investigating the structures of paramagnetic aggregates

Glenn Research Center Investigating the Structures of Paramagnetic Aggregates from Colloidal Emulsions-2, -3 (InSPACE-2, -3) Objective: ¨ Visually study the gelation transition in magneto-rheological (MR) fluids under steady and pulsed magnetic fields. ¨ InSPACE-2 continued the InSPACE-1 studies to determine the lowest energy configurations of the three dimensional structures of a MR fluid in a pulsed magnetic field. ¨ InSPACE-3 will study the effect of particle shape on the kinetics of aggregation and structures formed by pulsed magnetic fields in suspensions of superparamagnetic particles. Accommodation (carrier) Microgravity Science Glovebox Upmass (kg) (w/o packing factor) 3.57 (InSPACE-2) TBD (InSPACE-3) Volume (m 3 ) (w/o packing factor) 0.011 (InSPACE-2) TBD (InSPACE-3) Power (kw) (peak) 0.030 Crew Time (hrs) (installation/operations) 14 (~2.5hr./sample) Launch/Increment 10A/20A - Middeck w/L-48hrs. late stowage Project Life Cycle Schedule Milestones SCR RDR CDR Safety Bench Review PSR/SAR FHA Launch Ops Return Final Report InSPACE-2 3/14/2007 9/12/2007 8/24/2007 10/11/2007 10/13/2007 Inc.17/18/19 2008 2009 InSPACE-3 1/09 5/10 7/10 6/10 6/10 7/10 Inc 22-24 TBD TBD Documentation Website: http://spaceflightsystems.grc.nasa.gov/Advan ced/ISSResearch/MSG/InSPACE/ eRoom: In-SPACE SRD: completed EDMP: preflight for In-SPACE-2 Project Plan: draft in eroom SEMP: ?? ISS Resource Requirements Revision Date: 2/2010 PI: Professor Eric Furst, University of Delaware PS: Dr. Juan Agui, NASA GRC (InSPACE-2) PS: Dr. Robert Green, NASA GRC (InSPACE-3) PM: Nancy Hall, NASA GRC Engineering Team: ZIN Technologies InSPACE in MSG Knob for Crew Handling Vial Assembly Coil Assembly Relevance/Impact: ¨ MR fluids are a class of smart materials capable of changing visco-elastic properties. Microgravity data of the internal particle structure and dynamics will provide an assessment of the viscous-elastic properties of these fluids. The results may improve limb and dextrous motion in robotic components and human-robotic interfaces for EVA suits. Development Approach: ¨ Using the hardware from InSPACE-1 already on ISS, InSPACE-2 will visually study new samples to meet the above objectives. An improved cell design will be used for imaging of the resulting aggregate structures. The new cells are dimensionally very thin in one direction reducing the optical thickness, hence providing enhanced viewing. A new coil is also provided that allows the substitution of multiple samples in two orthogonal orientations for alternate views. ¨ InSPACE-2 hardware consists of 1 primary Coil Assembly and 1 backup Coil Assembly, 4 vial assemblies and 4 backups. ¨ InSPACE-3 hardware will consist of 3 modified vial assemblies, 3 backup vial assemblies utilizing 3 different MR fluids.

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Page 1: Investigating the Structures of Paramagnetic Aggregates

Glenn Research Center

Investigating the Structures of Paramagnetic Aggregates from Colloidal Emulsions-2, -3 (InSPACE-2, -3)

Objective:¨ Visually study the gelation transition in magneto-rheological (MR) fluids

under steady and pulsed magnetic fields.¨ InSPACE-2 continued the InSPACE-1 studies to determine the lowest

energy configurations of the three dimensional structures of a MR fluid in a pulsed magnetic field.

¨ InSPACE-3 will study the effect of particle shape on the kinetics of aggregation and structures formed by pulsed magnetic fields in suspensions of superparamagnetic particles.

Accommodation (carrier) Microgravity Science Glovebox

Upmass (kg)(w/o packing factor)

3.57 (InSPACE-2)TBD (InSPACE-3)

Volume (m3)(w/o packing factor)

0.011 (InSPACE-2)TBD (InSPACE-3)

Power (kw)(peak)

0.030

Crew Time (hrs)(installation/operations)

14 (~2.5hr./sample)

Launch/Increment 10A/20A - Middeck w/L-48hrs. late stowage

Project Life Cycle ScheduleMilestones SCR RDR CDR Safety Bench Review PSR/SAR FHA Launch Ops Return Final Report

InSPACE-2 3/14/2007 9/12/2007 8/24/2007 10/11/2007 10/13/2007 Inc.17/18/19 2008 2009

InSPACE-3 1/09 5/10 7/10 6/10 6/10 7/10 Inc 22-24 TBD TBD

Documentation Website: http://spaceflightsystems.grc.nasa.gov/Advanced/ISSResearch/MSG/InSPACE/eRoom: In-SPACE

SRD: completedEDMP: preflight for In-SPACE-2

Project Plan: draft in eroomSEMP: ??

ISS Resource Requirements

Revision Date: 2/2010

PI: Professor Eric Furst, University of DelawarePS: Dr. Juan Agui, NASA GRC (InSPACE-2)PS: Dr. Robert Green, NASA GRC (InSPACE-3)PM: Nancy Hall, NASA GRCEngineering Team: ZIN Technologies

InSPACE in MSGKnob forCrew

Handling

Vial Assembly Coil Assembly

Relevance/Impact:¨ MR fluids are a class of smart materials capable of changing visco-elastic properties.

Microgravity data of the internal particle structure and dynamics will provide an assessment of the viscous-elastic properties of these fluids. The results may improve limb and dextrous motion in robotic components and human-robotic interfaces for EVA suits.

Development Approach:¨ Using the hardware from InSPACE-1 already on ISS, InSPACE-2 will visually study new

samples to meet the above objectives. An improved cell design will be used for imaging of the resulting aggregate structures. The new cells are dimensionally very thin in one direction reducing the optical thickness, hence providing enhanced viewing. A new coil is also provided that allows the substitution of multiple samples in two orthogonal orientations for alternate views.

¨ InSPACE-2 hardware consists of 1 primary Coil Assembly and 1 backup Coil Assembly, 4 vial assemblies and 4 backups.

¨ InSPACE-3 hardware will consist of 3 modified vial assemblies, 3 backup vial assemblies utilizing 3 different MR fluids.

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