Publications
2020
Modelling of metallic particle binders for increased part density in binder jet printed components
Roberts, J. W., Sutcliffe, C. J., Green, P. L., & Black, K. (2020). Modelling of metallic particle binders for increased part density in binder jet printed components. ADDITIVE MANUFACTURING, 34. doi:10.1016/j.addma.2020.101244
Automatic quality assessments of laser powder bed fusion builds from photodiode sensor measurements
Jayasinghe, S., Paoletti, P., Sutcliffe, C., Dardis, J., Jones, N., & Green, P. L. (2022). Automatic quality assessments of laser powder bed fusion builds from photodiode sensor measurements. PROGRESS IN ADDITIVE MANUFACTURING, 7(2), 143-160. doi:10.1007/s40964-021-00219-w
Microstructure and mechanical properties of Cu-modified AlSi10Mg fabricated by Laser-Powder Bed Fusion
Garmendia, X., Chalker, S., Bilton, M., Sutcliffe, C. J., & Chalker, P. R. (2020). Microstructure and mechanical properties of Cu-modified AlSi10Mg fabricated by Laser-Powder Bed Fusion. Materialia, 100590. doi:10.1016/j.mtla.2020.100590
A study into the effects of gas flow inlet design of the Renishaw AM250 laser powder bed fusion machine using computational modelling
Philo, A. M., Sutcliffe, C. J., Sillars, S., Sienz, J., Brown, S. G. R., & Lavery, N. P. (2020). A study into the effects of gas flow inlet design of the Renishaw AM250 laser powder bed fusion machine using computational modelling. Solid Freeform Fabrication 2017: Proceedings of the 28th Annual International Solid Freeform Fabrication Symposium - An Additive Manufacturing Conference, SFF 2017, 1203-1219.
Material characterisation using electronic imaging for Electron Beam Melting process monitoring
Wong, H., Garrard, R., Black, K., Fox, P., & Sutcliffe, C. (2020). Material characterisation using electronic imaging for Electron Beam Melting process monitoring. MANUFACTURING LETTERS, 23, 44-48. doi:10.1016/j.mfglet.2019.12.005
2019
Multi-Laser Powder Bed Fusion Benchmarking-Initial Trials with Inconel 625
Wong, H., Dawson, K., Ravi, G. A., Howlett, L., Jones, R. O., & Sutcliffe, C. J. (2019). Multi-Laser Powder Bed Fusion Benchmarking-Initial Trials with Inconel 625. INTERNATIONAL JOURNAL OF ADVANCED MANUFACTURING TECHNOLOGY, 105(7-8), 2891-2906. doi:10.1007/s00170-019-04417-3
Modelling of Metallic Particle Binders for Increased Part Density in Binder Jet Printed Components
Roberts, J., Green, P., Black, K., & Sutcliffe, C. (2019). Modelling of Metallic Particle Binders for Increased Part Density in Binder Jet Printed Components. doi:10.20944/preprints201911.0064.v1
Benchmarking spatial resolution in electronic imaging for potential in-situ Electron Beam Melting monitoring
Wong, H., Neary, D., Jones, E., Fox, P., & Sutcliffe, C. (2019). Benchmarking spatial resolution in electronic imaging for potential in-situ Electron Beam Melting monitoring. ADDITIVE MANUFACTURING, 29. doi:10.1016/j.addma.2019.100829
Automatic Fault Detection for Selective Laser Melting using Semi-Supervised Machine Learning
Okaro, I., Jayasinghe, S., Sutcliffe, C., Black, K., Paoletti, P., & Green, P. (2019). Automatic Fault Detection for Selective Laser Melting using Semi-Supervised Machine Learning. Additive Manufacturing, 27, 42-53. doi:10.1016/j.addma.2019.01.006
Pilot feedback electronic imaging at elevated temperatures and its potential for in-process electron beam melting monitoring
Wong, H., Neary, D., Jones, E., Fox, P., & Sutcliffe, C. (2019). Pilot feedback electronic imaging at elevated temperatures and its potential for in-process electron beam melting monitoring. ADDITIVE MANUFACTURING, 27, 185-198. doi:10.1016/j.addma.2019.02.022
Pilot investigation of feedback electronic image generation in electron beam I melting and its potential for in-process monitoring
Wong, H., Neary, D., Shahzad, S., Jones, E., Fox, P., & Sutcliffe, C. (2019). Pilot investigation of feedback electronic image generation in electron beam I melting and its potential for in-process monitoring. JOURNAL OF MATERIALS PROCESSING TECHNOLOGY, 266, 502-517. doi:10.1016/j.jmatprotec.2018.10.016
A pragmatic continuum level model for the prediction of the onset of keyholing in laser powder bed fusion
Philo, A. M., Mehraban, S., Holmes, M., Sillars, S., Sutcliffe, C. J., Sienz, J., . . . Lavery, N. P. (2019). A pragmatic continuum level model for the prediction of the onset of keyholing in laser powder bed fusion. INTERNATIONAL JOURNAL OF ADVANCED MANUFACTURING TECHNOLOGY, 101(1-4), 697-714. doi:10.1007/s00170-018-2770-7
The effect of hatch angle rotation on parts manufactured using selective laser melting
Robinson, J. H., Ashton, I. R. T., Jones, E., Fox, P., & Sutcliffe, C. (2019). The effect of hatch angle rotation on parts manufactured using selective laser melting. RAPID PROTOTYPING JOURNAL, 25(2), 289-298. doi:10.1108/RPJ-06-2017-0111
Pilot capability evaluation of a feedback electronic imaging system prototype for in-process monitoring in electron beam additive manufacturing
Wong, H., Neary, D., Jones, E., Fox, P., & Sutcliffe, C. (2019). Pilot capability evaluation of a feedback electronic imaging system prototype for in-process monitoring in electron beam additive manufacturing. INTERNATIONAL JOURNAL OF ADVANCED MANUFACTURING TECHNOLOGY, 100(1-4), 707-720. doi:10.1007/s00170-018-2702-6
2018
Photogrammetric analysis of additive manufactured metallic open cell porous structures
Evans, S., Jones, E., Fox, P., & Sutcliffe, C. (2018). Photogrammetric analysis of additive manufactured metallic open cell porous structures. RAPID PROTOTYPING JOURNAL, 24(8), 1380-1391. doi:10.1108/RPJ-05-2017-0082
Determination of the effect of scan strategy on residual stress in laser powder bed fusion additive manufacturing
Robinson, J., Ashton, I., Fox, P., Jones, E., & Sutcliffe, C. (2018). Determination of the effect of scan strategy on residual stress in laser powder bed fusion additive manufacturing. ADDITIVE MANUFACTURING, 23, 13-24. doi:10.1016/j.addma.2018.07.001
The Effects of Wave-Current Interactions on the Performance of Horizontal Axis Tidal-Stream Turbines
de Jesus Henriques, T. A., Botsari, A., Tedds, S. C., Poole, R. J., Najafian, H., Sutcliffe, C. J., & Owen, I. (n.d.). The Effects of Wave-Current Interactions on the Performance of Horizontal Axis Tidal-Stream Turbines. In 2 nd Oxford Tidal Energy Workshop (pp. 15).
