Showing total 2 results

1. A block Newton’s method for computing invariant pairs of nonlinear matrix pencils.

Author

Demyanko, Kirill V. and Nechepurenko, Yuri M.

Subjects

*NUMERICAL analysis, *MATHEMATICAL analysis, *ALGORITHMS, *COMPUTER simulation, *MATHEMATICAL models

Abstract

The block inverse iteration and block Newton’s methods proposed by the authors of this paper for computing invariant pairs of regular linear matrix pencils are generalized to the case of regular nonlinear matrix pencils. Numerical properties of the proposed methods are demonstrated with a typical quadratic eigenproblem. [ABSTRACT FROM AUTHOR]

Published

2018

2. Discrete Element Modeling of Drop Tests.

Author

Wang, Yuannian and Tonon, Fulvio

Subjects

*IMPACT testing of metals, *MATHEMATICAL models, *COMPUTER simulation, *ALGORITHMS, *ROCK analysis, *MATHEMATICAL analysis, *NUMERICAL analysis

Abstract

A discrete element code with impact model has been developed and calibrated to simulate the dynamic behavior of rock materials, with special regard to rock fragmentation upon impact during rock-fall analysis. The paper summarizes the discrete element code, the calibration algorithms developed to identify the model microparameters, and the impact model. Experimental work on drop tests is then used to validate the code on modeling impact fragmentation. It has been found that the developed discrete element code and impact model can reasonably simulate rock fragmentation in drop tests. The use of the discrete element code and impact model can provide good reference results in evaluating impact fragmentation in rock-fall analysis. [ABSTRACT FROM AUTHOR]

Published

2012