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General Engineering Research Institute

Prof Mike Morgan

Prof Mike Morgan

Telephone: 0151 231 2590

Publications

Conference Publication (journal proceedings)

Morgan M, Jamal M, Peavoy D. 2017. The characterization of soda-lime based silica glass powder for use as a mass finishing abrasive media Advances in Transdisciplinary Engineering, 6 :45-50 >DOI

Moruzzi JJ, Morgan MN. 2017. Software integration of process monitoring equipment in grinding controller design Advances in Transdisciplinary Engineering, 6 :102-107 >DOI

Hart PW, Morgan MN. 2017. Economic analysis of the helical form grinding process Advances in Transdisciplinary Engineering, 6 :573-578 >DOI

Chen X, Morgan MN. 2016. ADVANCES IN QUALITY AND PRODUCTIVITY IN PRECISION GRINDING -A REVIEW OF SELECTED RESEARCH PROCEEDINGS OF THE ASME 11TH INTERNATIONAL MANUFACTURING SCIENCE AND ENGINEERING CONFERENCE, 2016, VOL 1, 11th ASME International Manufacturing Science and Engineering Conference (MSEC 2016) >Link

Li YS, Deng JX, Ebbrell S, Morgan M, Ren XJ. 2012. High speed turning of Ti-6Al-4V alloy with straight cemented carbide and PVD coated carbide tools PRECISION MACHINING VI, 496 :92-97 >DOI >Link

Benjarungroj P, Harrison P, Vaughan S, Ren XJ, Morgan MN. 2012. INVESTIGATION OF THERMALLY TREATED RECYLED GLASS AS A VIBRATORY MASS FINISHING MEDIA PRECISION MACHINING VI, 496 :104-109 >DOI >Link

Wu H, Morgan MN, Lin B. 2009. Investigation of the Grinding Wheel Air Boundary Layer Flow Huang H, Zhang L, Wang J, Jiang Z, Zhou L, Xu XP. ADVANCES IN ABRASIVE TECHNOLOGY XII, 12th International Symposium on Advances in Abrasive Technology 76-78 :113-+ >DOI >Link

Lin B, Wang ZF, Morgan MN, Liu C. 2006. A model for estimation of convection heat transfer coefficient of fluid through the grinding zone Cai G, Xu XP, Kang R. ADVANCES IN GRINDING AND ABRASIVE TECHNOLOGY XIII, 13th Conference on Abrasive Technology in China 304-305 :584-587 >DOI >Link

Rowe WB, Morgan MN, Batako A, Jin T. 2003. Energy and temperature analysis in grinding Ford DG. LASER METROLOGY AND MACHINE PERFORMANCE VI, 6th International Conference and Exhibition on Laser Metrology, Machine Tool, CMM and Robot Performance (LAMDAMAP 2003) :3-23 >Link

Morgan MN, Rowe WB. 2001. Design procedure for parameter selection in angle approach cylindrical grinding Cheng K, Webb D. ADVANCES IN MANUFACTURING TECHNOLOGY-XVI, 18th National Conference on Manufacturing Research :423-427 >Link

Cai R, Rowe WB, Morgan MN. 2001. Structural properties of vitrified CBN grinding wheels Cheng K, Webb D. ADVANCES IN MANUFACTURING TECHNOLOGY-XVI, 18th National Conference on Manufacturing Research :349-353 >Link

Cai R, Rowe WB, Morgan MN. 2001. Grinding performance of high-porosity fine-grain vitrified CBN wheels for Inconel 718 Cheng K, Webb D. ADVANCES IN MANUFACTURING TECHNOLOGY-XVI, 18th National Conference on Manufacturing Research :343-347 >Link

Morgan MN, Rowe WB. 2000. An investigation of temperatures in form grinding. Hayhurst DR. PROCEEDINGS OF THE 33RD INTERNATIONAL MATADOR CONFERENCE, 33rd International MATADOR Conference :433-438 >Link