The three-prong method: a novel assessment of residual stress in laser powder bed fusion
Sillars, S. A., Sutcliffe, C. J., Philo, A. M., Brown, S. G. R., Sienz, J., & Lavery, N. P. (2018). The three-prong method: a novel assessment of residual stress in laser powder bed fusion. VIRTUAL AND PHYSICAL PROTOTYPING, 13(1), 20-25. doi:10.1080/17452759.2017.1392682
A Multiphase CFD Model for the Prediction of Particulate Accumulation in a Laser Powder Bed Fusion Process
Philo, A. M., Butcher, D., Sillars, S., Sutcliffe, C. J., Sienz, J., Brown, S. G. R., & Lavery, N. P. (2018). A Multiphase CFD Model for the Prediction of Particulate Accumulation in a Laser Powder Bed Fusion Process. In CFD MODELING AND SIMULATION IN MATERIALS PROCESSING 2018 (pp. 65-76). doi:10.1007/978-3-319-72059-3_7
2017
Additive manufacturing apparatus with a chamber and a removably-mountable optical module; method of preparing a laser processing apparatus with such removably-mountable optical module
Scott, S. P., & Sutcliffe, C. (2017). Additive manufacturing apparatus with a chamber and a removably-mountable optical module; method of preparing a laser processing apparatus with such removably-mountable optical module.
Additive manufacturing apparatus and methods
Sutcliffe, C. J. (2017). Additive manufacturing apparatus and methods.
Biotransformation of Silver Released from Nanoparticle Coated Titanium Implants Revealed in Regenerating Bone
Geng, H., Poologasundarampillai, G., Todd, N., Devlin-Mullin, A., Moore, K. L., Golrokhi, Z., . . . others. (2017). Biotransformation of Silver Released from Nanoparticle Coated Titanium Implants Revealed in Regenerating Bone. ACS applied materials & interfaces, 9(25), 21169-21180. doi:10.1021/acsami.7b05150
Analysis of variability in additive manufactured open cell porous structures
Evans, S., Jones, E., Fox, P., & Sutcliffe, C. (2017). Analysis of variability in additive manufactured open cell porous structures. PROCEEDINGS OF THE INSTITUTION OF MECHANICAL ENGINEERS PART H-JOURNAL OF ENGINEERING IN MEDICINE, 231(6), 534-546. doi:10.1177/0954411917703675
Additive manufacturing apparatus and a flow device for use with such apparatus
Sutcliffe, C., & Brown, C. (2017). Additive manufacturing apparatus and a flow device for use with such apparatus.
Atomic Layer Deposition of a Silver Nanolayer on Advanced Titanium Orthopedic Implants Inhibits Bacterial Colonization and Supports Vascularized de Novo Bone Ingrowth
Devlin-Mullin, A., Todd, N. M., Golrokhi, Z., Geng, H., Konerding, M. A., Ternan, N. G., . . . Mitchell, C. A. (2017). Atomic Layer Deposition of a Silver Nanolayer on Advanced Titanium Orthopedic Implants Inhibits Bacterial Colonization and Supports Vascularized de Novo Bone Ingrowth. Advanced Healthcare Materials, 6(11). doi:10.1002/adhm.201700033
Laser-produced porous structure
Jones, E., Sutcliffe, C. J., & Stamp, R. (2017). Laser-produced porous structure.
2016
Comparison of high-intensity sound and mechanical vibration for cleaning porous titanium cylinders fabricated using selective laser melting
Seiffert, G., Hopkins, C., & Sutcliffe, C. (2016). Comparison of high-intensity sound and mechanical vibration for cleaning porous titanium cylinders fabricated using selective laser melting. Journal of Biomedical Materials Research Part B: Applied Biomaterials, 105(1), 117-123. doi:10.1002/jbm.b.33535
Additive manufacturing apparatus and method
Brooks, I. T., & Sutcliffe, C. (2016). Additive manufacturing apparatus and method.
Laser-produced porous structure
Jones, E., Sutcliffe, C. J., & Stamp, R. (2016). Laser-produced porous structure.
Comparison of high-intensity sound and mechanical vibration for cleaning porous titanium cylinders fabricated using selective laser melting
Seiffert, G., Hopkins, C., & Sutcliffe, C. (2016). Comparison of high-intensity sound and mechanical vibration for cleaning porous titanium cylinders fabricated using selective laser melting. In Proceedings of the INTER-NOISE 2016 - 45th International Congress and Exposition on Noise Control Engineering: Towards a Quieter Future (pp. 1557-1565).
Additive manufacturing apparatus and method
Ashton, I. R. T., Kloss, S., Sutcliffe, C., & Ferrar, B. I. (2016). Additive manufacturing apparatus and method.
Surface modified unit cell lattice structures for optimized secure freeform fabrication
Dong, N. N. G., Poggie, M. P., Klein, R. W., Jones, E., Sutcliffe, C. J., Robinson, J., . . . others. (2016). Surface modified unit cell lattice structures for optimized secure freeform fabrication.
Self-limiting atomic layer deposition of conformal nanostructured silver films
Golrokhi, Z., Chalker, S., Sutcliffe, C. J., & Potter, R. J. (2016). Self-limiting atomic layer deposition of conformal nanostructured silver films. Applied Surface Science, 364, 789-797. doi:10.1016/j.apsusc.2015.12.127
Dental implant
Mullen, L., & Sutcliffe, C. (2016). Dental implant.
Silver ink formulations for sinter-free printing of conductive films
Black, K., Singh, J., Mehta, D., Sung, S., Sutcliffe, C. J., & Chalker, P. R. (2016). Silver ink formulations for sinter-free printing of conductive films. Scientific Reports, 6. doi:10.1038/srep20814
On the use of high-intensity sound for acoustic cleaning of porous titanium medical implants fabricated using selective laser melting
Seiffert, G., & Sutcliffe, C. (2016). On the use of high-intensity sound for acoustic cleaning of porous titanium medical implants fabricated using selective laser melting. In INTER-NOISE and NOISE-CON Congress and Conference Proceedings Vol. 253 (pp. 1637-1645). Institute of Noise Control Engineering.
