Publications
2021
Experimental and numerical studies of ultra high performance fibre reinforced concrete (UHPFRC) two-way slabs
Mahmud, G. H., Hassan, A. M. T., Jones, S. W., & Schleyer, G. K. (2021). Experimental and numerical studies of ultra high performance fibre reinforced concrete (UHPFRC) two-way slabs. STRUCTURES, 29, 1763-1778. doi:10.1016/j.istruc.2020.12.053
2015
Response of small scale ultra high performance fibre reinforced concrete slabs to blast loading
Mao, L., Barnett, S. J., Tyas, A., Warren, J., Schleyer, G. K., & Zaini, S. S. (2015). Response of small scale ultra high performance fibre reinforced concrete slabs to blast loading. CONSTRUCTION AND BUILDING MATERIALS, 93, 822-830. doi:10.1016/j.conbuildmat.2015.05.085
Peer assisted learning (PAL) in the School of Engineering – Transfer of good practice
Schleyer, G., & Sedghi, G. (2015). Peer assisted learning (PAL) in the School of Engineering – Transfer of good practice. In Learning and Teaching Conference. University of Liverpool.
2014
Undergraduate laboratory exercise on impact testing of structures
Schleyer, G., & Jones, N. (2014). Undergraduate laboratory exercise on impact testing of structures. International Journal of Mechanical Engineering Education, 42(4), 340-350. doi:10.1177/0306419015574645
Characterisation of aluminium matrix syntactic foams under drop weight impact
Altenaiji, M., Guan, Z. W., Cantwell, W. J., Zhao, Y., & Schleyer, G. (2014). Characterisation of aluminium matrix syntactic foams under drop weight impact. Materials and Design, 59, 296-302. doi:10.1016/j.matdes.2014.03.002
Modelling of perforation failure in fibre metal laminates subjected to high impulsive blast loading
Sitnikiva, E., Guan, Z. W., Schleyer, G. K., & Cantwell, W. J. (2014). Modelling of perforation failure in fibre metal laminates subjected to high impulsive blast loading. International Journal of Solids and Structures, 51(18), 3135-3146. doi:10.1016/j.ijsolstr.2014.05.010
Numerical simulation of ultra high performance fibre reinforced concrete panel subjected to blast loading
Mao, L., Barnett, S., Begg, D., Schleyer, G., & Wight, G. (2014). Numerical simulation of ultra high performance fibre reinforced concrete panel subjected to blast loading. INTERNATIONAL JOURNAL OF IMPACT ENGINEERING, 64, 91-100. doi:10.1016/j.ijimpeng.2013.10.003
2013
Transient pressure loading of clamped metallic plates with pre-formed holes
Rakvåg, K. G., Underwood, N. J., Schleyer, G. K., Børvik, T., & Hopperstad, O. S. (2013). Transient pressure loading of clamped metallic plates with pre-formed holes. International Journal of Impact Engineering, 53, 44-55. doi:10.1016/j.ijimpeng.2012.07.013
Modelling of the low-impulse blast behaviour of fibre–metal laminates based on different aluminium alloys
Vo, T. P., Guan, Z. W., Cantwell, W. J., & Schleyer, G. K. (2013). Modelling of the low-impulse blast behaviour of fibre–metal laminates based on different aluminium alloys. Composites Part B: Engineering, 44(1), 141-151. doi:10.1016/j.compositesb.2012.06.013
2012
On pulse pressure loading of plates with holes
Schleyer, G., Underwood, N., Do, H., Paik, J., & Kim, B. (2012). On pulse pressure loading of plates with holes. Open Engineering, 2(4), 496-508. doi:10.2478/s13531-012-0023-3
Analysis of the explosive loading of open-ended steel pipes
Rushton, N., Schleyer, G., & Cheesman, R. (2012). Analysis of the explosive loading of open-ended steel pipes. In WIT Transactions on State of the Art in Science and Engineering (pp. 199-208). WIT Press. doi:10.2495/978-1-84564-750-6/19
