Your search keyword '"D.J. Child"' showing total 6 results

1. Influence of Tertiary Gamma Prime (γ′) Size Evolution on Dwell Fatigue Crack Growth Behavior in CG RR1000

Author

Paul Bowen, F. Schulz, Hangyue Li, D.J. Child, Hiroto Kitaguchi, and S.J. Williams

Subjects

Work (thermodynamics), Materials science, Structural material, Scanning electron microscope, Metallurgy, Metals and Alloys, 02 engineering and technology, Paris' law, 021001 nanoscience & nanotechnology, Condensed Matter Physics, Isothermal process, 020303 mechanical engineering & transports, 0203 mechanical engineering, Mechanics of Materials, Transmission electron microscopy, Stress relaxation, Composite material, 0210 nano-technology, Order of magnitude

Abstract

This work investigates coarsening behavior of strengthening precipitates (γ′) in coarse-grained RR1000 after isothermal exposure for various times (50 to 500 hours) at 700 °C and 750 °C. The impact of these isothermal treatments is then studied by carrying out dwell (1 hour) fatigue crack growth tests at 700 °C in air. Such dwell periods can increase crack growth rates by nearly two orders of magnitude compared with baseline (0.25 Hz trapezoidal waveform) fatigue crack growth tests. Predominantly, scanning electron microscopy was used for γ′ analysis. Transmission electron microscopy was also utilized when necessary. Overaging as a thermodynamically driven and diffusion-controlled process strongly affects tertiary γ′ precipitates for the temperatures and treatment times investigated here. No influence of overaging on baseline fatigue behavior is observed. However, after overaging at 750 °C for 500 hours (which increases the mean tertiary γ′ size by a factor of two from 17 to 37 nm), dwell crack growth rates at 700 °C are reduced by one order of magnitude. Increased dwell fatigue crack growth resistance is also measured after overaging for 100 hours at 700 °C. The potential influence of γ′ distributions on dwell fatigue crack growth resistance is discussed in terms of stress relaxation behavior during dwell periods.

Published

2018

2. High temperature fatigue behaviour in an advanced nickel based superalloy: The effects of oxidation and stress relaxation at notches

Author

Mark Hardy, Martin Bache, James O’Hanlon, and D.J. Child

Subjects

Materials science, Strain (chemistry), Double edge, Applied Mathematics, Mechanical Engineering, Metallurgy, 02 engineering and technology, Nickel based, 021001 nanoscience & nanotechnology, Condensed Matter Physics, Superalloy, 020303 mechanical engineering & transports, Materials Science(all), 0203 mechanical engineering, 13. Climate action, Stress relaxation, Notch geometry, Waveform, General Materials Science, Low-cycle fatigue, Composite material, 0210 nano-technology

Abstract

The low cycle fatigue performance of the nickel based superalloy RR1000 was investigated under a variety of load waveforms at high temperature, employing a double edge notch geometry under load control. Experiments on a plain cylindrical specimen design under strain control were later performed to simulate the constrained conditions at the root of the notch in order to characterise the interaction between surface constituents and the environment. A significant fatigue debit was demonstrated under both load/strain scenarios when superimposing a dwell period at the minimum point of the cycle. This debit was attributed to a reduction in fatigue crack initiation life resulting from oxidation damage which subsequently cracks under cyclic tension together with a modification to the mean stress through cyclic stabilisation. The same dwell period superimposed at the peak of the cycle was essentially benign for excursions under strain control loading.

Published

2016

3. On the Effect of Nb on the Microstructure and Properties of Next Generation Polycrystalline Powder Metallurgy Ni-Based Superalloys

Author

Robert J. Gilbert, Howard J. Stone, Paul Bowen, C. Argyrakis, Hangyue Li, D.J. Child, C. M. F. Rae, O.M.D.M. Messé, Alison Wilson, Ed Pickering, KA Christofidou, Alexander Evans, Nick Jones, Hiroto Kitaguchi, Suyang Yu, Mark Hardy, P. M. Mignanelli, Christofidou, KA [0000-0002-8064-5874], and Apollo - University of Cambridge Repository

Subjects

010302 applied physics, Materials science, Alloy, Metallurgy, Metals and Alloys, 02 engineering and technology, engineering.material, 021001 nanoscience & nanotechnology, Condensed Matter Physics, Microstructure, 01 natural sciences, 4016 Materials Engineering, Superalloy, Creep, Mechanics of Materials, Powder metallurgy, 0103 physical sciences, Volume fraction, Ultimate tensile strength, engineering, Crystallite, 0210 nano-technology, 40 Engineering

