Effect of Die Geometry on Fatigue Analysis of Aluminium Alloy (ADC12 Aluminium A383) using Pressure Die Casting Process

Authors

  • Poshan Dewangan Research Scholar, RSR Rungta College of Engineering and Technology, Bhilai, Chhattisgarh, India Author
  • Ved Prakash Dewangan Research Scholar, RSR Rungta College of Engineering and Technology, Bhilai, Chhattisgarh, India Author
  • Sushil Kumar Maurya Assistant Professor, Modern Institute of Technology and Research Centre, Alwar, Rajasthan, India Author
  • Lokesh Singh Assistant Professor, RSR Rungta College of Engineering and Technology, Bhilai, Chhattisgarh, India Author

DOI:

https://doi.org/10.32628/IJSRCE

Keywords:

Aluminium Alloys, Die-Casting, Thermal Fatigue, Temperature Distribution, Life

Abstract

Dies for aluminium alloys die-casting fail because of a great number of different and simultaneously operating factors. Some of them may be controlled to some extent by the die-casting experts. In the process of the die-casting the primary source of loading is cyclic variation of the temperature; the influence of other loads is relatively insignificant. For economical production of aluminium and aluminium alloys die castings it is important that the dies have a long working life. The replacement of a die is expensive in both: money and production time. The die design, the material selection and the process thermal fatigue stress which is the consequence of the working conditions, the inhomogeneous and to low initial temperature of the die, contribute to the cracks formation. The main objective of this work to find out The thermal fatigue of die casting Aluminium Alloy (A02240) causes reduction in tool life and seriously affects the surface conditions such as microstructure, hardness, surface finish and residual stresses. The size and location of cooling channels relative to the surface of the die, which affect the thermal stresses and fatigue life of dies. This work focus on thermal fatigue analysis of Aluminium alloy pressure die casting process and analyses the effect of coolant channel location on temperature distribution and fatigue parameters such as life, damage, equivalent alternating stress and biaxiality using ANSYS Workbench 17.1 finite-element package.              

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References

JCollot et alReview of New Process Technologies in the Aluminum Die-Casting IndustryMaterials and Manufacturing Processes, 200116(5): p595-617.

QHan, and SViswanathan, Analysis of the mechanism of die soldering in aluminium die castingMetallurgical and Materials ransactions, 200334(1): p139-146.

ASrivastava, VJoshi and R Shivpuri; 2004; Computer modelling and prediction of thermal fatigue cracking in diecasting toolingIntJWear 256: 38-43.

DSchwam, JFWallace and SBirceanu; 2004; Effect of design factors on thermal fatigue cracking of die casting diesDE-FC07-00ID138486,US Department of Energy, Washington, DC.

DNovovic, RCDewes and DKAspinwall;2004; The effect of machined topography and integrity on fatigue lifeIntJMach Tools Manuf44 :125-134.

MOkayasu; 2009; Comparison of mechanical properties of die cast aluminium alloys: cold vshot chamber die casting and high vslow speed filling die castingIntJCast MetRes22: 324-381.

SAqida etal., Thermal fatigue properties of laser treated steelsInternational Journal of Material Forming, 20103(1): p797-800.

J.J.Moverare,; DGustafssonHold-time effect on the thermo-mechanical fatigue crack growth behaviour of inconel 718MaterSciEngA 2011, 528, 8660–8670.

SChang, K.Huang, and YWang, Effects of thermal erosion and wear resistance on AISI H13 tool steel by various surface treatmentsMaterials Transactions, 201253(4): p745-751.

DKlob?car.; LKosec; J.Tušek; Thermo fatigue cracking of die casting diesEngFailAnal2012, 20, 43–53.

IKoutiri, , et al., High cycle fatigue damage mechanisms in cast aluminium subject to complex loadsInternational Journal of Fatigue, 201347: p44-57.

DMatiskova,.; SGaspar,.; LMura,Thermal factors of die casting and their impact on the service life of moulds and the quality of castingsActa PolytechHung2013, 10, 65–78.

DMatiskova,.; SGaspar,.; LMura,Thermal factors of die casting and their impact on the service life of moulds and the quality of castingsActa PolytechHung2013, 10, 65–78.

Fazliana Fauzun, SNAqida, SNaher and DBrabazon;2014; effects of thermal fatigue on laser modified H13 Die Steel; Journal of mechanical engineering and sciences(JMES);ISSN:2289-4659; volume 6, pp975-980.

Xu, W.; Li, W.; Wang, YExperimental and theoretical analysis of wear mechanism in hot-forging die and optimal design of die geometryWear 2014, 318, 78–88.

Qian wan, Haidong Zhao and Chun Zou; 2014; effect of micro porosities on fatigue behavior in Aluminium die casting by 3D x-ray tomography inspection; doi.org/10.2355/isijinternatinal.

OAmmar,; NHaddar,; LRemy, Numerical computation of crack growth of low cycle fatigue in the 304l austenitic stainless steelEngFractMech2014, 120, 67–81.

IVicario, JKIdoiaga, EArratibel and PCaballero;2015; Development of HPDC advanced dies by casting with reinforced tool steels; International Journal of manufacturing Engineering;doi.org/10.1155/2015/287986.

CChen; YWang; Energy-based approach to thermal fatigue life of tool steels for die casting diesIntJFatigue 2016, 92, 166–178.

Xu Li, Bao-sheng Liu, Li-feng Hou and Ying-hui Wei;2017; Failure investigation of an AlSi9Cu3 Alloy Die-Cast Cavity Insert; Journal of failure analysis and prevention; issue6.

Ibrahim Ozbay, Tamer Aydiner, Gurkan Yilmazoglu and Hafize Celik;2019; Aluminium high pressure Die casting application on rear frame rails; European mechanical science; e-ISSN: 2587-1110.

Federico Simone Gobber, Andrea Giuseppe Pisa and Mario Rosso;2019; design of a Test Rig for the characterization of thermal fatigue and soldering resistance of the surfaces of tool steels for high pressure die casting dies; Steel research International: doi.org/10.1002/srin.201900480.

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Published

15-03-2021

Issue

Section

Research Articles

How to Cite

Dewangan, P., Dewangan, V. P., Maurya, S. K., & Singh, L. (2021). Effect of Die Geometry on Fatigue Analysis of Aluminium Alloy (ADC12 Aluminium A383) using Pressure Die Casting Process . International Journal of Scientific Research in Civil Engineering, 5(2), 17-26. https://doi.org/10.32628/IJSRCE

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