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Erschienen in:
Digital Technologies for Transport and Mobility: Challenges, Trends and Perspectives Kapitel lesen Erstes Kapitel lesen

2020 | OriginalPaper | Buchkapitel

14. Distortions in Large Aluminum Forgings: Current Situation and Simulation Challenges

verfasst von : Ramiro Mena, Stéphane Guinard, José V. Aguado, Antonio Huerta

Erschienen in: Computation and Big Data for Transport

Verlag: Springer International Publishing

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Abstract

Distortions after machining of large aluminum forgings are a recurrent problem for the aeronautical industry. These deviations from design geometry are caused by the presence of residual stresses, which are developed along the manufacturing chain. To solve this problem, a series of post-machining operations called reshaping are required. Despite reshaping manages to restore the correct geometry, it is highly manual and time-consuming, therefore, there is a need at an industrial level to use numerical simulation to study reshaping. The present document describes the problem of distortion, the operations required to mitigate these geometrical defects and the challenges associated to simulate reshaping.

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Vorheriges Kapitel Using Aerial Platforms in Predicting Water Quality Parameters from Hyperspectral Imaging Data with Deep Neural Networks
Fußnoten
1
Nowadays, the biggest forging has a capacity of 80k ton and is located in China Du et al. [10].
 
2
Action to replace composite structures to single components.
 
Literatur
1.
Akkurt A (2011) Comparison of roller burnishing method with other hole surface finishing processes applied on AISI 304 austenitic stainless steel. J Mater Eng Perform 20(6):960–968CrossRef
2.
ASME (1983) The Wyman-Gordon 50,000-ton forging press. Technical report, The American Society of Mechanical Engineers (ASME)
3.
Ball D, Dubowski D, Spradlin T (2016) Inclusion of forging residual stresses in large component structural design. In: 2016 USAF aircraft structural integrity program conference
4.
Cerutti X (2014) Numerical modelling and mechanical analysis of the machining of large aeronautical parts: Machining quality improvement. Ph.D. thesis, Ecole Nationale Supérieure des Mines de Paris
5.
Cerutti X, Mocellin K, Hassini S, Blaysat B, Duc E (2016) Methodology for aluminium part machining quality improvement considering mechanical properties and process conditions. CIRP J Manuf Sci Technol 18:18–38CrossRef
6.
Chantzis D, Van-Der-Veen S, Zettler J, Sim WM (2013) An industrial workflow to minimise part distortion for machining of large monolithic components in aerospace industry. Procedia CIRP 8:281–286CrossRef
7.
Chinesta F, Leygue A, Bordeu F, Aguado JV, Cueto E, Gonzalez D, Alfaro I, Ammar A, Huerta A (2013) PGD-based computational vademecum for efficient design, optimization and control. Arch Comput Methods Eng 20(1):31–59MathSciNetCrossRef
8.
Christopherson DG (1940) A theoretical investigation of plastic torsion in an I-beam. Aeronaut J 44(353):425–432CrossRef
9.
Coules HE, Horne GC, Kabra S, Colegrove P, Smith DJ (2017) Three-dimensional mapping of the residual stress field in a locally-rolled aluminium alloy specimen. J Manuf Process 26:240–251CrossRef
10.
Du J, Deng Q, Dong J, Xie X, Wang Z, Zhao C, Chen G, Xie W, Luo T, Wang X, Zhang Y (2014) Recent progess of manufacturing technologies on C&W superalloys in China. In: Ott E, Banik A, Liu X, Dempster I, Heck K, Andersson J, Groh J, Gabb T, Helmink R, Wusatowska-Sarnek A (eds) 8th International symposium on superalloy 718 and derivatives, TMS (The Minerals, Metals & Materials Society), pp 33–46
11.
Ellermann A, Scholtes B (2012) Residual stress states as a result of bending and straightening processes of steels in different heat treatment conditions. Int J Mater Res 103(1):57–65CrossRef
12.
Forrest G (1954) Internal or residual stresses in wrought aluminium alloys and their structural significance. J R Aeronaut Soc, pp 261–276CrossRef
13.
Jeanmart P, Bouvaist J (1985) Finite element calculation and measurement of thermal stresses in quenched plates of high-strength 7075 aluminium alloy. Mater Sci Technol 1:765–769CrossRef
14.
Kalpakjian S, Steven S (2014) Manufacturing processes for engineering materials, 7th edn
15.
Ma K, Goetz R, Srivatsa SK (2010) Modeling of residual stress and machining distortion in aerospace components. In: Furrer D, Semiatin S (eds) Metals process simulation. ASM International, pp 386–407
16.
Marin G (2000) Calcul et optimisation des structures mécaniques. Ph.D. thesis, Université Technologique Compiégne
17.
Mitze M (2010) Straightening heat-treated components. J Heat Treat Mater 65:110–117CrossRef
18.
Murthy RL, Kotiveerachari B (1981) Burnishing of metallic surfaces - a review. Precis Eng 3:172–179CrossRef
19.
Narahari Prasad S, Rambabu P, Eswara Prasad N (2017) Processing of aerospace metals and alloys: part 2 - secondary processing. In: Prasad Eswara N, Wanhill R (eds) Aerospace materials and material technologies, vol 2. Springer, Singapore, pp 199–228
20.
Pi YL, Trahair NS (1995) Inelastic torsion of steel I-beams. J Struct Eng 121(4):609–620CrossRef
21.
Robinson J, Hossain S, Truman C, Paradowska A, Hughes D, Wimpory R, Fox M (2009) Residual stress in 7449 aluminium alloy forgings. Mater Sci Eng: A 527(10–11):2603–2612
22.
Robinson JS, Tanner DA, Truman CE (2014) 50th anniversary article: the origin and management of residual stress in heat-treatable aluminium alloys. Strain 50(3):185–207CrossRef
23.
Schijve J (2009) Residual stress. Fatigue of structures and materials, pp 89–104
24.
Schott C, Ellermann A, Zinn W, Scholtes B (2016) Consequences of bend straightening processes on residual stresses and strength of quenched and tempered steels. HTM-J Heat Treat Mater 71(2):75–82CrossRef
25.
Sim W (2008) Challenges of residual stress and part distortion in the civil airframe industry. In: 2nd International conference on distortion engineering, pp 87–94
26.
Sim W (2011) Residual stress engineering in manufacture of aerospace structural parts. In: 3rd International conference on distorsions engineering, pp 187–194
27.
Smith C, Crowther J (1955) The production of large forgings in aluminium alloys. J R Aeronaut Soc 59(537):604–612CrossRef
28.
Timoshenko S (1940) Strength of materials: part II advanced theory and problems, 2nd edn. D. Van Nostran Company, Inc
29.
Withers P, Bhadeshia H (2010) Residual stress. Part 1 - measurement techniques. Mater Sci Technol 17(4):355–365CrossRef
30.
Yin F, Rakita M, Hu S, Han Q (2017) Overview of ultrasonic shot peening. Surf Eng 33(9):651–666CrossRef
Metadaten
Titel
Distortions in Large Aluminum Forgings: Current Situation and Simulation Challenges
verfasst von
Ramiro Mena
Stéphane Guinard
José V. Aguado
Antonio Huerta
Copyright-Jahr
2020
Buch
Computation and Big Data for Transport

Print ISBN: 978-3-030-37751-9

Electronic ISBN: 978-3-030-37752-6

Copyright-Jahr: 2020

DOI
https://doi.org/10.1007/978-3-030-37752-6_14

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