Amit Sata scite author profile

Investment castings are used in industrial sectors including automobile, aerospace, chemical, biomedical, and other critical applications; they are required to be of significant quality (free of defects and possess the desired range of mechanical properties). In practice, this is a big challenge, since there are large number of parameters related to process and alloy composition are involved in process. Also, their values change for every casting, and their effect on quality is not very well understood. It is, however, difficult to identify the most critical parameters and their specific values influencing the quality of investment castings. This is achieved in the present work by employing foundry data analytics based on Bayesian inference to compute the values of posterior probability for each input parameter. Computation of posterior probability for each parameter in turn involves computation of local probability (LP), prior odd, conditional probability (CP), joint probability (JP), prior odd, likelihood ratio (LR) as well as posterior odd. Computed value of posterior probability helps (parameters are considered to be critical if the value of posterior probability is high) in identifying critical parameter and their specific range of values affecting quality of investment castings. This is demonstrated on real-life data collected from an industrial foundry. Controlling the identified parameters within the specific range of values resulted in improved quality. Unlike computer simulation, artificial neural networks (ANNs), and statistical methods explored by earlier researchers, the proposed approach is easy to implement in industry for controlling and optimizing the parameters to achieve castings that are defect free as well as in desired range of mechanical properties. The current work also shows the way forward for building similar systems for other casting and manufacturing processes.

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Comparison of Some Neural Network and Multivariate Regression for Predicting Mechanical Properties of Investment Casting

Sata

Ravi

2014

J. of Materi Eng and Perform

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Intelligent inspection of surface defects in metal castings using machine learning

Yousef

Parmar

Sata

2022

Materials Today: Proceedings

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Quality Prediction in Vertical Centrifugal Casting Using Criterion Function

Mazloum¹,

Sata²

2022

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Amit Sata

Bayesian inference-based investment-casting defect analysis system for industrial application

Foundry Data Analytics to Identify Critical Parameters Affecting Quality of Investment Castings

Comparison of Some Neural Network and Multivariate Regression for Predicting Mechanical Properties of Investment Casting

Intelligent inspection of surface defects in metal castings using machine learning

Quality Prediction in Vertical Centrifugal Casting Using Criterion Function

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