation. Micro-perforated PTFE mould was fabricated as per FDA, c-GMP standards from 6.00 mm thick virgin PTFE material. The FEA resulted in Von Mises Stress of 14.7 MPa, deformation of 2.1535×10-10 m and factor of safety of 2.04. The working drawings were developed and actual fabrication was carried out adopting the prescribed sanitary standards. Satisfactory production of paneer was carried out in the newly designed and developed PTFE paneer mould resulted in excellent quality product.

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利用有限元分析设计用于奶酪、奶酪和豆腐生产的聚四氟乙烯微孔模具

利用微孔聚四氟乙烯(聚四氟乙烯)模具制造奶酪、奶酪和豆腐的想法被构思出来，模具被设计、开发和测试。微孔PTFE模具的工作温度为65 ~ 110℃，内压为200kpa。新一代压模内含直径300μm的微孔，采用先进的高精度4轴和3轴数控机床。当产生的Von Mises(等效)应力大于原生PTFE的屈服应力(30 MPa)时，模具将发生破坏(由于诱导环向应力)。采用ANSYS- 22超四面体网格法对模具壁厚进行了有限元分析优化。应力分析结果用Von Mises应力、变形和安全系数表示。采用ASME开发的设计软件对壳体厚度进行了验证。模型预测结果与分析计算结果吻合较好。微孔聚四氟乙烯模具由6.00 mm厚的原始聚四氟乙烯材料按照FDA, c-GMP标准制作。有限元分析结果表明:Von Mises应力为14.7 MPa，变形为2.1535×10-10 m，安全系数为2.04。根据规定的卫生标准制定了施工图，并进行了实际制造。在新设计开发的聚四氟乙烯薄板模具上进行了满意的薄板生产，产品质量优良。

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INDIAN JOURNAL OF DAIRY SCIENCE AGRICULTURE, DAIRY & ANIMAL SCIENCE-

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33.30%

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