Performance modelling and simulation of metal powder bed fusion production system
Mounsey, S., Hon, B., & Sutcliffe, C. (2016). Performance modelling and simulation of metal powder bed fusion production system. CIRP Annals, 65(1), 421-424. doi:10.1016/j.cirp.2016.04.065
2015
Surface modified unit cell lattice structures for optimized secure freeform fabrication
Dong, N. N. G., Poggie, M. P., Klein, R. W., Jones, E., Sutcliffe, C. J., Robinson, J., . . . others. (2015). Surface modified unit cell lattice structures for optimized secure freeform fabrication.
Laser-produced porous surface
O neill, W., Sutcliffe, C. J., Jones, E., & Stamp, R. (2015). Laser-produced porous surface.
Surface modified unit cell lattice structures for optimized secure freeform fabrication
Jones, E., Sutcliffe, C. J., Robinson, J., Jones, D., & Mullen, L. (2015). Surface modified unit cell lattice structures for optimized secure freeform fabrication.
(Invited) Vacuum Ultraviolet Photochemical Atomic Layer Deposition of Alumina and Titania Films
Chalker, P. R., Marshall, P. A., Dawson, K., Sutcliffe, C. J., Brunell, I. F., Sedghi, N., . . . Potter, R. J. (2015). (Invited) Vacuum Ultraviolet Photochemical Atomic Layer Deposition of Alumina and Titania Films. ECS Transactions, 69(7), 139-145. doi:10.1149/06907.0139ecst
Additive manufacturing apparatus with a chamber and a removably-mountable optical module; method of preparing a laser processing apparatus with such removably-mountable optical module
Scott, S. P., & Sutcliffe, C. (2015). Additive manufacturing apparatus with a chamber and a removably-mountable optical module; method of preparing a laser processing apparatus with such removably-mountable optical module.
Manufacture of metal articles
Sutcliffe, C. J., & Fox, P. (2015). Manufacture of metal articles.
Comparison and Validation of Gas Flow Models in a Powder Bed Selective Laser Melting Process
Philo 1, A., Lavery 1, N. P., Brown 1, S. G. R., Cherry 1, J., Sienz 1, J., Joannou, J., & Sutcliffe, C. J. (2015). Comparison and Validation of Gas Flow Models in a Powder Bed Selective Laser Melting Process. 23rd UK Conference of the Association for Computational Mechanics in Engineering (ACME 2015).
Additive manufacturing apparatus and method
Scott, S. P., & Sutcliffe, C. (2015). Additive manufacturing apparatus and method.
Laser-produced porous surface
O neill, W., Sutcliffe, C. J., Jones, E., & Stamp, R. (2015). Laser-produced porous surface.
Vacuum ultraviolet photochemical selectivearea atomic layer deposition of Al2O3 dielectrics
Chalker, P. R., Marshall, P. A., Dawson, K., Brunell, I. F., Sutcliffe, C. J., & Potter, R. J. (2015). Vacuum ultraviolet photochemical selectivearea atomic layer deposition of Al2O3 dielectrics. AIP Advances, 5(1). doi:10.1063/1.4905887
2014
Laser-produced porous surface
Jones, E., Sutcliffe, C. J., & Stamp, R. (2014). Laser-produced porous surface.
Filter assembly
Scott, S. P., & Sutcliffe, C. (2014). Filter assembly.
Laser-produced porous surface
Jones, E., Sutcliffe, C. J., & Stamp, R. (2014). Laser-produced porous surface.
The effects of wave–current interaction on the performance of a model horizontal axis tidal turbine
de Jesus Henriques, T. A., Tedds, S. C., Botsari, A., Najafian, G., Hedges, T. S., Sutcliffe, C. J., . . . Poole, R. J. (2014). The effects of wave–current interaction on the performance of a model horizontal axis tidal turbine. International Journal of Marine Energy, 8, 17-35. doi:10.1016/j.ijome.2014.10.002
Universities boast AM interests at record Nottingham Conference
Brookes, K. J. A. (2014). Universities boast AM interests at record Nottingham Conference. Metal Powder Report, 69, 21-31.
2013
Hierarchical tailoring of strut architecture to control permeability of additive manufactured titanium implants
Zhang, Z., Jones, D., Yue, S., Lee, P. D., Jones, J. R., Sutcliffe, C. J., & Jones, E. (2013). Hierarchical tailoring of strut architecture to control permeability of additive manufactured titanium implants. MATERIALS SCIENCE & ENGINEERING C-MATERIALS FOR BIOLOGICAL APPLICATIONS, 33(7), 4055-4062. doi:10.1016/j.msec.2013.05.050
A novel method for manufacturing sintered aluminium heat pipes (SAHP)
Ameli, M., Agnew, B., Leung, P. S., Ng, B., Sutcliffe, C. J., Singh, J., & McGlen, R. (2013). A novel method for manufacturing sintered aluminium heat pipes (SAHP). Applied Thermal Engineering, 52(2), 498-504. doi:10.1016/j.applthermaleng.2012.12.011
Laser-produced implants
Jones, E., Sutcliffe, C. J., Wang, A., & Lawrynowicz, D. E. (2013). Laser-produced implants.
2012
Laser-produced porous surface
O neill, W., Sutcliffe, C. J., & Jones, E. (2012). Laser-produced porous surface.
Gas flow effects on selective laser melting (SLM) manufacturing performance
Ferrar, B., Mullen, L., Jones, E., Stamp, R., & Sutcliffe, C. J. (2012). Gas flow effects on selective laser melting (SLM) manufacturing performance. Journal of Materials Processing Technology, 212(2), 355-364. doi:10.1016/j.jmatprotec.2011.09.020
Sintered aluminium heat pipe (SAHP)
Ameli, M., Agnew, B., Ng, B., McGlen, R. J., Sutcliffe, C. J., & Singh, J. (2012). Sintered aluminium heat pipe (SAHP).
2011
An experimental investigation into the deployment of 3-D, finned wing and shape memory alloy vortex generators in a forced air convection heat pipe fin stack
Aris, M. S., McGlen, R., Owen, I., & Sutcliffe, C. J. (2011). An experimental investigation into the deployment of 3-D, finned wing and shape memory alloy vortex generators in a forced air convection heat pipe fin stack. APPLIED THERMAL ENGINEERING, 31(14-15), 2230-2240. doi:10.1016/j.applthermaleng.2011.03.015
The development of active vortex generators from shape memory alloys for the convective cooling of heated surfaces
Aris, M. S., Owen, I., & Sutcliffe, C. J. (2011). The development of active vortex generators from shape memory alloys for the convective cooling of heated surfaces. INTERNATIONAL JOURNAL OF HEAT AND MASS TRANSFER, 54(15-16), 3566-3574. doi:10.1016/j.ijheatmasstransfer.2011.03.030
Selective laser melting of aluminium components
Louvis, E., Fox, P., & Sutcliffe, C. J. (2011). Selective laser melting of aluminium components. Journal of Materials Processing Technology, 211(2), 275-284. doi:10.1016/j.jmatprotec.2010.09.019
e development of active vortex generators from shape memory alloys for the convective cooling of heated surfaces
Aris, M. S., Owen, I., & Sutcliffe, C. J. (2011). e development of active vortex generators from shape memory alloys for the convective cooling of heated surfaces. International Journal of Heat and Mass Transfer, 54(15-16), 3566-3574.
