Michael G BryantWassim TalebSunday AriboHui CenAzzura IsmailLaura SandersJenifer BarrieFarnaz Motamen SalehiMacDonald Azubuike OfuneJames Edward Tilston HeskethIkechukwu C. IvonyeNasim KazemiLiuquan YangRichard James BarkerYasushi OnumataJoseph Christopher NortonDaniel Phillip BurkleOmoregbe BelloLukman Aremu AnimashaunKaren Claire MitchellAndrew Robert BeadlingJoseph L. LaniganFrederick Oritseweneye PessuWilliam Henry MayfieldZahra Ehteshami
P184
Crevice corrosion of biomedical alloys: a novel method of assessing the effects of bone cement and its chemistry.The composition of tribofilms produced on metal-on-metal hip bearings.Understanding the role of corrosion in the degradation of metal-on-metal implants.Robotic platforms for general and colorectal surgery.Reviewing the technological challenges associated with the development of a laparoscopic palpation device.The impact of electrode resistance on the biogalvanic characterisation technique.Real-Time Measurement of the Tool-Tissue Interaction in Minimally Invasive Abdominal Surgery: The First Step to Developing the Next Generation of Smart Laparoscopic Instruments.A novel multiple electrode direct current technique for characterisation of tissue resistance during surgery.A time-dependent model for improved biogalvanic tissue characterisation.Assessment of electrochemical properties of a biogalvanic system for tissue characterisation.Development of anti-icing materials by chemical tailoring of hydrophobic textured metallic surfaces.Characterisation of the surface topography, tomography and chemistry of fretting corrosion product found on retrieved polished femoral stems.Effect of tribological factors on wet adhesion of a microstructured surface to peritoneal tissue.Technological assessment of the biogalvanic method for tissue characterization.Insights into electrodeposition of an inhibitor film and its inhibitive effects on calcium carbonate deposition.Using in situ synchrotron radiation wide angle X-ray scattering (WAXS) to study CaCO3 scale formation at ambient and elevated temperature.Corrosion and tribocorrosion of hafnium in simulated body fluids.Mechanism of tribofilm formation on Ti6Al4V oxygen diffusion layer in a simulated body fluid.Development of a novel once-through flow visualization technique for kinetic study of bulk and surface scaling.Understanding the differences between the wear of metal-on-metal and ceramic-on-metal total hip replacements.The taper corrosion pattern observed for one bi-modular stem design is related to geometry-determined taper mechanics.An in situ synchrotron XAS methodology for surface analysis under high temperature, pressure, and shear.Quantitative assessment of colorectal morphology: Implications for robotic colonoscopy.Fretting corrosion of CoCr alloy: Effect of load and displacement on the degradation mechanisms.Liquid infused porous surfaces for mineral fouling mitigation.Evidence for the dissolution of molybdenum during tribocorrosion of CoCrMo hip implants in the presence of serum protein.Incorporating corrosion measurement in hip wear simulators: An added complication or a necessity?Dissolution behaviour of silicon nitride coatings for joint replacements.Development of an electrochemically integrated SR-GIXRD flow cell to study FeCO3 formation kinetics.An in vivo analysis of safe laparoscopic grasping thresholds for colorectal surgery.Fretting-corrosion at the modular tapers interface: Inspection of standard ASTM F1875-98.Friction characteristics of trocars in laparoscopic surgery.Galvanically enhanced fretting-crevice corrosion of cemented femoral stems.Electrochemical instrumentation of a hip simulator: a new tool for assessing the role of corrosion in metal-on-metal hip joints.Deposition of Inorganic Carbonate, Sulfate, and Sulfide Scales on Antifouling Surfaces in Multiphase FlowSiderite micro-modification for enhanced corrosion protectionKinetics study of barium sulphate surface scaling and inhibition with a once-through flow systemPreparation of Magnetic Carboxymethylchitosan Nanoparticles for Adsorption of Heavy Metal IonsSurface inorganic scale formation in oil and gas industry: As adhesion and deposition processesAssessing Surface Engineering Solutions for Oilfield Scale; Correlating Laboratory Tests to Field Trials
