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1. Effect of Addition of Alccofine on the Compressive Strength of Cement Mortar Cubes

Author

Balamuralikrishnan R. and Saravanan J.

Subjects
alccofine-1203, indian standard sand (ennore sand), compressive strength, mortar cube, ennore sand., Technology (General), T1-995, Social sciences (General), H1-99
Abstract

In the modern era, many research works are going on throughout the world for finding suitable cementitious material for the replacement of cement since it causes environmental pollution. In this order Fly ash, Silica fume, GGBS, Metakaolin, Micro materials, Quartz powder, etc. are tried out for replacing partially or fully the cement in concrete. A new ultrafine material called Alccofine (AF) which is manufactured from glass wastes is tried out for replacing partially in this research. Compressive strength is one of the important properties of cement. Strength tests are not made on neat cement paste because of difficulties of excessive shrinkage and subsequent cracking of neat cement. Cement mortar of 1:3 mix proportion is used to cast the cubes having an area of 50 cm2 are used for the determination of compressive strength of cement as per IS: 4031-1988 (Part-6). The graded Indian Standard sand (Ennore Sand -ES) confirming to IS: 650-1991 is used for preparing the cubes. In the same mix proportion, the same size cubes are cast with the River Sand (RS) to study the difference of the compressive strength between the Indian standard sand and river sand. Ordinary Portland cement (OPC) and Portland Pozzolana Cements (PPC) are used. The present study is the influence of Alccofine on cement mortar cubes by replacing the cement by Alccofine with various proportions like 5%, 10%, 15%, 20% were cast and tested in the laboratory as per Indian Standard 4301-1988 (Part-6) and the results were analysed and presented in the form of charts and graphs. It is observed that the early age strength is obtained for all the combinations but 10 percent of Alccofine yields more strength than other dosages. Doi: 10.28991/esj-2021-01265 Full Text: PDF

Published
2021
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3. Computational design of model Re/Ru bearing Ni-base superalloys

Author

Vamsi K.V., Goswami K.N., Vinay K.S., Verma S.K., Balamuralikrishnan R., Das Niranjan, Banerjee D., and Karthikeyan S.

Subjects
Engineering (General). Civil engineering (General), TA1-2040
Abstract

It is well established that Re and Ru additions to Ni-base superalloys result in improved creep performance and phase stability. However, the role of Re and Ru and their synergetic effects are not well understood, and the first step in understanding these effects is to design alloys with controlled microstructural parameters. A computational approach was undertaken in the present work for designing model alloys with varying levels of Re and Ru. Thermodynamic and first principles calculations were employed complimentarily to design a set of alloys with varying Re and Ru levels, but which were constrained by constant microstructural parameters, i.e., phase fractions and lattice misfit across the alloys. Three ternary/quaternary alloys of type Ni-Al-xRe-yRu were thus designed. These compositions were subsequently cast, homogenized and aged. Experimental results suggest that while the measured volume fraction matches the predicted value in the Ru containing alloy, volume fraction is significantly higher than the designed value in the Re containing alloys. This is possibly due to errors in the thermodynamic database used to predict phase fraction and composition. These errors are also reflected in the mismatch between predicted and measured values of misfit.

Published
2014
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4. Advanced Characterization and Calphad in Design and Development of Advanced High Strength Steels

Author

Veerababu, R., Balamuralikrishnan, R., Karthikeyan, S., Ramachandran, Divakar, Editorial Board Member, Basu, Bikramjit, Editorial Board Member, Chattoraj, I, Editorial Board Member, Prasad, N. Eswara, Editorial Board Member, Manna, Indranil, Editorial Board Member, Gokhale, Amol A., Editorial Board Member, Reddy, G. Madhusudan, Editorial Board Member, Shrivastava, Amber, editor, Arora, Amit, editor, Srivastava, Chandan, editor, Dhawan, Nikhil, editor, and Shekhar Singh, Sudhanshu, editor

Published
2023
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13. High temperature deformation behaviour and microstructure evolution in Cu containing High Strength Low Alloy (HSLA) steel.

Author

Ramana, A. Venkata, Balasundar, I., Davidson, M.J., Singh, Vajinder, Gautam, J.P., Gopinath, K., Balamuralikrishnan, R., and Raghu, T.

