Cavity optimization for investment casting die of turbine blade based on reverse engineering

Ding Hua Zhang; Rui Song Jiang; Jian Ling Li; Wen Hu Wang; Kun Bu

doi:10.1007/s00170-009-2343-x

Cavity optimization for investment casting die of turbine blade based on reverse engineering

Ding Hua Zhang, Rui Song Jiang, Jian Ling Li, Wen Hu Wang, Kun Bu

School of Mechanical Engineering

Northwestern Polytechnical University Xian

Research output: Contribution to journal › Article › peer-review

44 Scopus citations

Abstract

A cavity optimization method based on the principle of reverse deformation was prompted in this paper. In the reverse deformation method, the displacement which represents the nonlinear shrinkage was superposed on the initial profile of cavity and compensated the shrinkage of wax and alloy solidification. Moreover, an estimation algorithm was prompted to calculate the displacement based on reverse engineering, and its key technologies such as blade measurement, model registration, and statistical analysis of the displacement were investigated. Finally, a sample application was presented for demonstration in this paper.

Original language	English
Pages (from-to)	839-846
Number of pages	8
Journal	International Journal of Advanced Manufacturing Technology
Volume	48
Issue number	9-12
DOIs	https://doi.org/10.1007/s00170-009-2343-x
State	Published - Jun 2010

Keywords

Cavity optimization
Displacement
Reverse deformation
Reverse engineering
Turbine blade

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title = "Cavity optimization for investment casting die of turbine blade based on reverse engineering",

abstract = "A cavity optimization method based on the principle of reverse deformation was prompted in this paper. In the reverse deformation method, the displacement which represents the nonlinear shrinkage was superposed on the initial profile of cavity and compensated the shrinkage of wax and alloy solidification. Moreover, an estimation algorithm was prompted to calculate the displacement based on reverse engineering, and its key technologies such as blade measurement, model registration, and statistical analysis of the displacement were investigated. Finally, a sample application was presented for demonstration in this paper.",

keywords = "Cavity optimization, Displacement, Reverse deformation, Reverse engineering, Turbine blade",

author = "Zhang, {Ding Hua} and Jiang, {Rui Song} and Li, {Jian Ling} and Wang, {Wen Hu} and Kun Bu",

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AU - Zhang, Ding Hua

AU - Jiang, Rui Song

AU - Li, Jian Ling

AU - Wang, Wen Hu

AU - Bu, Kun

PY - 2010/6

Y1 - 2010/6

N2 - A cavity optimization method based on the principle of reverse deformation was prompted in this paper. In the reverse deformation method, the displacement which represents the nonlinear shrinkage was superposed on the initial profile of cavity and compensated the shrinkage of wax and alloy solidification. Moreover, an estimation algorithm was prompted to calculate the displacement based on reverse engineering, and its key technologies such as blade measurement, model registration, and statistical analysis of the displacement were investigated. Finally, a sample application was presented for demonstration in this paper.

AB - A cavity optimization method based on the principle of reverse deformation was prompted in this paper. In the reverse deformation method, the displacement which represents the nonlinear shrinkage was superposed on the initial profile of cavity and compensated the shrinkage of wax and alloy solidification. Moreover, an estimation algorithm was prompted to calculate the displacement based on reverse engineering, and its key technologies such as blade measurement, model registration, and statistical analysis of the displacement were investigated. Finally, a sample application was presented for demonstration in this paper.

KW - Cavity optimization

KW - Displacement

KW - Reverse deformation

KW - Reverse engineering

KW - Turbine blade

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EP - 846

JO - International Journal of Advanced Manufacturing Technology

JF - International Journal of Advanced Manufacturing Technology

IS - 9-12

ER -

Cavity optimization for investment casting die of turbine blade based on reverse engineering

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Keywords

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