Nonlinear structural consequences of plates with apertures under pulse pressure loads: an experimental and numerical study
Underwood, N. J., Schleyer, G. K., Paik, J. K., & Kim, B. J. (2012). Nonlinear structural consequences of plates with apertures under pulse pressure loads: an experimental and numerical study. In WIT Transactions on The Built Environment Vol. 1 (pp. 27-37). WIT Press. doi:10.2495/su120031
Experimental investigation of large plastic deformation and fracture in explosively loaded open-ended steel cylinders
Schleyer, G. K., & Rushton, N. J. (2012). Experimental investigation of large plastic deformation and fracture in explosively loaded open-ended steel cylinders. International Journal of Computational Methods and Experimental Measurements, 1(1), 1-16. doi:10.2495/cmem-v1-n1-1-16
Characterisation of Aluminium Matrix Syntactic Foams Under Static and Dynamic Loading
Altenaiji, M., Schleyer, G. K., & Zhao, Y. Y. (n.d.). Characterisation of Aluminium Matrix Syntactic Foams Under Static and Dynamic Loading. In Composites and Their Properties. InTech. doi:10.5772/48560
Nonlinear Structural Consequence Analysis of Blast Wall Structures Under Hydrocarbon Explosive Loads
Sohn, J. M., Kim, B. H., Paik, J. K., & Schleyer, G. (2012). Nonlinear Structural Consequence Analysis of Blast Wall Structures Under Hydrocarbon Explosive Loads. In Volume 2: Structures, Safety and Reliability (pp. 263-273). American Society of Mechanical Engineers. doi:10.1115/omae2012-83521
Low-impulse blast behaviour of fibre-metal laminates
Vo, T. P., Guan, Z. W., Cantwell, W. J., & Schleyer, G. K. (2012). Low-impulse blast behaviour of fibre-metal laminates. Composite Structures, 94(3), 954-965. doi:10.1016/j.compstruct.2011.10.027
'Experiential learning using a computer-based virtual reconstruction of an accident investigation'
Stacey, N., Underwood, N. J., Schleyer, G. K., & Okunribido, O. (2012). 'Experiential learning using a computer-based virtual reconstruction of an accident investigation'. In EE2012 - Innovation, Practice and Research in Engineering Education EE2012 (pp. 1-4). Coventry: Loughborough University.
'Nonlinear structural consequence analysis of blast wall structures under hydrocarbon explosive loads'
Sohn, J. M., Kim, B. H., Paik, J. K., & Schleyer, G. K. (2012). 'Nonlinear structural consequence analysis of blast wall structures under hydrocarbon explosive loads'. In OMAE2012 (pp. 1-11). Rio de Janeiro: ASME.
2011
Characterisation of aluminium matrix syntactic foams under static and dynamic loading
Altenaiji, M., Schleyer, G. K., & Zhao, Y. Y. (2011). Characterisation of aluminium matrix syntactic foams under static and dynamic loading. PERFORMANCE, PROTECTION AND STRENGTHENING OF STRUCTURES UNDER EXTREME LOADING, 82, 142-147. doi:10.4028/www.scientific.net/AMM.82.142
'Buckling and ultimate strength of damaged plates with openings'
Do, H. M., Schleyer, G. K., Underwood, N. J., Paik, J. K., & Kim, B. J. (2011). 'Buckling and ultimate strength of damaged plates with openings'. In International Conference on Advances in Structural Engineering and Mechanics (pp. 1939-1947). Seoul: Techno-Press.
'On the simplified analysis of square plates with holes'
Schleyer, G. K., Underwood, N. J., Do, H. M., Paik, J. K., & Kim, B. J. (2011). 'On the simplified analysis of square plates with holes'. In OMAE2011 (pp. 1-5). Rotterdam: ASME.
'UHPFRC panel testing'
Schleyer, G. K., Barnett, S. J., Millard, S. G., Wight, G., & Rebentrost, M. (2011). 'UHPFRC panel testing'. The Structural Engineer, 89(23/24), 34-40.
