Support

Support Options

Submit a Support Ticket

 
Home Members Marisol Koslowski

Usage

Usage is calculated on the last day of every month. For more information on usage data, visit the Usage Overview page.

Table 1: Overview
Item Value
Contributions: 13
Total Simulation Users Served: 716
Total "and more" Users Served: 724
Rank by Contributions: 92 / 1680
First Contribution: 10 Sep 2007
Last Contribution: 16 Sep 2015
Citations on Contributions: -
Usage in Courses/Classrooms: 49 users served in 8 courses from 3 institutions
Table 2: Simulation Tool Usage
# Tool Name Users served in last 12 months Simulation Runs in last 12 months Total users served Total Simulation Runs Citations Published On
1 Virtual Fracture Propagation Laboratory 10 28 10 28 - 16 Sep 2015
2 2D cluster analysis 15 21 15 21 - 06 Aug 2015
3 Creep deformation in RF-MEMS 16 35 21 55 - 21 Jan 2015
4 NanoPlasticity Lab 70 1,295 266 5,730 - 06 Feb 2014
5 Nanoindentation close to an interface 5 7 55 198 - 06 May 2011
6 Micro-Mechanics Simulation Tool: Thin film 13 19 104 410 - 06 Jul 2009
7 Micromechanics Simulation Tool 15 27 328 1,501 - 10 Sep 2007
TOTAL 129 1,432 716 7,943
Table 3: "and more" Usage
# Resource Title Users served in last 12 months Total users served Citations Published On
1 Plastic Deformation at the Nanoscale Online Presentations 29 29 - 11 Sep 2015
2 Rate-Limited Deformation Mechanisms in Nanocrystalline Metals Online Presentations 24 24 - 08 Apr 2015
3 Reproducing results from "PUQ: a code for non-intrusive uncertainty propagation in computer simulations" Papers 26 26 - 27 Mar 2015
4 nanoHUB Materials Simulation Homework: Engineering the Yield Stress of a Material Teaching Materials 39 41 - 26 Feb 2015
5 ME 597A Lecture 12: Uncertainty Propagation in a Multiscale Model of Nanocrystalline Plasticity Online Presentations 12 87 - 01 Feb 2011
6 Plastic Deformation at Micron and Submicron Scales Online Presentations 13 536 - 28 Nov 2007
TOTAL 136 724

* Total only includes versions of the tools this author contributed to.

nanoHUB.org, a resource for nanoscience and nanotechnology, is supported by the National Science Foundation and other funding agencies. Any opinions, findings, and conclusions or recommendations expressed in this material are those of the author(s) and do not necessarily reflect the views of the National Science Foundation.