Contribution to the study of deformation twinning in titanium. Much research has been devoted to model deformation of hexagonal metals using polycrystal plasticity theory. To demonstrate the mechanisms of deformation in bcc, fcc, and hcp structure metals and alloys and in some ceramics as well. However, the twining behavior in nc bcc and hcp metals have not been well studied, although it is generally observed that nc hcp metals are more dif. Significance of mechanical twinning in hexagonal metals at. Thus, hcp metals possess much lesser ductility than fcc metals. Twinning plays role in the critical deformation of hexagonal closepacked hcp metals. Download pdf 8236k download meta ris compatible with endnote, reference. Metals with hcp structures have reduced number of available slip systems compared to cubic structures, making plastic deformation more difficult. A clustertype grain interaction deformation texture model accounting for twinninginduced texture and strainhardening evolution. A higher srs for certain fcc and hcp nanopolycrystals is explained by extrapolation from. In fact, hcp iron develops a strong crystallographic preferred orientation with the caxis parallel to. The twin plane is a boundary which separates two orierltations that are mirror images of one another. In particular, twinning is important in hexagonal close packed.
Deformation twinning in hexagonal materials mrs bulletin. Chapter outline dislocations and strengthening mechanisms. While deformation by slip mechanisms is reasonably well understood, less remains known about deformation by. Unfortunately, the twinning mechanisms in hcp metals alloys are still unclear despite extensive studies 20212223, which could be attribute to the changes of the energy pathway for. Different hexagonal close packed hcp metals are shown to follow either the bcc or fcc case. Deformation twinning in a nanocrystalline hcp mg alloy. Strength and ductility are correlated with the intrinsic physical and metallurgical variables. Twinning is the result of identical motions of atoms of a plurality of rows parallel to a twinning plane in the original lattice. Deformation twinning mechanism in hexagonalclosepacked. Law of atomic motion during 1011 twinning in magnesium alloys. To exanline the deformed microstructures slip lines and twin boundaries in different. The important role of twinning in plastic deformation is that it causes changes in plane orientation so that further slip can occur.
Plastic deformation of metallic alloys usually takes place through slip, but. In magnesium and its alloys, two types of caxis twins are. On the other hand, twinning in tial becomes active at temperatures around 750800 c where slip by ordinary and superlattice dislocations takes place, but not at lower temperatures where glide by superlattice dislocations dominate. Deformation twinning mechanism in hexagonalclosepacked crystals. In cubic metals arbitrary changes in shape can be completely accommodated by easy slip, and twins form as a result of glide processes. Twinning can cause compression, or extension along the caxis depending on the ca ratio of the metal. Doitpoms tlp library superelasticity and shape memory. Slip, twinning, and fracture in hexagonal closepacked metals. Zr alloys, the main domains of crsss which lead to qualitatively different textures. Slip occurs when crystal planes glide past each other. In the search for new alloys with a great strengthtoweight ratio, magnesium has emerged at the forefront.
The details of a number of phenomena relevant to twinning, including the microstructure of tbs, the tb migration characteristics, and the twin nucleation remain obscure due. Progress in materials science deformation twinning in. In coarsegrained fcc and bcc materials, stacking faults and deformation twins usually occur in metals and alloys with low stacking fault energy, although high strain rate and low deformation temperature can significantly promote twinning. Abstract the important role of deformation twinning in plastic deformation of h. In magnesium and its alloys, two types of caxis twins are frequently reported, 1012 1011 tension. The sfe determines the plastic deformation mechanisms of fcc metals, which switches the deformation mode from dislocation slip to twinning and finally to fcc hcp simt via lowering the sfe. Basics of deformation twinning in fcc metals deformation twinning as a common deformation mechanism has been described in textbooks53 as well as specialized books dealing with dislocations and deformation of metals 54. Acoustic emission ae, the phenomenon whereby transient elastic waves are generated by the. Alloy deformation ghazisaeidi studies hcp alloys for theoretical, industrial applications project lead. High strain rate properties of metals and alloys r. Twin nucleation model based on pn formulation 22 outline. Deformation twinning mechanisms and modeling in fcc, bcc metals and smas. Easy slip along does not provide for deformation along 0001.