P50
Q53784225-55A5F0AC-EF0C-4CC4-B0B1-87E27CE7FCFEQ56445771-B711E43E-E0A0-4349-80A6-A02EDB792C79Q56539617-69A11C23-3886-4350-BC3C-47F41827DF6AQ56542242-15934E81-D398-4474-A563-9F2634D1CB58Q56653869-BD9B38F0-E184-40FF-BEF4-2395CA3A8DC2Q57654308-27b40e3d-546d-48ea-9873-8541c68c03edQ63242124-78A78501-5151-4A7C-BAD2-EF409F1E036DQ63242954-3D262A3E-D37C-4EF6-90AA-C4F9E2B0665AQ63242979-06895F24-7D7B-4858-A857-724D59C2D175Q63284572-11D6BA30-AE31-4315-A7EE-5092739C496DQ63284595-FEE295F0-D955-44CE-9FBD-6DF6AB73CDF5Q63284607-755A54A5-AA25-465C-9ABD-639D88F2EF8BQ63284620-00015752-2B98-4469-B94B-F13E7AAEA50FQ63284641-3C130F26-D97C-417C-AF83-2DED7F50EFA1Q63284645-33394346-2524-4D24-BCD3-E8388EB6589BQ63284656-8F0C838C-0430-4FC8-AABF-DB5AEB30F7E4Q63284675-8B2FAEBA-7C28-4BF9-9D42-578B9787C3B2Q63284677-065E3F05-8BD9-4D44-B370-F22A05B91E29Q63284681-06AAEC47-5CB4-465C-99A4-44B30C072386Q63284697-D5B60CA3-D570-4E61-AD43-AF1514B30086Q63284707-0149D8FB-6F13-46EE-8152-41C46EA55F4CQ63284713-9470C630-B9D8-4F4B-A891-2A9A665E074FQ63284717-8CD0008D-A33C-462C-87BD-5CC5224C7134Q63284730-BBC18C23-29F0-4AE4-9F15-DCE65BF815D1Q63284732-2E89A2B7-8AED-410F-9E1A-E12AD955A317
P184
Q34566303-9547D64F-2026-4C21-BF61-E2557CB5D5D5Q35065967-4C5A7026-F19C-4F6C-996B-55714C408458Q36466321-6C97FF8D-FD82-41FE-86E8-9600A919B322Q37958088-E6BF2636-447D-4DBD-AA32-E15B80C9457CQ37986713-95684AB2-CAEC-47EE-A0A1-69FAF417EA2FQ39053440-D973ED3E-B3B5-4887-ADA5-F275CB7888A2Q39815471-9FDA71B4-F00C-4D4F-B647-E8F47BBEE2FDQ40136291-C2AEBE9F-C3A9-4A61-A4AD-DBF9A1F6D1C3Q40616664-B9693111-2F28-4186-A87B-D33E339717ECQ43043408-40EEC0CF-515B-4213-A662-1526522DB8A9Q43496471-E912198D-6EF6-4463-8D35-AB18C9F1B9C3Q44627205-8A38BB93-BF27-4FBE-A695-1E8F6B1DCEE5Q44790739-3D3B03CD-4DAE-4C19-9C66-262434911334Q46205294-BE6199A9-17BA-4393-8D0B-552E1F3D5E47Q46806324-33F57B54-618F-41DF-BE57-5AD19F03E586Q46935951-3CCF71DA-339E-4654-8F8C-5B3830B94F67Q46953121-07310BE1-B088-4701-9CAC-0874E985B60DQ47381230-8BB17F0A-365C-49E1-B7C3-BC316910D56DQ47390725-1BB76C23-F48D-4396-B019-585392EF74F6Q47695635-9C97A357-1687-4624-B15B-DF5EB52787F1Q47719709-8A115221-26BD-4026-BD5B-2DCAD9F599D9Q48288075-ABD455D9-AD47-4FF8-9E0B-7E7DCB2735CEQ50736000-B3175ECB-CD41-4DC4-ADDB-780D0C163B61Q50992039-23C37DC7-63FA-4030-A7A6-40E04946BEF2Q51018030-A885676C-97E4-414F-AEDC-60651DC6D555Q51135925-ACD3ED27-9230-4951-9EFC-8D9E7CCDBFD3Q51339326-A7AE4A3A-54E4-435E-97D7-630A235CD5A3Q51461448-61345801-B54F-486E-941E-4312A89F01B6Q51736748-FCD6E7EF-1B35-4024-A962-56D6425511A6Q52802380-1FF0BA8A-7611-4D8C-8083-75ADC5A2925BQ52802925-1228C8E7-239A-4D22-90D0-2A7D5361A3D1Q52837488-79952293-F6D5-4BD6-A236-55BBE7905267Q52838785-D8892DD3-3A2B-408D-8DA3-124C6C12B9D6Q52846377-93FE85DB-0F47-4F9B-B691-2A3425648ADCQ54887752-5963212E-872D-4E2A-B91E-42A05F4C8D43Q54887753-c367d38b-4897-9752-75ae-c590e1f82ee2Q54887754-96636E2C-7319-4C6D-9E13-66DE1614614EQ54887757-DA39FD65-3D93-4198-BD22-AFF8408E4C91Q54887760-963A00B5-B8A6-479E-9BD3-B9061CA41151Q54887762-76B6AD3B-724D-4B5A-8AED-5FB4A2F64C25
P50
description
Royal Academy of Engineering C ...... ing at the University of Leeds
@en
professor in tribologie en werktuigkunde aan de uiversiteit van Leeds
@nl
name
Anne Neville
@ast
Anne Neville
@de
Anne Neville
@en
Anne Neville
@es
Anne Neville
@fr
Anne Neville
@it
Anne Neville
@nl
Энн Невилл
@ru
安妮·內維爾
@zh-hant
安妮·内维尔
@zh
type
label
Anne Neville
@ast
Anne Neville
@de
Anne Neville
@en
Anne Neville
@es
Anne Neville
@fr
Anne Neville
@it
Anne Neville
@nl
Энн Невилл
@ru
安妮·內維爾
@zh-hant
安妮·内维尔
@zh
altLabel
prof. A. Neville
@nl
prefLabel
Anne Neville
@ast
Anne Neville
@de
Anne Neville
@en
Anne Neville
@es
Anne Neville
@fr
Anne Neville
@it
Anne Neville
@nl
Энн Невилл
@ru
安妮·內維爾
@zh-hant
安妮·内维尔
@zh
P166
P185
P214
P244
P2671
P269
P106
P1153
7103205655
P166
P185
P1960
DfJAlY8AAAAJ
P2031
2000-01-01T00:00:00Z