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    Numerical Simulation of Concrete Penetration with Euler and Lagrange Formulations

    New search for: H. Hansson

    A benchmark test series on concrete perforation was conducted with an instrumented spinning projectile with 152 mm diameter. Three tests were conducted with unreinforced concrete, with the approximate cube strength of 100 MPa. The concrete was tested with standard methods to obtain E-modulus, cube strength and splitting strength. The behavior of the concrete during tri-axial loading was tested with passive confinement of the concrete by a GREAC cell.

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    Numerical Simulation of Concrete Penetration with Euler and Lagrange Formulations

    New search for: H. Hansson

    A benchmark test series on concrete perforation was conducted with an instrumented spinning projectile with 152 mm diameter. Three tests were conducted with unreinforced concrete, with the approximate cube strength of 100 MPa. The concrete was tested with standard methods to obtain E-modulus, cube strength and splitting strength. The behavior of the concrete during tri-axial loading was tested with passive confinement of the concrete by a GREAC cell.

    Access

    Access via TIB
    Check availability in my library

    Numerical Simulation of Concrete Penetration with Euler and Lagrange Formulations

    New search for: H. Hansson

    A benchmark test series on concrete perforation was conducted with an instrumented spinning projectile with 152 mm diameter. Three tests were conducted with unreinforced concrete, with the approximate cube strength of 100 MPa. The concrete was tested with standard methods to obtain E-modulus, cube strength and splitting strength. The behavior of the concrete during tri-axial loading was tested with passive confinement of the concrete by a GREAC cell.

    Access

    Access via TIB
    Check availability in my library

    Access

    Access via TIB
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    Document information
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    Document information
    Title:

    Numerical Simulation of Concrete Penetration with Euler and Lagrange Formulations

    Contributors:

    H. Hansson (author)

    Publication date:

    2001

    Size:

    72 pages

    Type of media:

    Report

    Type of material:

    No indication

    Language:

    English

    Keywords:

    Detonations, Explosion Effects, & Ballistics , Penetration , Concrete , Projectiles , Numerical simulation , Standard methods , Parameters , Eulerian formation , Langrange formulations , Formulations , Compression tests , Tension tests , Benchmarks , Foreign technology

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