Rowe WB, Morgan MN, Black SCE. 1998. Validation of thermal properties in grinding CIRP ANNALS 1998 - MANUFACTURING TECHNOLOGY, VOL 47, NO 1, 48th General Assembly of CIRP on Manufacturing Technology 47 :275-279 >Link

ROWE WB, XUN C, MORGAN MN. 1993. THE IDENTIFICATION OF DRESSING STRATEGIES FOR OPTIMAL GRINDING WHEEL PERFORMANCE Kochhar AK. PROCEEDINGS OF THE THIRTIETH INTERNATIONAL MATADOR CONFERENCE, 30th International MATADOR Conference :195-202 >Link

ROWE WB, QI HS, MORGAN MN, ZHENG HW. 1993. THE REAL CONTACT LENGTH IN GRINDING BASED ON DEPTH OF CUT AND CONTACT DEFLECTIONS Kochhar AK. PROCEEDINGS OF THE THIRTIETH INTERNATIONAL MATADOR CONFERENCE, 30th International MATADOR Conference :187-193 >Link

Journal Articles

Jamal M, Morgan MN. 2017. Materials characterisation part II: tip geometry of the Vickers indenter for microindentation tests International Journal of Advanced Manufacturing Technology, 92 :897-908 >DOI

Jamal M, Morgan MN, Peavoy D. 2017. A digital process optimization, process design and process informatics system for high-energy abrasive mass finishing International Journal of Advanced Manufacturing Technology, 92 :303-319 >DOI

Jamal M, Morgan MN. 2017. Materials characterization part I: contact area of the Berkovich indenter for nanoindentation tests International Journal of Advanced Manufacturing Technology, 92 :361-370 >DOI

Irving M, Murphy MF, Morgan MN, Lilley F, French P, Burton DR, Moran P. 2016. Machine grinding as an alternative method for creating functional surfaces for controlling cell behaviour International Journal of Advanced Manufacturing Technology, 87 :1023-1031 >DOI

Jamal M, Morgan M. 2014. Determination of the mechanical properties of thermally treated recycled glass based on nano-indentation measurement and FEM supported simulation Key Engineering Materials, 581 :472-477 >DOI

Morgan MN, Moruzzi JJ, Allanson DR, Chen X. 2014. On the Development of Machine Controller Systems with Enhanced Facility for Process Monitoring Integration Kundrak J, Maros Z. PRECISION MACHINING VII, 581 :533-+ >DOI >Link

Vereshchaka AA, Vereshchaka AS, Mgaloblishvili O, Morgan MN, Batako AD. 2014. Nano-scale multilayered-composite coatings for the cutting tools International Journal of Advanced Manufacturing Technology, 72 :303-317 >DOI

Zhang L, Morgan MN. 2013. A Model of the Fluid Convective Cooling in Grinding Process Yuan J, Chen M, Lv B. ADVANCES IN ABRASIVE TECHNOLOGY XVI, 797 :299-+ >DOI >Link

Zhang L, Rowe WB, Morgan MN. 2013. An improved fluid convection solution in conventional grinding PROCEEDINGS OF THE INSTITUTION OF MECHANICAL ENGINEERS PART B-JOURNAL OF ENGINEERING MANUFACTURE, 227 :832-838 >DOI >Link

Batako ADL, Morgan MN, Rowe BW. 2013. High efficiency deep grinding with very high removal rates International Journal of Advanced Manufacturing Technology, 66 :1367-1377 >DOI

Jamal M, Morgan M. 2012. A study of the mechanical properties of thermally treated recycled glass media used in vibratory mass finishing Manufacturing Technology, 12

Grigor'ev SN, Kuzin VV, Morgan MN, Batako A. 2012. Influence of loads on the stress-strain state of aluminum-oxide ceramic cutting plates Russian Engineering Research, 32 :61-67 >DOI

Morgan MN, Barczak L, Batako A. 2012. Temperatures in fine grinding with minimum quantity lubrication (MQL) International Journal of Advanced Manufacturing Technology, 60 :951-958 >DOI