2010
Comparison of the Drop Weight Impact Performance of Sandwich Panels with Aluminium Honeycomb and Titanium Alloy Micro Lattice Cores
Hasan, R., Mines, R. A. W., Shen, E., Tsopanos, S., Cantwell, W. J., Brooks, W., & Sutcliffe, C. J. (n.d.). Comparison of the Drop Weight Impact Performance of Sandwich Panels with Aluminium Honeycomb and Titanium Alloy Micro Lattice Cores. Applied Mechanics and Materials, 24-25, 413-418. doi:10.4028/www.scientific.net/amm.24-25.413
The Influence of Processing Parameters on the Mechanical Properties of Selectively Laser Melted Stainless Steel Microlattice Structures
Tsopanos, S., Mines, R. A. W., McKown, S., Shen, Y., Cantwell, W. J., Brooks, W., & Sutcliffe, C. J. (2010). The Influence of Processing Parameters on the Mechanical Properties of Selectively Laser Melted Stainless Steel Microlattice Structures. Journal of Manufacturing Science and Engineering, 132(4). doi:10.1115/1.4001743
Process for fabricating a composite
Sutcliffe, C., & Chalker, P. R. (2010). Process for fabricating a composite.
The Mechanical Properties of Sandwich Structures Based on Metal Lattice Architectures
Shen, Y., Mckown, S., Tsopanos, S., Sutcliffe, C. J., Mines, R. A. W., & Cantwell, W. J. (2010). The Mechanical Properties of Sandwich Structures Based on Metal Lattice Architectures. Journal of Sandwich Structures & Materials, 12(2), 159-180. doi:10.1177/1099636209104536
Additive manufacturing by electrophotography: challenges and successes
Jones, J., Wimpenny, D., Gibbons, G., & Sutcliffe, C. (2010). Additive manufacturing by electrophotography: challenges and successes. In NIP & Digital Fabrication Conference Vol. 2010 (pp. 549-553). Society for Imaging Science and Technology.
Process
Brace, C., & Johns-Putra, A. (2010). Process. BRILL. doi:10.1163/9789042030763
Selective laser melting: a unit cell approach for the manufacture of porous, titanium, bone in-growth constructs, suitable for orthopedic applications. II. Randomized structures.
Mullen, L., Stamp, R. C., Fox, P., Jones, E., Ngo, C., & Sutcliffe, C. J. (2010). Selective laser melting: a unit cell approach for the manufacture of porous, titanium, bone in-growth constructs, suitable for orthopedic applications. II. Randomized structures.. Journal of biomedical materials research. Part B, Applied biomaterials, 92(1), 178-188. doi:10.1002/jbm.b.31504
2009
Pressure Loss and Heat Transfer Through Heat Sinks Produced by Selective Laser Melting
Wong, M., Owen, I., & Sutcliffe, C. J. (2009). Pressure Loss and Heat Transfer Through Heat Sinks Produced by Selective Laser Melting. HEAT TRANSFER ENGINEERING, 30(13), 1068-1076. doi:10.1080/01457630902922228
The development of a scanning strategy for the manufacture of porous biomaterials by selective laser melting.
Stamp, R., Fox, P., O'Neill, W., Jones, E., & Sutcliffe, C. (2009). The development of a scanning strategy for the manufacture of porous biomaterials by selective laser melting.. Journal of materials science. Materials in medicine, 20(9), 1839-1848. doi:10.1007/s10856-009-3763-8
Development of Quadrupole Mass Spectrometers Using Rapid Prototyping Technology
Brkic, B., France, N., Clare, A. T., Sutcliffe, C. J., Chalker, P. R., & Taylor, S. (2009). Development of Quadrupole Mass Spectrometers Using Rapid Prototyping Technology. JOURNAL OF THE AMERICAN SOCIETY FOR MASS SPECTROMETRY, 20(7), 1359-1365. doi:10.1016/j.jasms.2009.03.025
Fabrication of Fe–Cr–Al Oxide Dispersion Strengthened PM2000 Alloy Using Selective Laser Melting
Walker, J. C., Berggreen, K. M., Jones, A. R., & Sutcliffe, C. J. (2009). Fabrication of Fe–Cr–Al Oxide Dispersion Strengthened PM2000 Alloy Using Selective Laser Melting. Advanced Engineering Materials, 11(7), 541-546. doi:10.1002/adem.200800407
Laser-produced porous surface
O neill, W., Sutcliffe, C. J., & Jones, E. (2009). Laser-produced porous surface.
Selective Laser Melting: a regular unit cell approach for the manufacture of porous, titanium, bone in-growth constructs, suitable for orthopedic applications.
Mullen, L., Stamp, R. C., Brooks, W. K., Jones, E., & Sutcliffe, C. J. (2009). Selective Laser Melting: a regular unit cell approach for the manufacture of porous, titanium, bone in-growth constructs, suitable for orthopedic applications.. Journal of biomedical materials research. Part B, Applied biomaterials, 89(2), 325-334. doi:10.1002/jbm.b.31219
Convective heat transfer and pressure losses across novel heat sinks fabricated by Selective Laser Melting
Wong, M., Owen, I., Sutcliffe, C. J., & Puri, A. (2009). Convective heat transfer and pressure losses across novel heat sinks fabricated by Selective Laser Melting. INTERNATIONAL JOURNAL OF HEAT AND MASS TRANSFER, 52(1-2), 281-288. doi:10.1016/j.ijheatmasstransfer.2008.06.002
A Unit Cell Approach for the Manufacture of Porous, Titanium, Bone In-Growth Constructs, Suitable for Orthopedic Applications. II. Randomized Structures
Mullen, L., Stamp, R. C., Fox, P., Jones, E., Ngo, C., & Melting, C. J. S. S. L. (2009). A Unit Cell Approach for the Manufacture of Porous, Titanium, Bone In-Growth Constructs, Suitable for Orthopedic Applications. II. Randomized Structures. Wiley InterScience, 92, 178-188.