Twinning plays an important role in the plastic deformation of hexagonal closepacked hcp metals such as mg alloys, because of their limited number of slip sy we use cookies to enhance your experience on our website. Alloys are usually stronger than pure metals interstitial or substitutional impurities cause lattice strain. Here we will only brie y describe some selected aspect of it to help with the discussions in the following sections of. A variational constitutive model for sliptwinning interactions in hcp metals. The surface along which the lattice points are shared in twinned crystals is called a composition surface or twin plane.
Texture development in polycrystals depends on the active deformation mechanisms. Twinning modes in hcp metals are distinguished by their ability to produce either tensile or compressive strain along the crystallographic caxis, but not both. A bifurcated homogeneous nucleation model is presented on the basis of the classical nucleation theory, the shape bifurcation theory and the elastic inclusion model. Deformation twins are the result of stress on the crystal after the crystal has formed. Twinning in bcc metals part 2 twinning stress in smastwin nucleation model. The important role of deformation twinning in plastic deformation of h.
Here, by using stateoftheart in situ transmission electron microscopy, the atomic mechanisms of twinning. The deformation twinning from hcp crystals has been heavily researched 1 6 due to the role it plays in the dominant deformation mode and the strengthening mechanism of materials 7 10. Sep, 2006 the important role of deformation twinning in plastic deformation of h. Plastic deformation of metallic alloys usually takes place through slip, but occasionally involves twinning. Dislocations and plastic deformation 9motion of dislocations in response to stress 9slip systems 9plastic deformation in single crystals polycrystalline materials strengthening mechanisms 9grain size reduction 9solid solution strengthening 9strain hardening recovery, recrystallization, and grain growth not tested. Atomicscale in situ tem investigation of deformation. This is achieved by the passage of dislocations on different glide planes. Hexagonal closepacked hcp metals 1 are used in a wide variety of engineering sectors, including aerospace, nuclear, automotive, scientific instrumentation, chemical engineering and bioengineering. In coarsegrained hcp metals and alloys, twinning is a common deformation mechanism because their small. The deformation twinning from hcp crystals has been heavily researched due to the role it plays in the dominant deformation mode and the strengthening mechanism of materials. The deformation twinning from hcp crystals has been heavily. Please redirect your searches to the new ads modern form or the classic form. Size effect on deformation twinning at the nanoscale in.
Twinning induced nanostructure formation during cryo. Twinning has been experimentally seen in highentropy alloys, but understanding how it operates remains a challenge. Deformation twinning mechanisms and modeling in fcc. There has been little previous work on the hightemperature deformation of directionally solidi.
Deformation twinning in hexagonal materials mrs bulletin volume 41 april 2016 w w w. Modeling of deformation behaviour of hcp metals using. Deformation twinning in hexagonal materials xiaozhou liao, jian wang, jianfeng nie, yanyao jiang, and peidong wu due to the scarcity of easy slip systems in hexagonal materials with a hexagonal closepacked structure hcp, deformation twinning plays a crucial role in determining mechanical. The metals and alloys are used owing to the combination of excellent mechanical properties, corrosion resistance and the ability to engineer new. Ratedependent hardening model for hcp metals with effect. Intrinsic rotationangle fluctuations of twinning in hcp. Deformation twinning mechanisms and modeling in fcc, bcc. This results in an optimum grain size that is easiest to deform by twinning for fcc metals 40, 42. With a strength rivaling that of steel and aluminum alloys materials which are deployed widely in real world applications today but only a fraction of the density, magnesium holds great promise in a variety of nextgeneration applications.
Grain boundary sliding in higha temperature deformation of. Developing hcp with improved alloys properties requires a fundamental knowledge on the twinning mechanisms which, however,remain largely theoretical contentions. First principles study of deformation mechanisms in hcp alloys funding source. Mechanical twinning occurs in metals that have bodycentered cubic bcc and hexagonal close packed hcp crystal structures, at low temperatures, and at high rates of loading shock loading, conditions under. On the mechanistic basis of deformation at the microscale. Developing hcp alloys with improved properties requires a fundamental knowledge on the twinning mechanisms which, however, remain largely theoretical contentions. The reason for the observed grain size effect on twinning in hcp materials is not clear.
