Top

previous chapter Introduction

next chapter Dimensional Deviation and Defect Prediction of ...

Hint

Swipe to navigate through the chapters of this book

2021 | OriginalPaper | Chapter

2. Investment Casting Process Design of Large-Size Superalloy Castings

Read first chapter

Author: Guoxiang Wang

Publisher: Springer Singapore

Published in: Precision Forming Technology of Large Superalloy Castings for Aircraft Engines

» Get access to the full-text

Abstract

The performance of aeroengines is built on the delicate continuous rotatory structure, on which the main difficulty in production also centers.

Please log in to get access to this content

To get access to this content you need the following product:

Springer Professional "Wirtschaft+Technik"

Online-Abonnement

Mit Springer Professional "Wirtschaft+Technik" erhalten Sie Zugriff auf:

über 69.000 Bücher
über 500 Zeitschriften

aus folgenden Fachgebieten:

Automobil + Motoren
Bauwesen + Immobilien
Business IT + Informatik
Elektrotechnik + Elektronik
Energie + Umwelt
Finance + Banking
Management + Führung
Marketing + Vertrieb
Maschinenbau + Werkstoffe
Versicherung + Risiko

Testen Sie jetzt 30 Tage kostenlos.

inform now

Springer Professional "Technik"

Online-Abonnement

Mit Springer Professional "Technik" erhalten Sie Zugriff auf:

über 50.000 Bücher
über 380 Zeitschriften

aus folgenden Fachgebieten:

Automobil + Motoren
Bauwesen + Immobilien
Business IT + Informatik
Elektrotechnik + Elektronik
Energie + Umwelt
Maschinenbau + Werkstoffe

Testen Sie jetzt 30 Tage kostenlos.

inform now

Longtengriyue. How hard is an airline jet engine, Aerospace knowledge. (12), 28–31, 2010

Q. Huan, Development and process of superalloy INCONEL 718 (GH4169). J. Mater. Eng. 40, 8 (2012)

J. He-Fu, Development and manufacturing technology of gas turbine engine. Aeronaut. Manuf. Technol. 5, 36–39 (2007)

H. Xiangping, Overview of foreign investment investment casting development. Spec.-Cast Non-Ferrous Alloy. 12(3), 40–43 (1992)

N. Hai, X. Chengmu, Application and development of titanium alloy casting abroad. China Foundry Mach. Technol. 6, 1–3 (2003)

L.-T. Zhang, C. Lamei, L. Guoli et al., Theory and Practice of Near Net-shape Investment Casting (National Defense Industry Press, Beijing, 2007)

C. Lamei, T. Xin, Z. Yong et al., Progress of advanced near net-shape investment casting technology of superalloys. J. Aeronaut. Mater. 26(3), 238–243 (2006)

T. Tianfu, C. Bing, B. JIANG, Investment Casting Technology (China Machine Press, Beijing, 1991)

B. JIANG, Practical Investment Casting Technology, (Liaoning Science and Technology Press, Shenyang, 2008)

10.

B. JIANG, Investment Casting, China Machine Press, 2004

11.

Leiden; Boston: Brill, Bubble and drop interfaces Progress in colloid and interface science, vol. 2, pp. 1877–8569, 2011

12.

Z. Yuan, Product Design Guidelines for Manufacturing and Assembly, China Machine Press, 2011

13.

Foundry Institution of Chinese Mechanical Engineering Society. Casting manual, vol. 5, casting process, 2nd edn, China Machine Press, 2003

14.

P. Liwen, Z. Lijing, Z. Hu, Applicability of shrinkage porosity prediction for casting with Niyama criterion, J. Beijing Univ. Aeronaut. Astronauties, 37(12), (2011)

15.

W-Z. Li, Numerical Simulation of Microstructure and Shrinkage Cavity Formation During Solidification of Castings [D]. Tsinghua University, 1995

16.

C. Bing, Dimensional stability and accuracy of investment casting. Spec.-Cast Non-Ferrous Alloy. 1, 53–56 (2003)

17.

H. Xiangping, The general situation of wax pattern precision in investment casting. Spec.-Cast Non-Ferrous Alloy. 24(1), 156–159 (1999)

18.