Customised layer deposition for chemical reactor applications
Singh, J., Hauser, C., Chalker, P. R., Sutcliffe, C. J., Clare, A. T., & Dunschen, M. (2009). Customised layer deposition for chemical reactor applications. In 20th Annual International Solid Freeform Fabrication Symposium, SFF 2009 (pp. 819-830).
On the performance of micro lattice structures as core materials in sandwich panels subject to low velocity impact
Mines, R., Tsopanos, S., Shen, E., McKown, S., Cantwell, W., Brooks, W., & Sutcliffe, C. (2009). On the performance of micro lattice structures as core materials in sandwich panels subject to low velocity impact. In Proceedings of the 17th International Conference on Composite materials (ICCM-17) (pp. 27-31).
Rapid prototyping methodologies for ceramic micro components
Chalker, P. R., Berggreen, K. M., Clare, A. T., Singh, J., & Sutcliffe, C. J. (2009). Rapid prototyping methodologies for ceramic micro components. In SMART MATERIALS FOR SMART DEVICES AND STRUCTURES Vol. 154 (pp. 1-7). doi:10.4028/www.scientific.net/SSP.154.1
2008
Local Effects during Indentation of Fully Supported Sandwich Panels with Micro Lattice Cores
Mines, R. A. W., McKown, S., Tsopanos, S., Shen, E., Cantwell, W. J., Brooks, W., & Sutcliffe, C. J. (n.d.). Local Effects during Indentation of Fully Supported Sandwich Panels with Micro Lattice Cores. Applied Mechanics and Materials, 13-14, 85-90. doi:10.4028/www.scientific.net/amm.13-14.85
The quasi-static and blast loading response of lattice structures
McKown, S., Shen, Y., Brookes, W. K., Sutcliffe, C. J., Cantwell, W. J., Langdon, G. S., . . . Theobald, M. D. (2008). The quasi-static and blast loading response of lattice structures. International Journal of Impact Engineering, 35(8), 795-810. doi:10.1016/j.ijimpeng.2007.10.005
Transformation algorithms for image preparation in spiral growth manufacturing (SGM)
Hauser, C., Dunschen, M., Egan, M., & Sutcliffe, C. (2008). Transformation algorithms for image preparation in spiral growth manufacturing (SGM). Rapid Prototyping Journal, 14(4), 188-196. doi:10.1108/13552540810896139
Interface interactions between porous titanium/tantalum coatings, produced by Selective Laser Melting (SLM), on a cobalt–chromium alloy
Fox, P., Pogson, S., Sutcliffe, C. J., & Jones, E. (2008). Interface interactions between porous titanium/tantalum coatings, produced by Selective Laser Melting (SLM), on a cobalt–chromium alloy. Surface and Coatings Technology, 202(20), 5001-5007. doi:10.1016/j.surfcoat.2008.05.003
Selective laser melting of high aspect ratio 3D nickel–titanium structures two way trained for MEMS applications
Clare, A. T., Chalker, P. R., Davies, S., Sutcliffe, C. J., & Tsopanos, S. (2008). Selective laser melting of high aspect ratio 3D nickel–titanium structures two way trained for MEMS applications. International Journal of Mechanics and Materials in Design, 4(2), 181-187. doi:10.1007/s10999-007-9032-4
Apparatus For Manufacturing Three Dimensional Items
Sutcliffe, C. (2008). Apparatus For Manufacturing Three Dimensional Items.
Selective laser sintering of barium titanate-polymer composite films
Clare, A. T., Chalker, P. R., Davies, S., Sutcliffe, C. J., & Tsopanos, S. (2008). Selective laser sintering of barium titanate-polymer composite films. JOURNAL OF MATERIALS SCIENCE, 43(9), 3197-3202. doi:10.1007/s10853-007-2396-x
Local Effects during Indentation of Fully Supported Sandwich Panels with Micro Lattice Cores
Mines, R. A. W., McKown, S., Tsopanos, S., Shen, E., Cantwell, W., Brooks, W., & Sutcliffe, C. (2008). Local Effects during Indentation of Fully Supported Sandwich Panels with Micro Lattice Cores. ADVANCES IN EXPERIMENTAL MECHANICS VI, 13-14, 85-90.
Local Effects during Indentation of Fully Supported Sandwich Panels with Micro Lattice Cores RAW Mines, S. McKown, S. Tsopanos, E. Shen, W. Cantwell, W. Brooks
Sutcliffe, C. (2008). Local Effects during Indentation of Fully Supported Sandwich Panels with Micro Lattice Cores RAW Mines, S. McKown, S. Tsopanos, E. Shen, W. Cantwell, W. Brooks.
Rotational 3D Printing of Sensor Devices using Reactive Ink Chemistries
Hauser, C., Lewis, D. M., Morris, K. F., Broadbent, P. J., Zhao, X., Clare, A. T., & Dunschen, M. (2008). Rotational 3D Printing of Sensor Devices using Reactive Ink Chemistries. In Proceedings Solid Freeform Fabrication Symposium, Austin, Texas, USA.
Safe operating procedures for the MCP SLM Systems
Sutcliffe, C. J., & Stamp, R. C. (2008). Safe operating procedures for the MCP SLM Systems. Liverpool: The University of Liverpool.
THE DEVELOPMENT OF ACTIVE FLOW CONTROL DEVICES FROM SHAPE MEMORY ALLOYS FOR THE CONVECTIVE COOLING OF HEATED SURFACES
Aris, M. S., Owen, I., & Sutcliffe, C. J. (2009). THE DEVELOPMENT OF ACTIVE FLOW CONTROL DEVICES FROM SHAPE MEMORY ALLOYS FOR THE CONVECTIVE COOLING OF HEATED SURFACES. In IMECE 2008: HEAT TRANSFER, FLUID FLOWS, AND THERMAL SYSTEMS, VOL 10, PTS A-C (pp. 1569-1575). Retrieved from https://www.webofscience.com/
2007
Selective laser melting of heat transfer devices
Wong, M., Tsopanos, S., Sutcliffe, C., & Owen, E. (2007). Selective laser melting of heat transfer devices. RAPID PROTOTYPING JOURNAL, 13(5), 291-297. doi:10.1108/13552540710824797
Influence of microsupersonic gas jets on nanosecond laser percussion drilling
Khan, A. H., Celotto, S., Tunna, L., O’Neill, W., & Sutcliffe, C. J. (2007). Influence of microsupersonic gas jets on nanosecond laser percussion drilling. Optics and Lasers in Engineering, 45(6), 709-718. doi:10.1016/j.optlaseng.2006.11.003
Anatomical flow phantoms of the nonplanar carotid bifurcation, part I: computer-aided design and fabrication.
