| 2018 | 2017 | 2016 | 2015 | 2014 | 2013 | 2012 | 2011 | 2010 | 2009 | 2008 | 2007 |
| 2006 | 2005 | 2004 | 2003 | 2002 | 2001 | 2000 | 1998 | 1997 | 1996 | 1995 | 1994 |
| 1992 |
2018
- Blasco, J. Design and build a manual hand blender.
- Chohan, D. The effect of an encased explosive on the response of a structural target.
- Gounden, N. Energy absorption characteristics of double-cell tubes subjected to axial load: a numerical study.
- Mahlaule, B. Design a rig to perform shear test experiments on circular rings.
- Palamattan, J. Modelling the lateral crushing of nested ring systems.
- Ramavu, N. Design and manufacture a corn sheller.
2017
- Butler, A. Response of structures to oblique blast loads.
- Forrester, K. Energy absorption characteristics of 3D printed lattics structures.
- Fouad, Y. Simulating the response of w-beam to impact loading.
- Harnaker, A. Energy absorption characteristics of multi-tubular structures under quasi-static loading.
- Jeewa, P. Effect of an encased explosive on the response of a structural target.
- Kang, G. Response of a structural target to an improvised explosive charge.
- McPherson, S. Design, build and commission a dough press.
- Moerane, M. Energy absorption characteristics of nested rings crushed laterally.
- Ncube, V. Simulating blast disruptors.
- Nongolola, T. Simulating the response of sandwich panels with tubular cores to blast load.
- Samuel, N. Design a rig to perform shear test experiments on circular rings.
2016
- Braithwaite, J. The effect of an encased explosive on the response of a structural target.
- Busakwe, N. Response of a fully clamped beam subjected to impact load.
- Campbell, N. Dynamic impact loading of scaled steel frame.
- Ramashala, T. Quasi-static and dynamic bending behaviour of sandwich beams with thin walled tubes as core.
- van Huyssteen, D. Experimental rig to demonstrate deflection of structure in Mechanics of Solids.
- Wale, O. Characterising blast loads using Bikini gauges.
2015
- Barendse, RJ. Experimental rig to validate deflection of structures for theory in Solids coursework.
- Briaraj, R. Simulating blast disruptors.
- Fourie, AK. Simulating the response of sandwich panels with tubular cores to blast load.
- Mnqatu, L. Impact on plates.
- Vermeulen, MJ. Dynamic impact loading of scaled steel frame.
2014
- Brunette, EM. Dynamic compression of soils under confined loading.
- Chimbuya, T. Investigate the effect of "encased" explosive on the response of s structural target.
- Daly, MH. Investigate the effect of aspect ratio of quadrangular plates subjected to blast loads.
- Davies, S. Dynamic impact loading of scaled steel frame.
- Guo, S. Fragment damage as a result of blast load.
- Haveron, DE. Investigate the use of pebbles to disrupt the blast load resulting from the detonation of explosives.
- Mashala, TC. The energy absorption characteristics of tubular structures subjected to axial load using a SHPB.
- Mokhabela, MA. Design and instrument a swinging impact pendulum.
- Reisinger, S. Scaling buried charges.
- Shires, MJ. Cable twisting machine.
2013
- Baby, T. Multi-layered, stack plates subjected to uniform blast loading.
- Cunliffe, G. The response of sandwich panels with filled tubular cores to blast load.
- du Plessis, MC. Blast response of sandwich panels with tubular cores.
- Featherstone, T. Optimisation of T-beam sections under blast loading.
- Garbiel, S. Small scale earthquake simulator.
- Hobson, L. Response of composite V shape panels to blast loads.
- Joao, C. Impact response of textile concrete.
- Kuttel, J. L. Understanding the effect of moisture content on buried charge.
- Mulibana, ZC. Redesign, modify and test a bar end grinder.
- Naidoo, K. Response of shallow “V” plates to blast load.
- Nair, G. Dynamic compression of aluminium foam.
- Niven, T. Cylinders under internal blast loading.
- Nteta, S. Design, build and Test a prototype intermediate strain rate tensile test rig.
- Snaddon, DPC. Create a quasi-1D numerical code for the analysis of gas guns and shock tubes.
- Vundla, N. Modelling strategies for viscoelastic wave propagation in polymer HPB.
- Warncke, D. The design and testing of novel shallow V-shape structures.
- Weyer, M. Design and testing of a two stage gas-gun.
