Digital optimization of rotational molding process parameters

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The results show that the tensile strength of the developed composites improved with the increase of BSA to the optimum concentration of wt%. The study also discusses the effective distribution of reinforcement in the aluminum matrix and the increase in wear resistance of the composite hybrid materials. ( AdewuyiB. et al., m ) .
Capillary oscillations and periodic defect formation in molten metal casting by planar flow rotation
Authors: B. Cox, P. Steen
Year of publication:
Abstract: The paper deals with defects in rotational molding and is related to the above-mentioned knowledge. The study highlights the shortcomings of the planar flow molding process, where the liquid metal is kept in a “pool” due to surface tension pressure. In situations of variable flow pressure, the authors bangladesh telegram data distinguish two types of periodic defects and explain the experimental facts related to these defects. Although this paper is not from the last five years, it explains aspects related to defects in rotational molding processes ( Cox & Steen, ).
Authors: Wilbert H. Balingit, A. Maglaya
Year of publication:
Summary: This paper aims to improve the quality of cast objects by analyzing the parameters of the rotational molding process. The experimental design is applied to the body in order to identify the essential parameters that have a significant impact on dimensional accuracy and to make recommendations for users of rotational molding technology. . ( Balingit & Maglaya, ) .
Influence of rotational molding process parameters on shrinkage of zinc alloy
Authors: Siriporn Rojananan et al.
Year of publication:
Abstract: This study identifies the parameters of the spinning technique that affect the shrinkage of zinc alloy. The study provides a detailed analysis of the optimal spinning temperatures and spinning speeds to reduce shrinkage, thereby helping to improve casting quality. Rojananan et al., , pp. – ).
Summary of key findings and methodologies
Methodologies: Research begins with experimental setups that allow the analysis of various parameters, taking into account their influence on the quality of the extracted product. Common methods include electron microscopy, stress tests, experimental design, etc.
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