On the Simplified Analysis of Square Plates With Holes
Schleyer, G. K., Underwood, N. J., Do, H. M., Paik, J. K., & Kim, B. J. (2011). On the Simplified Analysis of Square Plates With Holes. In Volume 2: Structures, Safety and Reliability (pp. 107-111). ASMEDC. doi:10.1115/omae2011-49134
2010
Briefing: Blast tests of fibre-reinforced concrete panels
Barnett, S. J., Millard, S. G., Schleyer, G. K., & Tyas, A. (2010). Briefing: Blast tests of fibre-reinforced concrete panels. Proceedings of the Institution of Civil Engineers - Construction Materials, 163(3), 127-129. doi:10.1680/coma.900017
Modelling the response of UHPFRC panels to explosive loading
Schleyer, G. K., Barnett, S. J., Millard, S. G., & Wight, G. (2010). Modelling the response of UHPFRC panels to explosive loading. In WIT Transactions on The Built Environment Vol. 1 (pp. 173-184). WIT Press. doi:10.2495/su100151
'Blast tests of ultra high performance fibre reinforced concrete panels'
Barnett, S. J., Millard, S. G., Tyas, A., & Schleyer, G. K. (2010). 'Blast tests of ultra high performance fibre reinforced concrete panels'. Proceedings of the Institution of Civil Engineers: Construction Materials, 163(3), 127-129.
'Major Hazards Management - a finishing module for undergraduate engineers on how to manage risk'
Schleyer, G. K., Underwood, N. J., Dalzell, G., & Stacey, N. (2010). 'Major Hazards Management - a finishing module for undergraduate engineers on how to manage risk'. In EE2010 International Conference (pp. 8). Birmingham: The Higher Education Academy Engineering Subject Centre.
'Royal Academy of Engineering Industrial Secondment Scheme End-of-Year Report'
Schleyer, G. K. (2010). 'Royal Academy of Engineering Industrial Secondment Scheme End-of-Year Report'. London: Royal Academy of Engineering.
2009
Indentation Tests on Al Matrix Syntactic Foams
Tao, X. F., Schleyer, G. K., & Zhao, Y. Y. (2009). Indentation Tests on Al Matrix Syntactic Foams. In Unknown Book (Vol. 12, pp. 97-104). doi:10.1007/978-1-4020-9404-0_11
'Building Damage Evaluation Using SDOF Methods and Spreadsheet Analysis Tools'
Schleyer, G. K. (2009). 'Building Damage Evaluation Using SDOF Methods and Spreadsheet Analysis Tools'. Chester: Shell Global Solutions.
'Indentation Tests on Al Matrix Syntactic Foams'
Tao, X. F., Schleyer, G. K., & Zhao, Y. Y. (2009). 'Indentation Tests on Al Matrix Syntactic Foams'. In IUTAM Symposium on Mechanical Properties of Cellular Materials Vol. 12 (pp. 97-104). Cachan: Springer Netherlands.
'Integrating risk concepts into undergraduate engineering courses'
Stacey, N., Simpson, K., & Schleyer, G. K. (2009). 'Integrating risk concepts into undergraduate engineering courses'. Bootle: HSE.
'Royal Academy of Engineering Industrial Secondment Scheme Secondee Report'
Schleyer, G. K. (2009). 'Royal Academy of Engineering Industrial Secondment Scheme Secondee Report'. London: Royal Academy of Engineering.
Blast resistance of ultra high performance fibre reinforced concrete
Barnett, S. J., Tyas, A., Millard, S. G., Schleyer, G. K., & Soutsos, M. N. (2009). Blast resistance of ultra high performance fibre reinforced concrete. In Concrete Communications Conference 2009 (pp. 2). Leeds: The Concrete Centre.
Explosion and impact resistance of ultra high performance fibre reinforced concrete
Millard, S. G., Barnett, S. J., Schleyer, G. S., Tyas, A., & Soutsos, M. N. (2009). Explosion and impact resistance of ultra high performance fibre reinforced concrete. In PROTECT 2009 (pp. 10). Hayama, Japan: National Defence Academy, Japan.
Testing of a New Blast-Resistant Concrete
Millard, S. G., Barnett, S. J., Soutsos, M. N., Schleyer, G. K., & Tyas, A. (2009). Testing of a New Blast-Resistant Concrete. In GEMS 2009, (pp. 10). London: GEMS.