2012
- Blakemore, D. Simulating the blast response of cylindrical shells to lateral blast loads.
- du Plessis, MC. Blast response of sandwich panels with tubular cores.
- Kuttel, JL. Understanding the effect of moisture content on buried charge.
- Mofokeng, BK. Investigation into microstructural response to strain hardening during blast loading.
- Naidoo, K. Response of shallow “V” plates to blast load.
- Piu, S. The Effects of Using Foam Filler on the Energy Absorption Characteristics of Tubular Structures.
2011
- Briner, J. Design, manufacture and test shallow V-shape hulls to withstand explosion loading.
- De Wet, N. Numerical study of the penetration behaviour of non-deformable cylindro-conical projectiles perforating mild steel plates.
- Fisher, J. Design, manufacture and test of woven fibre metal laminates for blast.
- Gulubane, L. Influence of hole layout on the blast mitigation of perforated plates.
- Haw, P. R. Quantifying the effect of buried charges.
- Keth, R. Manufacture & testing of curved sandwich panels for blast applications.
- Khanyile, N. Risk awareness of engineering students – development of a new survey.
- Kloppers, N. Flexural properties of glass.
- Myers, G. Teaching Demonstration Tool for Solid Mechanics.
- Norton, P. Evaluating the bonding of epoxy based fibre metal laminates.
- Ormrod, B. Blast load characterization.
- Pombili, N. Radial Distribution of Impulse Due To Blast Loading.
- Ranwaha, N. Response of steel plates to repeated uniform blast load.
- Schmidt, E. Impact of Glass.
2010
- Brinckmann, HB. Response of cylindrical shells to lateral blast load.
- Du Plessis, N. Design and testing of perforated plates as blast shielding for underground tunnels.
- Friggens, C. J. Energy absorption and collapse characteristics of mild steel square tubes with induced split discontinuities.
- Henchie, TF. Effect of shape charges and influence of polystyrene on the response of mild steel plate to blast load.
- Lee, WC. Manufacturing of Fibre Metal Laminate.
- Ozinsky, A. Design, build and testing of blast-resistant polymeric sandwich panels.
- Pitman, JD. Design, Build and Test a Direct Shear Split Hopkinson Bar Apparatus.
- Sanders, D. Design, build and test of a single pulse shock tube.
- Yende, M. Design, Build and Test a Tensile Specimen Fixture for a Split Hopkinson Bar Apparatus.
2009
- Bentley, S. Design, build and test of a bar end grinder.
- Cho, KJ. Axial crushing of rectangular tubes.
- Husemeyer, P. Numerical investigation of stress wave propagation in Hopkinson bar.
- Mufamadi, PG. Evaluating risk awareness within the Mechanical Engineering Department.
- Pickering, EG. The response of V-shaped plate structures to localised blast loading.
- Rowland, BK. The response of composite sandwich structures with polymeric foam cores to blast loading.
- Shivute, DN. The response of composite panels with metal fillers to blast loading.
2008
- Boachie-Yiadom, K. A. Deformation of thin-walled tubes using a Hopkinson bar.
- Boettiger, E. An experimental study of the post penetration behaviour of cylindroconical projectiles perforating 0.9mm steel plates.
- Chabalala, V. The effects of buried charges on the response of circular plates.
- Ebrahim, G. Investigate the effects of using honeycomb as filler on the energy absorption characteristics of tubular structures.
- Govender, D. Underwater explosion testing.
- Heyns, A. Sandwich panels subjected to blast loading: Aluminium honeycomb.
- Jardine, MT. Numerical simulation of the response of sandwich structures comprising of thin-walled tubes.
- Levitas, R. Layered steel plates subjected to blast loading.
- Modak, G. Influence of polystyrene on the response of plates to blast loading.
- Oxtoby, SR. Design, Build and Commissioning of an Intermediate Strain Rate Compression Test Rig.
- Parker, I. An investigation into the effects of a weld connection on the response of two circular tubes stacked in series.
- Pillay, S. Sandwich panels subjected to blast loading: Aluminium foam.
- Rowe, L. Steel based fibre metal laminates subjected to localised blast loading.
2007
- Bhagaloo, V. Investigation of the Crushing Characteristics of Two Linked Tubes with Different Cross-Sections.
- Bowden, A. Numerical Investigation of the Tensile Split Hopkinson Bar.
- De Wee, C. Influence of Confinement on the Blast Performance of Steel Plates.