Subjects
LOW alloy steel, STRAIN rate, COPPER, CRYSTAL grain boundaries, TEMPERATURE effect
Abstract

The hot deformation behaviour of a Cu containing high strength low alloy (HSLA) steel has been evaluated by carrying out hot compression tests over a temperature range of 900 °C to 1100 °C and constant true strain rates of 0.0003 to 1 s−1. Although single peak flow curve is observed predominantly, a tendency to exhibit multiple peaks at low strain rates (0.0003 and/or 0.001 s−1) at temperature greater than 950 °C. The important parameters pertaining to dynamic recrystallisation (DRX), such as critical, peak, steady state stress and strain were ascertained, and the DRX state diagram depicting the variation of critical parameters governing DRX with Zener-Hollomon parameter Z was established. The volume fraction of recrystallised grains, computed from flow stress, as expected, follows a sigmoidal trend indicating higher kinetics at low strain rates for a given temperature. Reconstruction of prior austenite grain boundaries (PAGB) based on electron back scattered diffraction (EBSD) technique for a few select specimens clearly elucidated the effect of temperature and strain rate on the DRX behaviour of the steel. The DRX state diagram established here clearly demarcates the deformation space i.e. temperature-strain rate-stain space into regimes where the material exhibits full DRX, hardening/softening + DRX and only hardening (no DRX) behaviour. This would be useful for designing suitable forging sequence to achieve the desired microstructure and mechanical properties. [ABSTRACT FROM AUTHOR]

Published
2024
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14. Characteristics of self-compacting concrete using quarry dust.

Author

Kaleem, Asima, Balamuralikrishnan, R., and Habash, Dhulfiqar

Subjects
*SELF-consolidating concrete, *WASTE recycling, *INDUSTRIAL wastes, *QUARRIES & quarrying, *CONSTRUCTION materials, *COMPRESSIVE strength, *DUST, *CRUMB rubber
Abstract

Oman has made serious efforts to convert industrial waste into usable building materials. Ordinary concrete has demonstrated a lack of strong mechanical characteristics during compacting, such as honeycombing and segregation. Earlier studies have produced inventive concrete from recycled waste elements with success. Research have also shown that self-compacted concrete is the best way to achieve durable concrete and overcome the aforementioned problems. One such item found in Oman's industrial waste is quarry dust. In this study, experimental research is done to see if waste powder made from quarrying could be used to make self-compacting concrete. The primary goals of this paper are to create SCC mixes with quarry dust that satisfy the standards for workability and compare the compressive strength of the created SCC to the control mix. Self-compacted concrete was designed in three different mixes, Mix-A, Mix-B, and Mix-C, and the outcomes were compared to the Control Mix. Since the control mix contains no quarry dust, it is proposed that it replace 10%, 20%, and 30% of the fine aggregates in the mix. According to EFNARC requirements, the suggested SCC mix designs were tested for viability, including flow ability through slump flow and slump flow at T500 and segregation resistance through V-funnel. Using 150x150x150 mm cubes, all mixtures underwent compressive strength testing in accordance with the BS standard testing procedure. In contrast to the control mix, which completely failed the slump flow test, the results demonstrate that all SCC mix designs have met the stipulated workability criteria of flow ability of 671mm, 679mm, and 702mm for Mix-A, Mix-B, and Mix-C, respectively. Through the V-funnel test, Mix-C has demonstrated the best segregation resistance. With an average compressive strength of 48.8 MPa, Mix-B has proven to be the most effective mix among the three recommended designs. It also has the highest compressive strength of any mix, including the control mix. While the Control Mix, Mix-A, and Mix-C have attained respective pressures of 48.1, 46.1, and 38.6 MPa. The study finds that employing quarry dust in place of fine aggregates can successfully produce SCC. [ABSTRACT FROM AUTHOR]

Published
2024
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17. An Investigation on Eco Friendly Self-Compacting Concrete Using Spent Catalyst and Development of Structural Elements

Author

Balamuralikrishnan R., Ranya Al-Balushi, and Asima Kaleem

Subjects
Environmental Engineering, Building and Construction, Geotechnical Engineering and Engineering Geology, Civil and Structural Engineering
Abstract