2008
Internal explosive loading of steel pipes
Rushton, N., Schleyer, G. K., Clayton, A. M., & Thompson, S. (2008). Internal explosive loading of steel pipes. Thin-Walled Structures, 46(7-9), 870-877. doi:10.1016/j.tws.2008.01.027
Analysis of the explosive loading of open-ended steel pipes
Rushton, N., Schleyer, G., & Cheesman, R. (2008). Analysis of the explosive loading of open-ended steel pipes. In WIT Transactions on The Built Environment Vol. I (pp. 209-218). WIT Press. doi:10.2495/su080211
'Analysis of the explosive loading of open-ended steel pipes'
Rushton, N., Schleyer, G. K., & Cheesman, R. (2008). 'Analysis of the explosive loading of open-ended steel pipes'. In SUSI 2008 (pp. 10). The Algarve: Wessex Institute of Technology.
'Role-play experience through virtual reconstruction of accident investigation'
Schleyer, G. K., Duan, R. F., & Stacey, N. (2008). 'Role-play experience through virtual reconstruction of accident investigation'. In EE 2008 (pp. 7). Loughborough: Higher Education Academy Engineering Subject Centre.
Dynamic testing of ultra high performance fibre reinforced concrete
Barnett, S. J., Millard, S. G., Tyas, A., Schleyer, G. K., & Soutsos, M. N. (2008). Dynamic testing of ultra high performance fibre reinforced concrete. In Concrete Communications 2008 (pp. 125-131). Liverpool: Concrete Centre.
Health and Safety in Civil Engineering CDIO
Millard, S. G., Schleyer, G. K., Stacey, N., & Taylor, R. (2008). Health and Safety in Civil Engineering CDIO. In CDIO (Ed.), 4th Int. CDIO Conf (pp. 6). Gent: University of Gent.
2007
Assessing the Awareness of Risk Concepts by New Engineering Students
Schleyer, G., Duan, R. F., Williamson, J., & Stacey, N. (2007). Assessing the Awareness of Risk Concepts by New Engineering Students. International Journal of Mechanical Engineering Education, 35(3), 184-197. doi:10.7227/ijmee.35.3.3
Behaviour of fibre metal laminates subjected to localised blast loading—Part II: Quantitative analysis
Lemanski, S. L., Nurick, G. N., Langdon, G. S., Simmons, M. C., Cantwell, W. J., & Schleyer, G. K. (2007). Behaviour of fibre metal laminates subjected to localised blast loading—Part II: Quantitative analysis. International Journal of Impact Engineering, 34(7), 1223-1245. doi:10.1016/j.ijimpeng.2006.05.009
Behaviour of fibre-metal laminates subjected to localized blast loading - Quantitative analysis
Lemanski, S. L., Nurick, G., Langdon, G., Simmons, M. C., Cantwell, W. J., & Schleyer, G. (2007). Behaviour of fibre-metal laminates subjected to localized blast loading - Quantitative analysis. Accepted for publication in Int. J. of Impact Engineering.
Behaviour of fibre–metal laminates subjected to localised blast loading: Part I—Experimental observations
Langdon, G. S., Lemanski, S. L., Nurick, G. N., Simmons, M. C., Cantwell, W. J., & Schleyer, G. K. (2007). Behaviour of fibre–metal laminates subjected to localised blast loading: Part I—Experimental observations. International Journal of Impact Engineering, 34(7), 1202-1222. doi:10.1016/j.ijimpeng.2006.05.008
Experimental investigation of blast wall panels under shock pressure loading
Schleyer, G. K., Lowak, M. J., Polcyn, M. A., & Langdon, G. S. (2007). Experimental investigation of blast wall panels under shock pressure loading. International Journal of Impact Engineering, 34(6), 1095-1118. doi:10.1016/j.ijimpeng.2006.05.006
Failure characterisation of blast-loaded fibre–metal laminate panels based on aluminium and glass–fibre reinforced polypropylene
LANGDON, G., NURICK, G., LEMANSKI, S., SIMMONS, M., CANTWELL, W., & SCHLEYER, G. (2007). Failure characterisation of blast-loaded fibre–metal laminate panels based on aluminium and glass–fibre reinforced polypropylene. Composites Science and Technology, 67(7-8), 1385-1405. doi:10.1016/j.compscitech.2006.09.010
Response of Quasi-statically Loaded Corrugated Panels with Partially Restrained Boundaries
Langdon, G. S., & Schleyer, G. K. (2007). Response of Quasi-statically Loaded Corrugated Panels with Partially Restrained Boundaries. Experimental Mechanics, 47(2), 251-261. doi:10.1007/s11340-006-9026-4
'Advancing Engineering Dynamics through World Class Collaborations'
Schleyer, G. K. (2007). 'Advancing Engineering Dynamics through World Class Collaborations'. Swindon: EPSRC.