It is now well accepted that twin nucleation in fcc materials occurs due to passage of shockley partials over successive 111 planes. Due to the scarcity of easy slip systems in hexagonal materials with a hexagonal closepacked structure hcp, deformation twinning plays a crucial role in determining mechanical properties and texture evolution. Various primary and secondary slip and twinning mechanisms can be activated at the same time during the deformation of the hcp materials. It would be scientifically and technically important to activate deformation twinning in nc hcp metals. The potentially active deformation modes to be considered here are those reported by tenckhoff. Intrinsic rotationangle fluctuations of twinning in hcp mg. The case of tita nium and ti alloys, which present basal slip and less twinning activity, is analyzed in a coming paper 51. Crystal twinning occurs when two separate crystals share some of the same crystal lattice points in a symmetrical manner. To exanline the deformed microstructures slip lines and twin boundaries in different grains of metallic and ceramic specimens. Trace analysis of prepolished surfaces enabled identification of the twin or slip.
Size effect, twinning, hcp metals, lattice strain, molecular dynamics simulations. Dependingupontheca axialratio,hcptwinningmodes may be either tensile or compressive 14. Basics of deformation twinning in fcc metals deformation twinning as a common deformation mechanism has been described in textbooks53 as well as specialized books dealing with dislocations and deformation of metals54. In this work we have focussed on twinning in fcc alloys. Here, the authors show that twinning can be a primary deformation mechanism in. Hanyang university, south korea korea atomic energy research institute. Internal strain and texture evolution during deformation. Pdf due to the scarcity of easy slip systems in hexagonal materials with a hexagonal. Linking energy pathways with deformation behavior of fcc.
Sep 04, 2018 the important role of twinning in plastic deformation is that it causes changes in plane orientation so that further slip can occur. Slip and twinning are the two fundamental modes by which metals and alloys can deform plastical1y. The result is an intergrowth of two separate crystals in a variety of specific configurations. Size effect on deformation twinning at the nanoscale in hcp metals. Size effect on deformation twinning at the nanoscale in hcp. The predominant deformation twinning mechanism in all hcp metals is the 10. Twinning plays critical role in the deformation of hexagonal closepacked hcp metals. While deformation by slip mechanisms is reasonably well. Size effect, twinning, hcp metals, lattice strain, molecular dynamics simulations because the number of slip systems in hexagonal closepacked hcp metals is limited, deformation twinning can be favored over dislocation slip.
By continuing to use our website, you are agreeing to our use of cookies. Deformation behavior of hcp tial alloy single crystals. However, twinning is rarely observed in nc hcp metals and alloys, with the exception of nc zr processed by surface mechanical attrition. The objective of this research is to study the deformation mechanisms associated with twinning in hcp metals magnesium and zirconium alloys. Grain size effect on deformation twinning and detwinning. Most of the tests were conducted in compression and at temperatures between 77 and k. Mechanisms of plastic deformation and acoustic emission in. The details of a number of phenomena relevant to twinning, including the microstructure of tbs, the tb migration characteristics, and the twin nucleation. Deformation twinning is the primary plastic deformation mechanism in several bcc, hcp and low stacking fault energy fcc metals and alloys.
In the case of magnesium, the dominant twinning mode 10. In particular, twinning is important in hexagonal close packed materials where the easy slip systems are insufficient to accommodate arbitrary deformations. Roles of slip and twinning on indentation formations in. The objective of this research is to study the deformation mechanisms associated with twinning in. The research effort whose results are presented in this paper had as a primary objective the application of a constitutive description for the onset of twinning in conjunction with a constitutive equation for slip to obtain maps for the two regions slip and twinning for a variety of fcc, bcc, and hcp metals. This is a pdf file of an unedited manuscript that has been accepted for publication. Twinning is the result of identical motions of atoms of a plurality of rows parallel to a twinning plane in the.
Jan 22, 20 deformation twins deformation or mechanical twins or gliding twins are most prevalent in close packed hexagonal hcp metals e. While deformation by slip mechanisms is reasonably well understood, less remains known about deformation by twinning. Twinning plays an important role in accommodating plastic deformation due to the limited number of independent slip systems in hcp metals. Ratedependent hardening model for hcp metals with effect of deformation twinning and dynamic recrystallization 6 th international conference and exhibition on materials science and engineering september 1214, 2016 atlanta, usa. Pdf deformation twinning in hexagonal materials researchgate. Deformation twinning in nanocrystalline materials sciencedirect. As only a small fraction of the volume gets twinned, the amount of total deformation is less. On the other hand, f1012 g twins occur in caxis compression in zinc, whose ca 1.
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