Watts, D. M., Sutcliffe, C. J., Morgan, R. H., Meagher, S., Wardlaw, J., Connell, M., . . . Black, R. A. (2007). Anatomical flow phantoms of the nonplanar carotid bifurcation, part I: computer-aided design and fabrication.. Ultrasound in medicine & biology, 33(2), 296-302. doi:10.1016/j.ultrasmedbio.2006.08.003
Design freedom for selective laser melted lattice structures
Brooks, W., Tsopanos, S., McKown, S., Sutcliffe, C., Cantwell, W., & Mines, R. A. W. (2007). Design freedom for selective laser melted lattice structures. In Rapid Prototyping Conference (pp. 1-10). Buckingham: RPC.
Image Transformations And Printing Of Plaster Layers in Spiral Growth Manufacturing
Hauser, C., Lewis, D. M., Dunschen, M., Egan, M., & Sutcliffe, C. (2007). Image Transformations And Printing Of Plaster Layers in Spiral Growth Manufacturing. Proceedings of SFF, Austin, Texas.
On the Progressive Collapse of Micro Lattice Structures
Mines, R. A. W., McKown, S., Cantwell, W., Brooks, W., & Sutcliffe, C. J. (2007). On the Progressive Collapse of Micro Lattice Structures. Unknown Journal, 743-744. doi:10.1007/978-1-4020-6239-1_369
The application of shape memory alloy as longitudinal vortex generators for enhanced convective heat transfer
Aris, M. S., & others. (2007). The application of shape memory alloy as longitudinal vortex generators for enhanced convective heat transfer.
The application of shape memory alloy as vortex generators and flow control devices for enhanced convective heat transfer
Aris, M. S., Owen, L., & Sutcliffe, C. J. (2007). The application of shape memory alloy as vortex generators and flow control devices for enhanced convective heat transfer. In FEDSM 2007: PROCEEDINGS OF THE 5TH JOINT AMSE/JSME FLUIDS ENGINEERING SUMMER CONFERENCE VOL 1, PTS A AND B (pp. 1465-1470). Retrieved from https://www.webofscience.com/
2006
Selective Laser Melting
Sutcliffe, C., Fox, P., & Chalker, P. (2006). Selective Laser Melting.
Numerical analysis of gas-dynamic instabilities during the laser drilling process
Khan, A. H., O’Neill, W., Tunna, L., & Sutcliffe, C. J. (2006). Numerical analysis of gas-dynamic instabilities during the laser drilling process. Optics and Lasers in Engineering, 44(8), 826-841. doi:10.1016/j.optlaseng.2005.07.004
The effect of processing wavelength and fluence on the microdrilling of 316 L stainless steel with a diode pumped solid state laser
Tunna, L., Khan, A., O’Neill, W., & Sutcliffe, C. J. (2006). The effect of processing wavelength and fluence on the microdrilling of 316 L stainless steel with a diode pumped solid state laser. Journal of Laser Applications, 18(3), 205-209. doi:10.2351/1.2199554
Laser-produced porous structure
Jones, E., Sutcliffe, C., & Stamp, R. (2006). Laser-produced porous structure.
Selective laser melting of high aspect ratio 3D nickel-titanium structures for MEMS applications.
Chalker, P. R., Clare, A., Davies, S., Sutcliffe, C. J., & Tsopanos, S. (2006). Selective laser melting of high aspect ratio 3D nickel-titanium structures for MEMS applications.. SURFACE ENGINEERING FOR MANUFACTURING APPLICATIONS, 890, 93-+. Retrieved from https://www.webofscience.com/
Crush behaviour of open cellular lattice structures manufactured using selective laser melting
Santorinaios, M., Brooks, W., Sutcliffe, C. J., & Mines, R. A. W. (2006). Crush behaviour of open cellular lattice structures manufactured using selective laser melting. In WIT Transactions on The Built Environment, Vol 85 Vol. 1 (pp. 481-490). WIT Press. doi:10.2495/hpsm06047
Anatomical flow phantoms of the carotid bifurcation: potential application in training and assessment of endovascular device deployment
Black, R. A., Watts, D. M., Meagher, S., Poepping, T. L., Morgan, R. H., Wardlaw, J., . . . Hoskins, P. R. (2006). Anatomical flow phantoms of the carotid bifurcation: potential application in training and assessment of endovascular device deployment. Journal of Cardiovascular Surgery, 47, 43-44.
MANUFACTURING NOVEL HEAT TRANSFER DEVICES BY SELECTIVE LASER MELTING
Tsopanos, S., Wong, M., Owen, I., & Sutcliffe, C. J. (2006). MANUFACTURING NOVEL HEAT TRANSFER DEVICES BY SELECTIVE LASER MELTING. In Manufacturing. Begell House Inc.. doi:10.1615/ihtc13.p13.40
The Value of Immersive Learning Experiences within an ‘Introduction to Engineering’Module
Murphy, M. L., Bullough, T. J., Johnson, M. W., Millard, S. G., Shenton, A. T., & Sutcliffe, C. J. (2006). The Value of Immersive Learning Experiences within an ‘Introduction to Engineering’Module. In Second Annual International CDIO Conference.
2005
Effect of direct laser re-melting processing parameters and scanning strategies on the densification of tool steels
Xie, J. W., Fox, P., O’Neill, W., & Sutcliffe, C. J. (2005). Effect of direct laser re-melting processing parameters and scanning strategies on the densification of tool steels. Journal of Materials Processing Technology, 170(3), 516-523. doi:10.1016/j.jmatprotec.2005.05.055
The design and production of Co-Cr alloy implants with controlled surface topography by CAD-CAM method and their effects on osseointegration
Hunt, J. A., Callaghan, J. T., Sutcliffe, C. J., Morgan, R. H., Halford, B., & Black, R. A. (2005). The design and production of Co-Cr alloy implants with controlled surface topography by CAD-CAM method and their effects on osseointegration. BIOMATERIALS, 26(29), 5890-5897. doi:10.1016/j.biomaterials.2005.03.004
Analysis of laser micro drilled holes through aluminium for micro-manufacturing applications
Tunna, L., O’Neill, W., Khan, A., & Sutcliffe, C. (2005). Analysis of laser micro drilled holes through aluminium for micro-manufacturing applications. Optics and Lasers in Engineering, 43(9), 937-950. doi:10.1016/j.optlaseng.2004.11.001
Enhanced bone integration of implants with increased surface roughness: a long term study in the sheep
Hunt, J. A., Callaghan, J. T., Sutcliffe, C. J., Morgan, R. H., Halford, B., & Black, R. A. (2005). Enhanced bone integration of implants with increased surface roughness: a long term study in the sheep. Biomaterials, 26, 5890-5897.
