Year 2016

• Excavation induced cast iron pipeline failure – a numerical study

  Publication

  • K. Szarf
  • R. Ossowski

  - Inżynieria Morska i Geotechnika - Year 2016

  Numerical study on impact of an unsecured excavation on an underground pipeline. Analysis focused on investigation of pipeline displacement generated by soil movement caused by excavation and heavy traffic. Numerical calculations and soil parameter sensitivity analysis based on Finite Element Method. Some comparisons of results with real-life failure cases.

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• Impact of an unsecured excavation on an underground pipeline

  Publication

  • R. Ossowski
  • K. Szarf

  - Year 2016

  The paper presents a numerical analysis of the impact of an unsecured excavation on an underground pipeline in selected soil conditions. The research was inspired by a real-life failure of a water pipeline which was caused by a nearby unsecured excavation (Sikora et al. 2015). The failure was triggered by displacement of soil mass in the vicinity of the pipeline. The study conducted in the framework of Finite Element...

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Year 2014

• Particle Shape Effect on Macroscopic Behaviour of Underground Structures: Numerical and Experimental Study

  Publication

  • K. Szarf
  • G. Combe
  • P. Villard

  - Studia Geotechnica et Mechanica - Year 2014

  Abstract: The mechanical performance of underground flexible structures such as buried pipes or culverts made of plastics depend not only on the properties of the structure, but also on the material surrounding it. Flexible drains can deflect by 30% with the joints staying tight, or even invert. Large deformations of the structure are difficult to model in the framework of Finite Element Method, but straightforward in Discrete...

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Year 2013

• A benchmark for particle shape dependence

  Publication

  • G. Combe
  • C. Nouguier-Lehon
  • E. Azéma
  • K. Szarf
  • B. Saint-Cyr
  • M. Chaze
  • F. Radjaï
  • P. Villard
  • J. Delenne
  • V. Richefeu... and 3 others

  - Year 2013

  Particle shape is a major parameter for the space-filling and strength properties of granular materials. For a systematic investigation of shape effect, a numerical benchmark test was set up within a collaborative group using different numerical methods and particles of various shape characteristics such as elongation, angularity and nonconvexity. Extensive 2D shear simulations were performed in this framework and the shear strength...

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• Particle Shape Effect on Macroscopic Behaviour of Underground Structures: Numerical and Experimental Study

  Publication

  • K. Szarf
  • G. Combe
  • P. Villard

  - Year 2013

  The mechanical performance of underground flexible structures such as buried pipes or culverts made of plastics depend not only on the properties of the structure, but also the material surrounding it. Flexible drains can deflect by 30% with the joints staying tight, or even invert. Large deformations of the structure are difficult to model in the framework of Finite Element Method, but straightforward in Discrete Element Methods....

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Year 2012

• Particle shape dependence in 2D granular media

  Publication

  • C. Cegeo
  • B. Saint-Cyr
  • K. Szarf
  • C. Voivret
  • E. Azéma
  • V. Richefeu
  • J. Delenne
  • G. Combe
  • C. Nouguier-Lehon
  • P. Villard... and 3 others

  - EPL-EUROPHYS LETT - Year 2012

  Particle shape is a key to the space-filling and strength properties of granular matter. We consider a shape parameter eta describing the degree of distortion from a perfectly spherical shape. Encompassing most specific shape characteristics such as elongation, angularity and non-convexity, eta is a low-order but generic parameter that we used in a numerical benchmark test for a systematic investigation of shape dependence in sheared...

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Year 2011

• Polygons vs. clumps of discs: A numerical study of the influence of grain shape on the mechanical behaviour of granular materials

  Publication

  • K. Szarf
  • G. Combe
  • P. Villard

  - POWDER TECHNOLOGY - Year 2011

  We performed a series of numerical vertical compression tests on assemblies 01 20 granular material using a Discrete Element code and studied the results with regard to the grain shape. The samples consist of 5000 grains made from either 3 overlapping discs (clumps - grains with concavities) or six-edged polygons (convex grains). These two grain type have similar external envelope, which is a fund ion of a geometrical parameter...

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Year 2009

• Influence of grain shape on the mechanical behaviour of granular materials

  Publication

  • K. Szarf
  • G. Combe
  • P. Villard

  - Year 2009

  We performed series of numerical vertical compression tests on assemblies of 2D granular material using a Discrete Element code and studied the results in regard to the grain shape. The samples consist of 5000 grains made either of 3 overlapping discs (clump - grain with concavities) or of six-edged polygons (convex grain). These two types of grains have a similar external envelope, ruled with a geometrical parameter α. In the...

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• Influence of the grains shape on the mechanical behavior of granular materials

  Publication

  • K. Szarf
  • G. Combe
  • P. Villard

  - Year 2009

  Discrete Element Method is a numerical method suitable for modeling geotechnical problems concerning granular media. In most cases simple forms of grains, like discs or spheres, are used. But these shapes are capable of soil behavior modeling up to a certain point only, they cannot reflect all of the features of the medium (large shear resistance and large volumetric change). In order to reflect the complex behavior of the real...

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