Z. Zhenyu, L. Bunv, Factors that affect the dimension accuracy of casting during mold making. Mech. Res. Appl. 15, 15–16 (2002)

19.

X. Yan, K. Jin-Wu, H. Tian-You, Application of contact element method in simulating thermal stress during solidification of casting. Comput. Appl. 27(5), 506–510 (2006)

20.

K. Jinwu, Numerical Simulation Analysis of Thermal Stress Fields during Solidification of Steel Casting. [D]. Tsinghua University, 1998

21.

Y. Yi, J. Yuming, L. Liling et al., Numerical simulation of thermal stress field and thermal cracking of casting during solidification. Foundry Technol. 2, 36–39 (2000)

22.

L. Hui, S. Jian-song, Z. Ai-Qin, Numerical simulation and deformation analysis of thermal stresses in stress frame. China Foundry 59(1), 38–41 (2010)

23.

C. Jianguo, K. Jinwu, Z. Jiafeng et al., Extraction of deformation of castings from simulated displacement results. Foundry Technol. 29(10), 1322–1326 (2008)

24.

C. Bing, Numerical simulation of investment casting process. Spec-Cast Non-Ferrous Alloy. 25, 683–686 (2005)

25.

S. Liwen, H. Hua, X. Hong, Numerical simulation of thermal stress and thermal cracking of casting. Res. Stud. Foundry Equip. 3, 20–22 (2006)

26.

L. Meie, X. Jiandong, Research development of thermal-mechanical numerical modeling of casting stress field. Foundry 51(3), 141–144 (2002)

27.

Z. Hui, K. Jinwu, H. Tian-you, Study of effect factors on thermal stress during solidification process. Hot Working Technol. 35(13), 69–72 (2006)

28.

Z. Xianshu, Y. Shan, J. Jun-ze, Study on calculation model of resistance stress of cast mold. J. Dalian Univ. Technol., 36(6), 687–691, (1996)

29.

Z. Xianshu, J. Jun-ze, Thermo-elasto-plastic analysis of the dynamic stress in stress-frame specimen. J. Dalian Univ. Technol. 22(3), 1–4 (1983)

30.

S. Kun, Z. Dongbo, L. Bingheng, Numerical simulation of casting stress considering mold resisting stress. Acta Metall. Sinica 12, 1258–1262 (2000)

31.

F. Xianjun, L. Dunming, Z. Jianxin et al., Bidirectional coupled simulation for casting thermal stress based on ANSYS. China Foundry 60(11), 1103–1106 (2011)

32.

H. Xiaomei, L. Jiayan, C. Wei et al., Study on digieal design and check of turbine blades based on reverse engineering. Metrol. Meas. Technol. 29(2), 8–10 (2009)

33.

Z. Meng, C. Liliang, W. Junchang, Dimension measurement of castings based on 3d reconstruction technology with marking points. China Foundry 59(4), 379–383 (2010)

34.

Y. Yongquan, Z. Shichao, X. Zhenjia, Application of 3d scanning technology in new casting development. J. Stand. Qual. Mech. Ind. 478, 37–41 (2013)

35.

Z. Shichao, Y. Yongquan, Z. Shoushuang et al., Application of 3d laser scanning technology in casting dimension inspection. Automobile Technol. Mater. 12, 61–64 (2012)

36.

H.-S. Li, Qualify for CAE and CAI integration applications based on moldflow and geomagic. CAD/CAM Manuf. Inf. 8, 51–53 (2009)

37.

L. Jingguo, Z. Xiaofeng, L. Xintao, Research on the production technology in the process of investment casting. Mod. Cast Iron 6, 67–69 (2006)

38.

J. Liu, K. Bu, Y. Li et al., Casting shrinkage analysis of turbine blade. Mod. Manuf. Eng. 3, 9–12 (2008)

Title

Investment Casting Process Design of Large-Size Superalloy Castings

Book

Precision Forming Technology of Large Superalloy Castings for Aircraft Engines

Print ISBN: 978-981-336-219-2

Electronic ISBN: 978-981-336-220-8

https://doi.org/10.1007/978-981-33-6220-8

DOI

https://doi.org/10.1007/978-981-33-6220-8_2

Author:

Guoxiang Wang

Publisher

Springer Singapore

Sequence number

Chapter number

Chapter 2

Premium Partners

Image Credits