Morgan M, Jamal M, Benjarungroj P, Vaughan S. 2012. Vibratory superpolishing of a ti alloy aerospace material with thermally treated recycled glass media Manufacturing Technology, 12 :51-55

Batako ADL, Morgan MN, Rowe BW. 2012. High efficiency deep grinding with very high removal rates International Journal of Advanced Manufacturing Technology, :1-11 >DOI

Morgan MN, Wu H, Lin B. 2011. An experimental investigation of air boundary layer flow in grinding using the Laser Doppler Anemometry Technique International Journal of Abrasive Technology, 4 :174-189 >DOI

Wu H, Morgan MN, Lin B. 2011. An experimental investigation of air boundary layer flow in grinding using the laser doppler anemometry technique International Journal of Abrasive Technology, 4 :174-189 >Link

Barczak LM, Batako ADL, Morgan MN. 2010. A study of plane surface grinding under minimum quantity lubrication (MQL) conditions International Journal of Machine Tools and Manufacture, 50 :977-985 >DOI >Link

Baines-Jones VA, Morgan MN, Batako AD, Brown E. 2009. The role of computational fluid dynamics for coolant delivery in industrial grinding of steels and cast iron Laser Metrology and Machine Performance IX - 9th International Conference and Exhibition on Laser Metrology, Machine Tool, CMM and Robotic Performance, LAMDAMAP 2009, :368-376

Lin B, Chen X, Morgan MN, Wu H. 2009. Estimation of the convection heat transfer coefficient of coolant and prediction of the maximum temperature within the grinding zone International Journal of Abrasive Technology, 2 :130-153 >DOI

Lin B, Morgan MN, Chen XW, Wang YK. 2009. Study on the convection heat transfer coefficient of coolant and the maximum temperature in the grinding process INTERNATIONAL JOURNAL OF ADVANCED MANUFACTURING TECHNOLOGY, 42 :1175-1186 >DOI >Link

Morgan MN. 2008. Foreword to ICMR 2006 International Journal of Advanced Manufacturing Technology, 38 :385 >Link

Cai R, Morgan MN. 2008. Design of a user guidance manual for optimal coolant delivery in grinding INTERNATIONAL JOURNAL OF ADVANCED MANUFACTURING TECHNOLOGY, 38 :410-417 >DOI >Link

Morgan MN, Jackson AR, Wu H, Baines-Jones V, Batako A, Rowe WB. 2008. Optimisation of fluid application in grinding CIRP ANNALS-MANUFACTURING TECHNOLOGY, 57 :363-366 >DOI >Link

Morgan MN, Cai R, Guidotti A, Allanson DR, Rowe WB. 2007. Design and implementation of an intelligent grinding assistant system International Journal of Abrasive Technology, 1 :106-135

Wu H, Lin B, Cai R, Morgan MN. 2007. Measurement of the air boundary layer on the periphery of a rotating grinding wheel using LDA Journal of Physics: Conference Series, 76 >Link

Cai R, Rowe WB, Moruzzi JL, Morgan MN. 2007. Intelligent grinding assistant (IGA((c))) - system development - part I - intelligent grinding database INTERNATIONAL JOURNAL OF ADVANCED MANUFACTURING TECHNOLOGY, 35 :75-85 >DOI >Link

Batako ADL, Morgan MN, Rowe WB, Walton IM. 2005. Temperature measurement in high efficiency deep grinding (HEDG) using enhanced single pole thermocouple and PVD coating techniques Laser Metrology and Machine Performance VII - 7th International Conference and Exhibition on Laser Metrology, Machine Tool, CMM and Robotic Performance, LAMDAMAP 2005, :332-343

Batako AD, Rowe WB, Morgan MN. 2005. Temperature measurement in high efficiency deep grinding INTERNATIONAL JOURNAL OF MACHINE TOOLS & MANUFACTURE, 45 :1231-1245 >DOI >Link