- Downey, M. Design, Build and Commissioning of a Tensile Split Hopkinson Bar Apparatus.
- Francisco, L. Design, Build and Commissioning of a Sandbox for Simulating Landmine Detonations.
- Geretto, C. The Response of Confined Mild Steel Square Box to Blast Loading.
- Green, P. Design, Build and Commissioning of an Underwater Explosion Tank.
- Hiemstra, P. The Effect of the Geometry of Knee Joint on the Transmission of a Stress Wave.
- Leisegang, D. Material Characterisation of Composites at Low and High Strain Rates.
- Mayimele, N. Response of Sandwich Structures Made from Aluminium Foam Core to Blast Loading.
- Merrett, R. The Use of Aluminium Foam as Cladding to Blast Loading.
- Ngcobo, M. Effect of Explosive Charge Shape upon Structural Response.
- Pandelani, T. Design, Build and Commissioning of a Dynamic Shear Pin Testing Apparatus.
- Smith, P. The Effects of Honeycomb on Foot During Impact.
- Stander, M. Design, Build and Commissioning of a Mini Split Hopkinson Bar Apparatus.
- Swanepoel, D. Investigation of the Effects of the Connecting Link on the Crushing Characteristics of Two Linked Tubes.
- Thomas, L. Influence of Adhesive on the Blast Performance of Back-to-Back Steel Plates.
- Witbeen, HL. Investigation of the Energy Absorption Characteristics of Parallel-cells Comprising of Various Thin-Walled Tubes.
2006
- Bartle, S. Physical and computational model of the human foot with tendon subjected to a blast load.
- Bodlani, SB. The Energy Absorption and Collapse Characteristics of Square Tubes with Induced Circular Hole Discontinuities Subjected to Axial Impact Loads.
- Likando, RS. Quasi-static and Dynamic Crushing of Square Tubes, Scaling Investigation.
- Reid, WI. Investigation into the Mode of Collaspse of Two Linked Tubes Subjected to Axial Impact Loads.
- Ronchietto, FF. Investigation of Crushing Characteristics of Two Axially Stacked Square Tubes.
- Rossiter, IB. Response of Circular FML Panels to Blast Loading.
- Starke, RA. Energy Absorption Characteristics of Multi-cell Profiles.
- Timmis, R. Disrupting the Response of Structures to Blast Loading.
2005
- Ahrens, CI. Design and Fabrication of a Composite Cricket Bat.
- Chi, Y. Investigation of the Blast Response of Honeycomb Sandwich Panels.
- Cross, BA. Measurement of the Forces Transmitted Through a Cricket bat Handle.
- Dlamini, MN. Finite Element Analysis of Different Cricket Bat Designs.
- Eggers, AE. Influence of Stacking Arrangement on the Blast Resistance of CFML Panels.
- Leslie, JW. A lower limb impact situation.
- McBride, DCT. Finite element simulation and drop test comparison of a surrogate leg.
- Mekgwe, OJ. Numerical Investigation of the Behaviour and Response of Peripherally Clamped Centrally Supported Blast Loaded Circular Plates.
- North-Coombes, F. Physical and computational model of the human foot subjected to a blast load.
2004
- Bwalya, KD. The Response of Steel Plates to Repeated Blast Loads.
- Carmen, E. Experimental Tests on Animal Bones (University of Witswatersrand).
- Evezard, GM. Design, Build and Commission a High Speed Direct Shear Test Rig.
- Fenner, M. The Development of a FE model of the Human Hand (University of Witswatersrand).
- Katzeff, S. The Development of a FE model of the Human Knee Joint (University of Witswatersrand).
- Lin, CF. The Development of a FE model of the Human Foot (University of Witswatersrand).
- Mbete, SEL. An investigation of the Charge Stand-off Distance of a Structure Subjected to a Blast Load.
- Pitterman, M. Correlation Between an Artificial Leg and a FE Model.
- Pringle, H. The Correlation Between an Artificial Leg and a FE Model (University of Witswatersrand).
- San Giorgio, C. An Investigation of the Impact Resistance of Cricket Helmet.
- Taylor, HT. Design, Build and Commission an Instrumented Taylor Test Rig.
- Vara, A. Determination of Material Properties at Different Temperatures and Strain Rates.
- Versfeld, AM. Intermediate Strain Rate Tensile Testing Machine.
- Watermeyer, G. Design, Build and Commission a Tensile Split Hopkinson Bar.