Abstract

The effect of Nb on the properties and microstructure of two novel powder metallurgy (P/M) Ni-based superalloys was evaluated, and the results critically compared with the Rolls-Royce alloy RR1000. The Nb-containing alloy was found to exhibit improved tensile and creep properties as well as superior oxidation resistance compared with both RR1000 and the Nb-free variant tested. The beneficial effect of Nb on the tensile and creep properties was due to the microstructures obtained following the post-solution heat treatments, which led to a higher γ′ volume fraction and a finer tertiary γ′ distribution. In addition, an increase in the anti-phase-boundary energy of the γ′ phase is also expected with the addition of Nb, further contributing to the strength of the material. However, these modifications in the γ′ distribution detrimentally affect the dwell fatigue crack-growth behavior of the material, although this behavior can be improved through modified heat treatments. The oxidation resistance of the Nb-containing alloy was also enhanced as Nb is believed to accelerate the formation of a defect-free Cr2O3 scale. Overall, both developmental alloys, with and without the addition of Nb, were found to exhibit superior properties than RR1000.

Published

2018

4. Inhomogeneous Grain Coarsening Behavior in Supersolvus Heat Treated Nickel-Based Superalloy RR1000

Author

Mark Hardy, I.M.D. Parr, C. Argyrakis, J.M. Stumpf, V. Saraf, K. Severs, D.J. Child, and T.J. Jackson

Subjects

010302 applied physics, Superalloy, Isothermal forging, Materials science, 0103 physical sciences, Metallurgy, Heat treated, 02 engineering and technology, Nickel based, Abnormal grain growth, 021001 nanoscience & nanotechnology, 0210 nano-technology, 01 natural sciences

Published

2016

5. Characterisation of an Advanced Nickel Based Superalloy Post Cold Work by Swaging

Author

James O’Hanlon, Mark Hardy, Philip J. Withers, Martin Bache, and D.J. Child

Subjects

Diffraction, Swaging, lcsh:TN1-997, Materials science, Bar (music), microstructure, Mechanical properties, 02 engineering and technology, mechanical properties, 020501 mining & metallurgy, General Materials Science, Texture (crystalline), Texture, Microstructure, lcsh:Mining engineering. Metallurgy, Metallurgy, Metals and Alloys, 021001 nanoscience & nanotechnology, Superalloy, 0205 materials engineering, Particle-size distribution, RR1000, swaging, 0210 nano-technology, texture, Electron backscatter diffraction

Abstract

Cylindrical bars of the advanced nickel based superalloy RR1000 were subjected to swaging to induce approximately 30% cold work. Grain size analysis demonstrated a distinct modification to the microstructure whilst electron back scattered diffraction (EBSD) measurements confirmed the evolution of a relatively strong texture parallel with the longitudinal bar axis. Intragranular strain damage was identified. The effects of the swaging on bulk mechanical properties are illustrated across a range of test temperatures.

Published

2016

6. The effect of minimum dwell cycles on the environmental and fatigue response of RR1000

Author

James O’Hanlon, Mark Hardy, Philip J. Withers, B. J. Foss, D.J. Child, and Martin Bache

Subjects

010302 applied physics, Materials science, Hold time, Mechanical engineering, Fatigue testing, 02 engineering and technology, Nickel based, 021001 nanoscience & nanotechnology, 01 natural sciences, Superalloy, Stress (mechanics), 13. Climate action, lcsh:TA1-2040, 0103 physical sciences, Crack initiation, Cyclic loading, Surface oxidation, Composite material, 0210 nano-technology, lcsh:Engineering (General). Civil engineering (General)

Abstract

Minimum dwell fatigue testing of nickel based superalloy FG RR1000 at 650 ∘ C has led to significant reductions in fatigue life. The reduction in fatigue life under minimum dwell fatigue has been caused by relatively early and multiple crack initiation events from a highly oxidised surface. The depth of oxidation damage, in the present circumstances achieved under cyclic loading at 650 ∘ C, appeared similar to previous stress free isothermal exposure studies conducted on RR1000 but at higher temperature/shorter duration suggesting an enhancement in oxidation due to applied stress. Surface oxidation and crack initiation were clearly resisted under the baseline loading cycle despite being exposed for similar periods of exposure time. To understand the respective effects of the environment and minimum dwell period, vacuum fatigue and hold time oxidation tests have been completed.

Published

2014