The theme of this initiative is "Waste to Wealth." Construction materials, particularly concrete, need to have better qualities, including strength, rigidity, durability, and ductility, because Oman's construction industry is expanding. Self-compacting concrete (SCC) has more benefits than regular concrete, including better workability. The major focus of this study is the C30-grade SCC for the control mix, spent catalyst (zeolite catalyst)-based SCC, and the development of the RC beam's flexural behavior employing control and spent catalyst-based SCC. The preliminary study and the main study are the two study outcomes included in this project. Preliminary research involves creating four mixtures with various dosages of 3%, 6%, 9%, and 12% in order to optimize spent catalyst in C30 grade concrete. All of the cubes undergo a 28-day curing test. The cubes' compressive strength is tested in order to establish the ideal dosage, which is 9%. Develop a C30 grade control modified design mix in accordance with SCC and optimize chemical admixtures such as superplasticizer (SP) at different dosages, like 2, 2.5, 3, and 3.5%, using various trials and tests (slump flow, L-box, J-ring, V-funnel, and U-box tests), as well as the optimized dosage of spent catalyst (SC). The main study includes six singly reinforced RC beams with dimensions of 750 (L)×100 (B)×150 mm (D) that were cast and tested in the laboratory. After a 28-day curing period, two specimens were placed under a two-point loading setup, with the remaining two samples receiving the optimum dosages of spent catalyst and superplasticizer. All of the beams were tested using a Universal Testing Machine (UTM) with a 1000 kN capability. From the preliminary study, partial substitution of cement in control concrete of grade C30 using spent catalyst (SC), it was found that the 9% optimum dosage produces greater compressive strength compared to other doses, which are almost 10% rises at 28 days of curing period. Based on a different test, it was discovered that the optimum dose of 3% SP gave closer agreement and satisfied the need for SCC as per the BS standard. The load-carrying capability of the SCC beams is almost 21.7% higher than that of the control beams. Comparing the SCC beams to the control beams, their deflection was reduced by about 26% at the same load level, and their ductility rose by almost 33%. Comparatively to the control beam, the stiffness of 21.6% of SCC also rises. According to test results, the SCC beam performs better in every way when superplasticizer and spent catalyst are used at the recommended dosage. Doi: 10.28991/CEJ-2023-09-05-08 Full Text: PDF

Published
2023
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21. A Study on the Mechanical Properties of Green Concrete

Author

Kanmalai Williams, Balamuralikrishnan R., Adams Joe, and Shalin Prince

Subjects
Environmental Engineering, Building and Construction, Geotechnical Engineering and Engineering Geology, Civil and Structural Engineering
Abstract

Green concrete is a type of concrete that uses waste materials as one of its ingredients. Hazardous wastes like fly ash and silica fume can be used to partially replace cement in concrete, which varies in physical and chemical properties. On the other hand, the increase in automobiles in urban and rural areas has led to an increase in the number of waste tires, which promotes environmental pollution due to disposal issues throughout the world. This study aims to use waste materials which can partially replace cement and conventional aggregates in the concrete mix. Fly Ash (FA), Silica Fume (SF), and Plaster of Paris (PP) replaced cement, whereas Reclaimed Rubber (RR) partially replaced coarse aggregates by weight. This work is focused on experimentation and simulation of M 40 grade mix using the above four materials. 306 cubes were cast by replacing cement with FA, SF, and PP in 3% increments up to 24%. Similarly, coarse aggregates were replaced with RR using the same proportion. Compression tests were carried out using a Universal Testing Machine. 12% silica fume replacement exhibited maximum strength during individual replacement of materials in concrete, which is selected as the optimum percentage replacement. FA and PP developed ultimate strength at 9% replacement of cement in the concrete mix, which is considered the optimum replacement percentage. A Genetic Algorithm (GA) model was developed using a C++ program to simulate various combinations of FA, SF, PP, and RR based on individual optimum replacement percentage. Hence, 1600 combinations were identified with the above four materials. Hence, GA was used as a tool to simulate the compressive strength of concrete to reduce time and cost. During simulation of combined replacement using GA, very high and very low compressive strength values were neglected, and 32 combinations were selected based on optimum compressive strength values. Finally, five combinations (C1-C5) were recognized, which resulted in higher compressive strength than individual optimum values after simulation. The GA-based numerical results were validated by casting 15 cubes for all the five combinations. 15 beam samples of size 100 150 1500 mm were cast with the above five combinations, cured and tested using a loading frame. A load-deflection curve was plotted, which showed that material replacement increased the flexural strength of the concrete mix. Doi: 10.28991/CEJ-2022-08-05-012 Full Text: PDF