Development of advanced concrete materials for antiterrorism applications
Barnett, S. J., Millard, S. G., Schleyer, G. S., Soutsos, M. N., & Tyas, A. (2007). Development of advanced concrete materials for antiterrorism applications. In GEMS (Government Experts on Mitigating Systems), 8th Annual Meeting (pp. 6). Camberley: GEMS.
Explosion and impact resistance of ultra high performance fibre reinforced concrete
Barnett, S. J., Millard, S. G., Schleyer, G. K., & Tyas, A. (2007). Explosion and impact resistance of ultra high performance fibre reinforced concrete. Concrete, 32-33.
Flexural performance of UHPFRC
Barnett, S. J., Millard, S. G., Soutsos, M. N., Schleyer, G. K., & Tyas, A. (2007). Flexural performance of UHPFRC. In PROTECT-2007, Int. Conf (pp. 10). Whistler, BC, Canada: UBC.
Ultra high performance fibre reinforced concrete for explosion resistant structures
Barnett, S. J., Millard, S. G., Soutsos, M. N., Schleyer, G. K., Tyas, A., & Le, T. T. (2007). Ultra high performance fibre reinforced concrete for explosion resistant structures. In M. I. Russell, & P. A. M. Basheer (Eds.), Concrete Platform 2007, An International Conference in honour of Prof. Adrian Long and Prof. John Bungey (pp. 565-574). Belfast: Queen�s University of Belfast.
2006
Understanding the behaviour of fibre metal laminates subjected to localised blast loading
Lemanski, S. L., Nurick, G. N., Langdon, G. S., Simmons, M. S., Cantwell, W. J., & Schleyer, G. K. (2006). Understanding the behaviour of fibre metal laminates subjected to localised blast loading. Composite Structures, 76(1-2), 82-87. doi:10.1016/j.compstruct.2006.06.012
Deformation and failure of profiled stainless steel blast wall panels. Part III: finite element simulations and overall summary
Langdon, G. S., & Schleyer, G. K. (2006). Deformation and failure of profiled stainless steel blast wall panels. Part III: finite element simulations and overall summary. International Journal of Impact Engineering, 32(6), 988-1012. doi:10.1016/j.ijimpeng.2004.08.002
Pulse pressure loading of aircraft structural panels
Simmons, M. C., & Schleyer, G. K. (2006). Pulse pressure loading of aircraft structural panels. Thin-Walled Structures, 44(5), 496-506. doi:10.1016/j.tws.2006.05.002
Validated finite element analysis model of blast wall panels under shock pressure loading
Schleyer, G. K., Kewaisy, T. H., Wesevich, J. W., & Langdon, G. S. (2006). Validated finite element analysis model of blast wall panels under shock pressure loading. Ships and Offshore Structures, 1(3), 257-271. doi:10.1533/saos.2006.0127
'Educating engineers in risk concepts'
Schleyer, G. K., Duan, R. F., Stacey, N., & Williamson, J. (2006). 'Educating engineers in risk concepts'. In International Conference on Innovation, Good Practice and Research in Engineering Education (pp. 496-501). Liverpool: Higher Education Academy Subject Centres for Materials Education.
'Risk education in engineering - development of year 1 materials'
Schleyer, G. K., Duan, R. F., Stacey, N., & Williamson, J. (2006). 'Risk education in engineering - development of year 1 materials'. Bootle: HSE.
