A Review of Intelligent Design and Optimization of Metal Casting Processes

doi:10.1007/s40195-025-01891-5

Abstract

Abstract:

Casting technology is a fundamental and irreplaceable method in advanced manufacturing. The design and optimization of casting processes are crucial for producing high-performance, complex metal components. Transitioning from traditional process design based on "experience + experiment" to an integrated, intelligent approach is essential for achieving precise control over microstructure and properties. This paper provides a comprehensive and systematic review of intelligent casting process design and optimization for the first time. First, it explores process design methods based on casting simulation and integrated computational materials engineering (ICME). It then examines the application of machine learning (ML) in process design, highlighting its efficiency and existing challenges, along with the development of integrated intelligent design platforms. Finally, future research directions are discussed to drive further advancements and sustainable development in intelligent casting design and optimization.

Key words: Casting process, Intelligent design, Numerical simulation, Integrated computational materials engineering, Machine learning

Xiaolong Pei, Hua Hou, Yuhong Zhao. A Review of Intelligent Design and Optimization of Metal Casting Processes[J]. Acta Metallurgica Sinica (English Letters), 2025, 38(8): 1293-1311.

Figures/Tables 15

Fig. 1 Main scope and some common methods of casting simulation

Table 1 General situation of casting simulation software

Software name	Country	Developers	Release time	Algorithm
Magmasoft	Germany	MAGMA	1989	FDM/FEM
ProCAST	France	America UES	1994	FEM
SIMULOR	France	Pechiney Aluminum industry	1997	FVM
Flow3D	America	Flow Science	1985	FDM/FVM
RAPID-CAST	America	Parallel Technology company	-	FDM
ANSYS Fluent	America	Fluent Company	1997	FEM
ANSYS LS-DYNA3D	America	Lawrence Livermore National Laboratory	1988	FEM
EKK CAPCAST	America	EKK	1991	FEM
SOLID Cast	America	Finite Solutions	1985	FEM
Technalysis	America	Technalysis	1985	FEM
NovaCast	Sweden	Novacast AB Company	-	FDM
PHOENICS	England	Imperial College London	1981	FVM
AnyCasting	Korea	Anycasting	1990	FDM
ADSTEFAN	Japan	Tohoku University	-	FDM
IntelCAE	China	HuaZhong University of Science and Technology	1992	FDM
FT-Star	China	Tsinghua University	1996	FDM/FEM
EasyCast	China	North University of China	2009	FDM
AutoCAST	India	Advances Reasoning Technologies P.Ltd	-	VEM
CastCAE	Finland	CT-Castech Inc. Oy,Espoo	-	FVM
JSCast	Japan	Komatsu Software Co., Ltd	1986	FEM
SIMTEC	Germany	RWP GmbH	-	-
Z-CAST	Republic of Korea	CubicTek Company and KOREA INSTITUTE OF INDUSTRIAL TECHNOLOGY	-	-
Altair Inspire Cast	America	Altair	-	FEM
HYCAST	China	Tianjin Haoyu Tianfang Technology Co., Ltd	2016	FDM
PASSAGE/POWERCAST	America	Powercast Manufacturing Inc	-	FEM
AFSolid	America	American Foundrymen's Society	1985	FDM
Experto-ViewCast	Belgium	National Institute for Industrial Techniques	-	FVM
SuperCAST	China	Beijing Supreium technology co., LTD	2019	FEM

Fig. 2 VAC process flowchart [84]

Fig. 3 ICME framework for casting design and process development as compared to industrial CAD-CAE-CAM approach [79]

Fig. 4 a The distribution of different areas of the casting; b the actual measured elongation results of each area [97]

Fig. 5 CA-FEA method based on ICME concept [28]

Fig. 6 Development elements of material genome engineering

Fig. 7 Neural network model for casting quality prediction

Fig. 8 Data-driven framework for prediction of porosity and process design in investment casting (HTC—heat transfer coefficient) [145]

Fig. 9 Hybrid model architecture of convolution neural network and depth neural network [135]

Fig. 10 Workflow of the filling system design with ANN-GA optimization loop [171]

Fig. 11 An example of temperature predictions of the solidifying steel: a actual and predicted temperature distributions at time step 2700, i.e., baseline model using bidirectional gated recurrent unit and proposed model using bidirectional long short-term memory; b actual and predicted temperature values along the distance from meniscus at the surface, middle, and center point [182]

Fig. 12 Flowchart of data-driven casting process design

Fig. 13 ICME for casting design (PVT—pressure-specific volume-temperature) [145]

Fig. 14 Prototyping platform of die-casting and processing cells: a data acquisition; b data transmission; c quality prediction [220]

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