Published
2022
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36. EXPERIMENTAL STUDY ON C60 GRADE SELF-COMPACTION CONCRETE WITH MARBLE POWDER

Author

Balamuralikrishnan R, Aravind N, and Mohammed Nasser Al Khrusi

Abstract

Now days, self-compacting concrete is commonly used in construction industries. The main advantage of using selfcompaction concrete is, achieving the required strength without using the vibrators. In the present study, marble powderwas added with self-compaction concrete and their properties were studied. In Oman, marble factories produced marblepowders around 20-25% of total quantity of marbles by polishing and processing of marble blocks. These factories arefacing problem to dump those powders as landfill. These waste can be used as partially or completely replacement ofcement in concrete. In the present study, marble powders were mixed with C60 grade concrete as partial replacement ofcement (0%, 5%, 01% and 15%). Also flow test and compression test were conducted to study the effect of mixing marblepowder in self-compacting concrete.

Published
2017
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37. EXPERIMENTAL STUDY ON MECHANICAL PROPERTIES OF CONCRETE WITH SUNFLOWER SEED HUSK ASH AS PARTIAL REPLACEMENT OF CEMENT

Author

Balamuralikrishnan R, Sumaiya Marhoon Al-Dhahli, and Aravind N

Abstract

The present study depicts on mechanical properties of concrete withSunflower Seed Husk Ash (SSHA) as partialreplacement of cement. Concrete made with Ordinary Portland Cement is the most widely used material in all thecountries. Hence the production of Ordinary Portland Cement is expensive and ecologically harmful. Cement industriesreleasing huge quantity of CO2which pollute the environment. Structural concrete can be produced using sunflower seedhusk ash to meet strength and other requirements. In this project work, various percentages of SSHA added with concreteandthe mechanical properties where studied. The effects of SSHA as partial replacement of cement on concrete propertieswas investigated. Concrete was produced by adding various amount of SSHA (2.5%, 5%, and 7.5%). From the literaturereview it has been noticed that the replacement of sunflower seed husk ash in concrete was very successful in reducing ofunit weight, compressive strength, splitting tensile strength and freezing-thawing resistance. But water absorption rate isincreased after 28 and 90 days. Based on experimental results its physical and mechanical properties show that concreteproduced with sunflower seed husk ash has great potential as a low cost lightweight building material.

Published
2017
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38. AN EXPERIMENTAL STUDY ON STRENGTH AND CORROSION OF CONCRETE WITH STEEL SCRAP

Author

Balamuralikrishnan R, Salim Abdullah Al Wahaibi, and Aravind N

Abstract

Steel scrap is a waste product of steel plate manufacturing industry. Every year huge quantity of steel scrap is produced from drilling the steel plates and other related works. Disposing of those steel scrap is a major issues in Oman and all over the world. Landfill is one of the method for disposing the scraps however it produces soil pollution. Also in Oman, there is no waste separation system, therefore all the waste materials are dumped in soil especially in the desert and it is harmful to the environment. In the present study, steel scrap is added with concrete and the mechanical and physical properties were studied. Three tests were conducted such as slump test to measure the workability of fresh concrete, compressive strength test and corrosion test. In total, four various mixes were prepared with and without steel scrap. The first mix was normal mix without any steel scrap and the remaining three mixes were concrete with adding steel scrap with 1%, 2% and 3%. Based on the compressive strength test results, samples of 1%, 2%, 3% of adding steel scrap shows that the strength was increased for samples with 1% and 2% steel scrap and decreased for 3% steel scrap.

Published
2017
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40. A STUDY ON STYRENE - BUTADIENE RUBBER (SBR) LATEX MODIFIED FERROCEMENT

Author

Balamuralikrishnan R and Aravind N

Abstract

Ferrocement is a composite construction material which consists of highperformance mortar and meshes. Ferrocementis a good technique in the field of strengthening of existing structural members. However, there is a chance for corrosionof steel meshes used for ferrocement, since the cover thickness is very less. In the present study, SBR latex modifiedferrocement technique was introduced for the laminate preparation and the results were compared with normalferrocement. In this work, Styrene-Butadiene Rubber (SBR) polymer was added to the mortar to increase thestrengthening performance and to avoid the corrosion. Six numbers of ferrocement laminate were cast and tested in thelaboratory, out of which three ferrocement laminates with SBR latex and remaining three are ferro-cement laminatewithout SBR latex (normal ferrocement laminate). The sizes of laminates are 550 mm length, 150 mm width and 20 mmthickness. All the laminates were tested under a two point loading system. The ferro-cement laminate with SBR latexshows better strength and improved flexural capacity comparedto the normal ferrocement. The experimental resultsproved that the development of strength, deformability and fracture properties of laminate with SBR latex were morewhen compared to conventional ferro-cement.