Rowe WB, Ebbrell S, Morgan MN. 2004. Process requirements for cost-effective precision grinding CIRP ANNALS-MANUFACTURING TECHNOLOGY, 53 :255-258 >DOI >Link

Gviniashvili V, Morgan MN, Woolley NH, Rowe WB. 2004. Modelling of the useful flowrate in grinding based on spindle power ADVANCES IN ABRASIVE TECHNOLOGY VI, 257-258 :333-338 >DOI >Link

Morgan MN, Rowe WB, Batako A. 2004. Energy limitations in HEDG and conventional grinding ADVANCES IN ABRASIVE TECHNOLOGY VI, 257-258 :63-68 >DOI >Link

Ebbrell S, Rowe WB, Morgan MN. 2003. Process characterisation of grinding AISI 52100 with vitrified CBN ADVANCES IN ABRASIVE TECHNOLOGY V, 238-2 :333-338 >DOI >Link

Cai R, Rowe WB, Morgan MN, Mills B. 2003. Measurement of vitrified CBN grinding wheel topography ADVANCES IN ABRASIVE TECHNOLOGY V, 238-2 :301-306 >DOI >Link

Cai R, Rowe WB, Morgan MN. 2003. The effect of porosity on the grinding performance of vitrified CBN wheels ADVANCES IN ABRASIVE TECHNOLOGY V, 238-2 :295-300 >DOI >Link

Rowe W, Morgan M, Black S. 1998. Validation of Thermal Properties in Grinding. CIRP Annals, 47 :275-279 >DOI

Morgan MN, Rowe WB, Black SCE, Allanson DR. 1998. Effective thermal properties of grinding wheels and grains PROCEEDINGS OF THE INSTITUTION OF MECHANICAL ENGINEERS PART B-JOURNAL OF ENGINEERING MANUFACTURE, 212 :661-669 >DOI >Link

Rowell WB, Black SCE, Mills B, Morgan MN, Qi HS. 1997. Grinding temperatures and energy partitioning PROCEEDINGS OF THE ROYAL SOCIETY A-MATHEMATICAL PHYSICAL AND ENGINEERING SCIENCES, 453 :1083-1104 >DOI >Link

Rowe WB, Morgan MN, Black SCE, Mills B. 1996. A simplified approach to control of thermal damage in grinding CIRP Annals - Manufacturing Technology, 45 :299-302 >Link

Rowe WB, Black SCE, Mills B, Qi HS, Morgan MN. 1995. Experimental Investigation of Heat Transfer in Grinding CIRP Annals - Manufacturing Technology, 44 :329-332 >Link

Rowe WB, Morgan MN, Qi HS, Zheng HW. 1993. The Effect of Deformation on the Contact Area in Grinding CIRP Annals - Manufacturing Technology, 42 :409-412 >Link

Rowe P, Morgan MN, Allanson DA. 1991. An Advance in the Modelling of Thermal Effects in the Grinding Process CIRP Annals - Manufacturing Technology, 40 :339-342 >Link

Chapters

Piguet C, Nagel JL, Peiris V, Gyger S, Séverac D, Morgan M, Masgonty JM. 2012. Trends in design methods for complex heterogeneous systems Design Technology for Heterogeneous Embedded Systems 9789400711259 :177-196 9789400711259 >DOI

Other

Yamada T, Morgan M, Lee H-S, Miura K. 2012. Calculation of effective ground depth of cut by means of grinding process model Key Engineering Materials, 496 :7-12 >Link

Yamada T, Morgan M, Lee H-S, Miura K. 2011. Calculation of the contact stiffness of grinding wheel Advanced Materials Research, 325 :54-59 >Link

Morgan MN, Baines-Jones V. 2009. On the coherent length of fluid nozzles in grinding Key Engineering Materials, 404 :61-67 >Link

Cai R, Morgan MN. 2007. Development of intelligent grinding database Key Engineering Materials, 329 :21-26 >Link

Morgan MN, Rowe WB. 2007. Implementation of thermal models in grinding Key Engineering Materials, 329 :3-8 >Link