Rapid design and manufacture of ultra light cellular materials
Brooks, W., Sutcliffe, C., Cantwell, W., Fox, P., Todd, J., & Mines, R. (2005). Rapid design and manufacture of ultra light cellular materials. In 16th Solid Freeform Fabrication Symposium (pp. 1-10). Austin Texas: SFFS.
Rapid design and manufacture of ultralight cellular materials
Brooks, W., Sutcliffe, C., Cantwell, W., Fox, P., Todd, J., & Mines, R. (2005). Rapid design and manufacture of ultralight cellular materials. In Proceedings of the Solid Freeform Fabrication Symposium, Austin, TX (pp. 231-241).
SPIRAL GROWTH MANUFACTURING (SGM)–A CONTINUOUS ADDITIVE MANUFACTURING TECHNOLOGY FOR PROCESSING METAL POWDER BY SELECTIVE LASER MELTING.
Hauser, C., Sutcliffe, C., Egan, M., & Fox, P. (2005). SPIRAL GROWTH MANUFACTURING (SGM)–A CONTINUOUS ADDITIVE MANUFACTURING TECHNOLOGY FOR PROCESSING METAL POWDER BY SELECTIVE LASER MELTING.. In 19th Annual International Solid Freeform Fabrication Symposium (pp. 4-6).
The manufacture of micro cross-flow heat exchangers by selective laser melting
Tsopanos, S., Sutcliffe, C. J., & Owen, I. (2005). The manufacture of micro cross-flow heat exchangers by selective laser melting.
2004
The direct metal laser remelting of copper and tool steel powders
POGSON, S., FOX, P., ONEILL, W., & SUTCLIFFE, C. (2004). The direct metal laser remelting of copper and tool steel powders. Materials Science and Engineering A, 386(1-2), 453-459. doi:10.1016/s0921-5093(04)01051-2
Analysis of cold gas dynamically sprayed aluminium deposits
Morgan, R., Fox, P., Pattison, J., Sutcliffe, C., & O'Neill, W. (2004). Analysis of cold gas dynamically sprayed aluminium deposits. Materials Letters, 58(7-8), 1317-1320. doi:10.1016/j.matlet.2003.09.048
Density analysis of direct metal laser re-melted 316L stainless steel cubic primitives
Morgan, R., Sutcliffe, C. J., & O'Neill, W. (2004). Density analysis of direct metal laser re-melted 316L stainless steel cubic primitives. Journal of Materials Science, 39(4), 1195-1205. doi:10.1023/b:jmsc.0000013875.62536.fa
Density Analysis of 316L Stainless Steel Cubic Primitives.
Morgan, R. H., Sutcliffe, C. J., & O'Neill, W. (2004). Density Analysis of 316L Stainless Steel Cubic Primitives.. Journal of Materials Science, 39(4), 1195-1205.
Influence of micro supersonic jets on micro percussion drilling of 316L stainless steel using nanosecond 355nm laser radiation
Khan, A. H., O’Neill, W., Tunna, L., & Sutcliffe, C. J. (2004). Influence of micro supersonic jets on micro percussion drilling of 316L stainless steel using nanosecond 355nm laser radiation. In International Congress on Applications of Lasers & Electro-Optics (pp. M202). Laser Institute of America. doi:10.2351/1.5060316
What no heat? A new approach to additive metal fabrication
Sutcliffe, C. J., Morgan, R. H., Pattison, J. A., Fox, P., & O Neill, W. (2004). What no heat? A new approach to additive metal fabrication.
2003
The production of copper parts using DMLR
Pogson, S. R., Fox, P., Sutcliffe, C. J., & O’Neill, W. (2003). The production of copper parts using DMLR. Rapid Prototyping Journal, 9(5), 334-343. doi:10.1108/13552540310502239
Cold gas dynamic manufacturing
Pattison, J. A., Morgan, R. H., Sutcliffe, C. J., Fox, P., & O Neill, W. (2003). Cold gas dynamic manufacturing. In Proceedings of the 4th National Conference on Rapid and Virtual Prototyping and Applications (pp. 33-42). Wiley & Son.
Development of an anatomical carotid artery flow phantom for the calibration of doppler ultrasound systems
Watts, D. M., Sutcliffe, C. J., Morgan, R. H., Meagher, S., Wardlaw, J., Connell, M., . . . Black, R. A. (2003). Development of an anatomical carotid artery flow phantom for the calibration of doppler ultrasound systems.
Optimisation of melt removal in laser cutting
Rand, C., Sparkes, M., O’Neill, W., Sutcliffe, C., & Brookfield, D. (2003). Optimisation of melt removal in laser cutting. International Congress on Applications of Lasers & Electro-Optics, 1108. doi:10.2351/1.5059986
2002
Morgan, R. H., Papworth, A. J., Sutcliffe, C., Fox, P., & O'neill, W. (2002). Unknown Title. Journal of Materials Science, 37(15), 3093-3100. doi:10.1023/a:1016185606642
A comparison of radiographer and radiologist reports on radiographer conducted barium enemas
Murphy, M., Loughran, C. F., Birchenough, H., Savage, J., & Sutcliffe, C. (2002). A comparison of radiographer and radiologist reports on radiographer conducted barium enemas. Radiography, 8, 215-221.
Cold Gas Dynamic Manufacturing – A new approach to Near-Net Shape Metal Component Fabrication
Morgan, R. H., Sutcliffe, C. J., Pattison, J., Murphy, M., Gallagher, C., Papworth, A., . . . O'Neill, W. (2002). Cold Gas Dynamic Manufacturing – A new approach to Near-Net Shape Metal Component Fabrication. MRS Proceedings, 758. doi:10.1557/proc-758-ll2.6
Cold gas dynamic manufacture (CGDM)
Sutcliffe, C. J., Morgan, R., Pattison, J., Murphy, M., Gallagher, C., Fox, P., & O Neill, W. (2002). Cold gas dynamic manufacture (CGDM).
High Density Net Shape Components by Direct Metal Laser Remelting of single-phase powders
Morgan, R., Papworth, A., Sutcliffe, C. J., & O'Neill, W. (2002). High Density Net Shape Components by Direct Metal Laser Remelting of single-phase powders. Journal of Materials Science, 15(37), 3093-3100.