2003
- Cox, RMT. Numerical Investigation of the Response of Peripherally Clamped Centrally Supported Blast Loaded Plates.
- Palmer, RN. Experimental Investigation of the Response of Peripherally Clamped Centrally Supported Blast Loaded Plates.
2002
- Ahmed, R. Design, Build and Test a Rig that can Measure the Reaction Force History at the Centre Support of a Circular Blast Loaded Plate.
- Gilbert, EU. Biaxial Split Hopkinson Bar.
- Hartley, RS. Characterizing Friction Effects in Split Hopkinson Pressure Bar Tests.
2001
- Aneck-Hahn, R.J. Hoist and construction for Graham Clarke.
- Chandramohan, R. The use of piezo electric sensors to measure load in a rotating mill.
- Desai, S. The effect of explosive radius on the response of quadrangular plates, of different thicknesses, subjected to localised central blast loads.
- Jacob, N. Investigate the effect of explosive radius on the response of square and rectangular plates of different thicknesses, subjected to localised blast loads.
- Tait, D. An investigation into the dynamic response of constant thickness quadrangular plates subjected to circular localised explosive loads.
2000
- Mafani, MC. Measuring the Impact Strength of Copper using the Direct Impact Hopkinson bar Technique.
- Martin, K. Improved cricket bat design.
1998
- Appollis, L. Investigate the effect of induced imperfections in tubular structured, in terms of their energy absorption characteristics.
- Milane, M. Vibration absorber.
- Ratshikuni, M. Development and testing of Taylor impact rig.
- Rogbeer, N. Measuring the specimen/target interface stress during A Taylor test target.
1997
- Chung Kim Yuen, S. The effect of plate thickness on localised blast loads.
- Cottrell, P. Multiple build-in plates subjected to localised blast loads.
- Davies, M. An investigation into procedures and results of drop testing of drill cutters.
- Lockley, J. Investigation of the optimum angle for a vehicle undercarriage for blast resistance.
- Rueckemesser, D. Model of dynamic impact of simple car bonnets using the finite element method.
- Wiehahn, M. Internal pressure blast wave effects.
1996
- Clogg, RC. An investigation into the post-penetrative energy and deflection of a projectile passing through a target.
- Grobbelaar, WP. Modelling of fragmentation damage.
- Mngadi, NTG. The investigation of plastic hinge lengths on impulsively loaded beams.
- Nannucci, PR. Model of dynamic buckling of thin walled cylindrical and square tubes as a vehicle energy absorber device using finite element analysis.
1995
- Bryant, MW. Fragmentation damage.
- Loumeau, MJJF. The effect of thickness of a plate subjected to impulsive loading.
- Maclay, DAG. The use of a sling-shot to measure the breaking resistance of ore.
- Magagula, MJ. The micro-structural phenomena of the elongation and tearing of plates subjected to central blast loads.
- Mallinson, DV. The effect of sandwich plates subjected to localised central blast loads.
- Miller, MJ. Asymmetric blast loading of a square/rectangular plate.
1994
- Desvaux de Marigny, FD. Impact response of welded plates.
- Eekhout, GG. Investigate the crushing and/or breaking resistance of ore using a slingshot.
- Lee-Chick, JKF. Investigate the tearing of sheet metal as it occurs in a tanker collision.
- Malebye, M. Investigate the side-impact energy-absorbing capabilities of a motor vehicle.
- Molyneux, AR. Investigate the response of non-rigid projectiles (ie. Soft projectiles) fired at rigid targets.
- Perry, MJ. The response of composite structures to localised impulsive loading.
- Saunders, TAJ. Investigate the microstructural phenomena of the tearing of plates when subjected to blast loads.
- van den Oever, N. Testing the impact response of a composite structure subjected to multiple impacts.
1992
- Campbell-Pitt, MB. Clamped stiffened plates subjected to impulsive loading.
- Farrow, GH. Model and test a composite structural panel.
- Levin, A. Fully built in stiffened plates subjected to impulsive loading.
- Marshall, NS. Investigate the boundary conditions of blast loaded plates.
- Radford, AM. Investigate the loading conditions of blast loaded plates.
- Shave, GC. Tearing of square plates subjected to impulsive loads.
- Warnes, AJ. The dynamic and static resistance of bread pans.
- Watson, NR. Energy absorber for vehicles in accidents.
- Wepener, SD. Effect of soft-soled shoes on impact loads at the artificial hip joint.