2005
Peer tutoring in conceptual design
Schleyer, G. K., Langdon, G. S., & James, S. (2005). Peer tutoring in conceptual design. European Journal of Engineering Education, 30(2), 245-254. doi:10.1080/03043790500087084
Inelastic deformation and failure of profiled stainless steel blast wall panels. Part I: experimental investigations
Langdon, G. S., & Schleyer, G. K. (2005). Inelastic deformation and failure of profiled stainless steel blast wall panels. Part I: experimental investigations. International Journal of Impact Engineering, 31(4), 341-369. doi:10.1016/j.ijimpeng.2003.12.002
Inelastic deformation and failure of profiled stainless steel blast wall panels. Part II: analytical modelling considerations
Langdon, G. S., & Schleyer, G. K. (2005). Inelastic deformation and failure of profiled stainless steel blast wall panels. Part II: analytical modelling considerations. International Journal of Impact Engineering, 31(4), 371-399. doi:10.1016/j.ijimpeng.2003.12.011
'Assessing the awareness of risk concepts by new engineering students'
Schleyer, G. K., Duan, R. F., Williamson, J., & Stacey, N. (2005). 'Assessing the awareness of risk concepts by new engineering students'. In 4th International Conference on Safety of Industrial Automated Systems (pp. unknown). Rosemont: Publisher unknown.
'Bomb blast protection using novel lightweight materials'
Schleyer, G. K., & Cantwell, W. J. (2005). 'Bomb blast protection using novel lightweight materials'. Swindon: EPSRC.
2004
Predicting the effects of blast loading arising from a pressure vessel failure: A review
Schleyer, G. K. (2004). Predicting the effects of blast loading arising from a pressure vessel failure: A review. Proceedings of the Institution of Mechanical Engineers, Part E: Journal of Process Mechanical Engineering, 218(4), 181-190. doi:10.1243/0954408042466936
Scaling of pulse loaded mild steel plates with different edge restraint
Schleyer, G. K., Hsu, S. S., & White, M. D. (2004). Scaling of pulse loaded mild steel plates with different edge restraint. INTERNATIONAL JOURNAL OF MECHANICAL SCIENCES, 46(9), 1267-1287. doi:10.1016/j.ijmecsci.2004.08.010
Modelling the response of semi-rigid supports under combined loading
Langdon, G. S., & Schleyer, G. K. (2004). Modelling the response of semi-rigid supports under combined loading. Engineering Structures, 26(4), 511-517. doi:10.1016/j.engstruct.2003.12.001
Unusual strain rate sensitive behaviour of AISI 316L austenitic stainless steel
Langdon, G. S., & Schleyer, G. K. (2004). Unusual strain rate sensitive behaviour of AISI 316L austenitic stainless steel. The Journal of Strain Analysis for Engineering Design, 39(1), 71-86. doi:10.1177/030932470403900106
2003
Inelastic deformation and failure of clamped aluminium plates under pulse pressure loading
Langdon, G. S., & Schleyer, G. K. (2003). Inelastic deformation and failure of clamped aluminium plates under pulse pressure loading. International Journal of Impact Engineering, 28(10), 1107-1127. doi:10.1016/s0734-743x(03)00036-8
Experimental investigation of corner-supported architectural glazing under pulse pressure loading
Goodfellow, A. M., & Schleyer, G. K. (2003). Experimental investigation of corner-supported architectural glazing under pulse pressure loading. The Journal of Strain Analysis for Engineering Design, 38(5), 469-481. doi:10.1243/03093240360713522
Pulse pressure loading of clamped mild steel plates
Schleyer, G. K., Hsu, S. S., White, M. D., & Birch, R. S. (2003). Pulse pressure loading of clamped mild steel plates. INTERNATIONAL JOURNAL OF IMPACT ENGINEERING, 28(2), 223-247. doi:10.1016/S0734-743X(02)00042-8
'Inelastic deformation and failure of clamped aluminium plates under pulse pressure loading'
Langdon, G. S., & Schleyer, G. K. (2003). 'Inelastic deformation and failure of clamped aluminium plates under pulse pressure loading'. International Journal of Impact Engineering, 28(10), 1107-1127. doi:10.1016/S0734-743X(03)00036-9
2002
Blast and impact resistance studies of laser welded and riveted panel structures
Dearden, G., Simmons, M. C., Okon, P., Schleyer, G. K., & Watkins, K. G. (2002). Blast and impact resistance studies of laser welded and riveted panel structures. In ICALEO 2002 - 21st International Congress on Applications of Laser and Electro-Optics, Congress Proceedings.