2001
Experimental investigation of nanosecond pulsed Nd:YAG laser re‐melted pre‐placed powder beds
Morgan, R., Sutcliffe, C. J., & O’Neill, W. (2001). Experimental investigation of nanosecond pulsed Nd:YAG laser re‐melted pre‐placed powder beds. Rapid Prototyping Journal, 7(3), 159-172. doi:10.1108/13552540110395565
Micromachining of copper using Nd:YAG laser radiation at 1064, 532, and 355 nm wavelengths
Tunna, L., Kearns, A., O'Neill, W., & Sutcliffe, C. J. (2001). Micromachining of copper using Nd:YAG laser radiation at 1064, 532, and 355 nm wavelengths. Optics & Laser Technology, 33(3), 135-143. doi:10.1016/s0030-3992(00)00126-2
Design of an axisymmetric supersonic nozzle for micro laser cutting
Khan, A. H., O’Neill, W., Sutcliffe, C. J., & Tunna, L. (2001). Design of an axisymmetric supersonic nozzle for micro laser cutting. In International Congress on Applications of Lasers & Electro-Optics (pp. 353-362). Laser Institute of America. doi:10.2351/1.5059884
Direct metal laser re-melting (DMLR) of 316L stainless steel powder part 1: Analysis of thin wall structures
Morgan, R., Papworth, A., Sutcliffe, C., Fox, P., & O Neill, B. (2001). Direct metal laser re-melting (DMLR) of 316L stainless steel powder part 1: Analysis of thin wall structures. In Solid Freeform Fabrication Symposium, Austin, TX (pp. 276-282).
Direct metal laser re-melting of 316L stainless steel powder Part 2: analysis of cubic primitives
Morgan, R., Papworth, A., Sutcliffe, C., Fox, P., & O Neill, B. (2001). Direct metal laser re-melting of 316L stainless steel powder Part 2: analysis of cubic primitives. In Proceedings of the 12th Solid Freeform Fabrication Symposium (pp. 283-295).
Fabrication of metal components by direct metal laser re-melting (DMLR)
Morgan, R., Sutcliffe, C., Papworth, A., & O Neill, W. (2001). Fabrication of metal components by direct metal laser re-melting (DMLR).
Fabrication of metallic objects by direct metal laser re-melting (DMLR) of stainless steel powders
Morgan, R., Papworth, A., Sutcliffe, C. J., & O Neill, W. (2001). Fabrication of metallic objects by direct metal laser re-melting (DMLR) of stainless steel powders. In Proceedings of the 12th Solid Freeform Fabrication Symposium.
Investigation of multi-wavelength DPSS laser micromachining of stainless steel
Tunna, L., O Neill, W., Sutcliffe, C., & Khan, A. H. (2001). Investigation of multi-wavelength DPSS laser micromachining of stainless steel. The Industrial Laser User, 28-30.
Micromachining and cutting of 316L SS using DPSS lasers under controlled atmospheres
Tunna, L., O’Neill, W., Sutcliffe, C. J., & Khan, A. (2001). Micromachining and cutting of 316L SS using DPSS lasers under controlled atmospheres. In International Congress on Applications of Lasers & Electro-Optics (pp. 1631-1639). Laser Institute of America. doi:10.2351/1.5059835
1999
<title>Limiting factors in the production of deep microstructures</title>
Tolfree, D. W. L., O'Neill, W., Tunna, L., & Sutcliffe, C. (1999). <title>Limiting factors in the production of deep microstructures</title>. In K. H. Chau, & S. Dimitrijev (Eds.), SPIE Proceedings Vol. 3892 (pp. 242-252). SPIE. doi:10.1117/12.364490
Computational and experimental investigations of supersonic micro nozzles for laser processing applications
Sutcliffe, C. J., Khan, A., Rand, C., & O’Neill, W. (1999). Computational and experimental investigations of supersonic micro nozzles for laser processing applications. International Congress on Applications of Lasers & Electro-Optics, 38-47. doi:10.2351/1.5059312
E/10-Investigation on multi-layer direct metal laser sintering of 316 L stainless steel powder beds
O Neill, W., Sutcliffe, C. J., Morgan, R., Landsborough, A., & Hon, K. K. B. (1999). E/10-Investigation on multi-layer direct metal laser sintering of 316 L stainless steel powder beds. CIRP Annals-College International de Recherches pour la Production, 48, 15-16.
Investigation on Multi-Layer Direct Metal Laser Sintering of 316L Stainless Steel Powder Beds
O'Neill, W., Sutcliffe, C. J., Morgan, R., Landsborough, A., & Hon, K. K. B. (1999). Investigation on Multi-Layer Direct Metal Laser Sintering of 316L Stainless Steel Powder Beds. CIRP Annals, 48(1), 151-154. doi:10.1016/s0007-8506(07)63153-9
Limiting factors to the fabrication of precision deep microstructures
O Neill, W., Sutcliffe, C. J., Tunna, L., & Kearns, A. (1999). Limiting factors to the fabrication of precision deep microstructures.
Microfabrication of deep microstructures
Tolfree, D., O Neill, W., Tunna, L., & Sutcliffe, C. J. (1999). Microfabrication of deep microstructures. Microelectrics Journal, 31.
Rapid production of a microreactor for the production of chemical synthesis
O Neill, W., Sutcliffe, C. J., Gavriilidis, A., & Angeli, P. (1999). Rapid production of a microreactor for the production of chemical synthesis.
1998
Laminarisation and re-transition of a turbulent boundary layer subjected to favourable pressure gradient
Escudier, M. P., Abdel-Hameed, A., Johnson, M. W., & Sutcliffe, C. J. (1998). Laminarisation and re-transition of a turbulent boundary layer subjected to favourable pressure gradient. Experiments in Fluids, 25(5-6), 491-502. doi:10.1007/s003480050255
A Comparison of the Motion and Resistance of a Yacht in Waves in Earth and Body Axes
Sutcliffe, C. J., & Millward, A. (1998). A Comparison of the Motion and Resistance of a Yacht in Waves in Earth and Body Axes. Transactions of The Royal Institution of Naval Architects, 184-210.
Fused layer production in 316 stainless steel powder beds using high frequency Nd: YAG laser pulses
O Neill, W., Sutcliffe, C. J., Morgan, R., & Hon, K. K. B. (1998). Fused layer production in 316 stainless steel powder beds using high frequency Nd: YAG laser pulses. In Proceedings of the Laser Materials Processing Conference: ICALEO’98 Vol. 85 (pp. B78-B87). Laser Institute of America.
Investigation of short pulse Nd: YAG laser interaction with stainless steel powder beds
O Neill, W., Sutcliffe, C. J., Morgan, R., & Hon, K. K. B. (1998). Investigation of short pulse Nd: YAG laser interaction with stainless steel powder beds. In Proceedings of the Solid Freeform Fabrication Symposium, University of Texas, Austin, Texas (pp. 147-160).