Published
2016
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42. Effect of B on the microstructure and magnetostriction of zoned Dy0.7Tb0.3Fe1.95.

Author

Arout Chelvane, J., Palit, Mithun, Pandian, S., Balamuralikrishnan, R., Singh, A. K., Chandrasekharan, V., Narayana Jammalamadaka, S., and Markandeyulu, G.

Subjects
BORON, MICROSTRUCTURE, MAGNETOSTRICTION, ALLOYS, SCANNING electron microscopy, ANISOTROPY, MAGNETIC fields
Abstract

It had been reported that B has beneficial effects on the magnetostriction of anisotropy compensated Dy0.7Tb0.3Fe2 alloys. In the present work, Dy0.7Tb0.3Fe1.95 and Dy0.7Tb0.3Fe1.95Bx (x=0.1, 0.15, and 0.2) alloys, in the form of 8 mm diameter cylindrical rods, were investigated both in the as-cast and zoned conditions. At 5 kOe dc magnetic field, magnetostriction of ∼1200 and 900 microstrains was observed for zoned samples with x=0 and 0.1, respectively. For zoned samples with x>0.1 and for the as-cast sample of the parent alloy, magnetostriction of ∼500 microstrains was measured. X-ray diffraction of the zoned x=0 and x=0.1 samples showed a strong prevalence of the <112> and the <110> grain orientations; in contrast, the other samples appeared to possess a random grain orientation. Optical and scanning electron microscopy studies revealed a significant increase in the volume fraction of the RFe3 phase with increasing boron content. This increase in the volume fraction of the (Tb,Dy)Fe3 phase and the reduction in the desired grain orientation of the (Tb,Dy)Fe2 phase are attributed to be the reasons for the large decrease in the magnetostriction of the (Tb,Dy)Fe1.95 alloys with boron addition. [ABSTRACT FROM AUTHOR]

Published
2007
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43. Microstructure and magnetostriction of Tb0.3Dy0.7Fe1.95 prepared under different solidification conditions by zoning and modified Bridgman techniques.

Author

Palit, Mithun, Pandian, S., Balamuralikrishnan, R., Singh, A. K., Das, Niranjan, Chandrasekharan, V., and Markandeyulu, G.

Subjects
MICROSTRUCTURE, MAGNETOSTRICTION, INTERMETALLIC compounds, MAGNETISM, CONSTITUTION of matter
Abstract

An intermetallic compound of nominal composition Tb0.3Dy0.7Fe1.95 was conventionally cast in the form of cylindrical rods of 8 mm diameter and directionally solidified by zoning at three different growth rates. Compounds of the same nominal composition were also directionally solidified in the form of cylindrical rods of 20 mm diameter by modified Bridgman technique, at two different growth rates. The microstructure of the directionally solidified compounds has been investigated as a function of solidification rate and compared with that of conventionally cast compound. The observed microstructural features of these samples have been correlated with the magnetostriction measured on the corresponding samples. Further, by examining the longitudinal sections cut along its cylindrical axis, a correlation of microstructure with magnetostriction has been brought out for each directionally solidified sample as a function of distance from the initially solidified end to the other. It has been observed that a large magnetostriction (at 4.5 kOe) and a high initial slope of magnetostriction versus applied magnetic field are realized in the directionally solidified samples as compared to the conventionally cast sample. An improvement in the property has been observed among the directionally solidified samples when solidified with higher growth rates. It is surmised on the basis of the observed microstructural features in this study that a large magnetostriction is realized if formation of (Tb,Dy)Fe2 occurs by congruent solidification rather than by the peritectic reaction L+(Tb,Dy)Fe3→(Tb,Dy)Fe2. [ABSTRACT FROM AUTHOR]

Published
2006
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44. Effect of B on the microstructure and magnetostriction of zoned [Dy.sub.0.7][Tb.sub.0.3][Fe.sub.1.95]

Author

Chelvane, J. Arout, Palit, Mithun, Pandian, S., Balamuralikrishnan, R., Singh, A.K., Chandrasekharan, V., Jammalamadaka, S. Narayana, and Markandeyulu, G.