Electrorheological and magnetorheological fluids in blast resistant design applications
El Wahed, A. K., Sproston, J. L., & Schleyer, G. K. (2002). Electrorheological and magnetorheological fluids in blast resistant design applications. Materials & Design, 23(4), 391-404. doi:10.1016/s0261-3069(02)00003-1
Blast and impact resistance studies of laser welded and riveted panel structures
Dearden, G., Simmons, M. C., Okon, P., Schleyer, G. K., & Watkins, K. G. (2002). Blast and impact resistance studies of laser welded and riveted panel structures. In International Congress on Applications of Lasers & Electro-Optics (pp. 157457). Laser Institute of America. doi:10.2351/1.5065614
2000
A modelling scheme for predicting the response of elastic–plastic structures to pulse pressure loading
Schleyer, G. K., & Hsu, S. S. (2000). A modelling scheme for predicting the response of elastic–plastic structures to pulse pressure loading. International Journal of Impact Engineering, 24(8), 759-777. doi:10.1016/s0734-743x(00)00019-1
A COMPARISON BETWEEN ELECTRORHEOLOGICAL AND MAGNETORHEOLOGICAL FLUIDS SUBJECTED TO IMPULSIVE LOADS
WAHED, A. K. E., SPROSTON, J. L., & SCHLEYER, G. K. (2000). A COMPARISON BETWEEN ELECTRORHEOLOGICAL AND MAGNETORHEOLOGICAL FLUIDS SUBJECTED TO IMPULSIVE LOADS. In Electro-Rheological Fluids and Magneto-Rheological Suspensions (pp. 401-410). WORLD SCIENTIFIC. doi:10.1142/9789812793607_0047
1999
A Comparison between Electrorheological and Magnetorheological Fluids Subjected to Impulsive Loads
El Wahed, A. K., Sproston, J. L., & Schleyer, G. K. (1999). A Comparison between Electrorheological and Magnetorheological Fluids Subjected to Impulsive Loads. Journal of Intelligent Material Systems and Structures, 10(9), 695-700. doi:10.1106/cbf8-bw28-uu5l-f4mv
1998
Blast loading of stiffened plates: Experimental, analytical and numerical investigations
Schleyer, G. K., Hsu, S. S., & White, M. D. (1998). Blast loading of stiffened plates: Experimental, analytical and numerical investigations. In American Society of Mechanical Engineers, Pressure Vessels and Piping Division (Publication) PVP Vol. 361 (pp. 237-255).
Electrorheological Fluids Applied to Impulsive Loads
El Wahed, A. K., Sproston, J. L., & Schleyer, G. K. (1998). Electrorheological Fluids Applied to Impulsive Loads. In Rheology and Fluid Mechanics of Nonlinear Materials (pp. 159-165). American Society of Mechanical Engineers. doi:10.1115/imece1998-0460
1997
Dynamic response of cylindrical explosive chambers to internal blast loading produced by a concentrated charge
Whenhui, Z., Honglu, X., Guangquan, Z., & Schleyer, G. K. (1997). Dynamic response of cylindrical explosive chambers to internal blast loading produced by a concentrated charge. International Journal of Impact Engineering, 19(9-10), 831-845. doi:10.1016/s0734-743x(97)00022-5
1996
Development of simplified analytical methods for predicting the response of offshore structures to blast and fire loading
Schleyer, G. K., & Campbell, D. (1996). Development of simplified analytical methods for predicting the response of offshore structures to blast and fire loading. Marine Structures, 9(10), 949-970. doi:10.1016/0951-8339(96)00008-1