Subjects
Physics
Abstract

The alloy compositions of [Dy.sub.0.7][Tb.sub.0.3][Fe.sub.1.95] with extra addition of B are selected in order to examine the effect of zoning on the microstructure and magnetostriction. The reustls have shown that the increase in the volume fraction of the (Tb, Dy)[Fe.sub.3] phase and the reduction in the grain orientation of the (Tb, Dy)[Fe.sub.2] are the main reasons for the large decrease in the magnetostriction of the (Tb, Dy)[Fe.sub.1.95] alloys with boron addition.

Published
2007

45. Microstructure and magnetostriction of Tb0.3Dy0.7Fe1.95 prepared under different solidification conditions by zoning and modified Bridgman techniques

Author

Palit, Mithun, Pandian, S., Balamuralikrishnan, R., Singh, A.K., Markandeyulu, G., Das, Niranjan, and Chandresekharan, V.

Subjects
Strain gages -- Observations, Physics
Abstract

The compound Tb0.3Dy0.7Fe1.95 is conventionally cast and also directionally solidified using zoning and modified Bridgman techniques. The microstructures of the directionally solidified samples are studied using optical microscope, scanning electron microscope/energy dispersive spectroscopy (SEM)/EDS, and correlated with the magnetostriction measured by resistance strain gauges.

Published
2006

49. Computational design of model Re/Ru bearing Ni-base superalloys

Author

Vamsi, K.V., Goswami, K.N., Vinay, K.S., Verma, S.K., Balamuralikrishnan, R., Das, Niranjan, Banerjee, D., Karthikeyan, S., Vamsi, K.V., Goswami, K.N., Vinay, K.S., Verma, S.K., Balamuralikrishnan, R., Das, Niranjan, Banerjee, D., and Karthikeyan, S.

Abstract

It is well established that Re and Ru additions to Ni-base superalloys result in improved creep performance and phase stability. However, the role of Re and Ru and their synergetic effects are not well understood, and the first step in understanding these effects is to design alloys with controlled microstructural parameters. A computational approach was undertaken in the present work for designing model alloys with varying levels of Re and Ru. Thermodynamic and first principles calculations were employed complimentarily to design a set of alloys with varying Re and Ru levels, but which were constrained by constant microstructural parameters, i.e., phase fractions and lattice misfit across the alloys. Three ternary/quaternary alloys of type Ni-Al-xRe-yRu were thus designed. These compositions were subsequently cast, homogenized and aged. Experimental results suggest that while the measured volume fraction matches the predicted value in the Ru containing alloy, volume fraction is significantly higher than the designed value in the Re containing alloys. This is possibly due to errors in the thermodynamic database used to predict phase fraction and composition. These errors are also reflected in the mismatch between predicted and measured values of misfit.

Published
2014

50. Low cycle fatigue behaviour of a low interstitial Ni-base superalloy

Author

Gopinath, K, Gogia, AK, Kamat, SV, Balamuralikrishnan, R, and Ramamurty, U

Subjects
Materials Engineering (formerly Metallurgy)
Abstract

The low cycle fatigue behaviour of precipitation strengthened nickel-base superalloy 720Li containing a low concentration of interstitial carbon and boron was studied at 25, 400 and 650 degrees C. Cyclic stress response at all temperatures was stable under fully reversed constant total strain amplitude (Delta epsilon/2) when Delta epsilon/2 0.6%, cyclic hardening was followed by softening, until fracture at 25 and 650 degrees C. At 400 degrees C, however, cyclic stress plateaued after initial hardening. Dislocation-dislocation interactions and precipitate shearing were the micromechanisms responsible for the cyclic hardening and softening, respectively. The number of reversals to failure vs. plastic strain amplitude plot exhibits a bilinear Coffin-Manson relation. Transmission electron microscopy substructures revealed that planar slip was the major deformation mode under the conditions examined. However, differences in its distribution were observed to be the cause for the bilinearity in fatigue lives. The presence of fine deformation twins at low Delta epsilon/2 at 650 degrees C suggests the role of twinning in homogenization of cyclic deformation.

Published
2009

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