Chris Manford scite author profile

Chris Manford

5Publications

59Citation Statements Received

48Citation Statements Given

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Unitec Institute of Technology

Publications

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Performance Characteristics of Electro–chemically Driven Polyacrylonitrile Fiber Bundle Actuators

Choe

Kim²,

Manford³

et al. 2006

Journal of Intelligent Material Systems and Structures

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Polyacrylonitrile (PAN) gel is known for its large volume change when subjected to environmental stimuli. In particular, PAN fiber contracts when exposed to a low pH environment and expands when exposed to a high pH environment. Due to this phenomenon, PAN fibers can create effective actuation forces and displacements through muscle-like contractile behavior during the volume change. An alternative way to manage contraction/elongation is to generate a local pH gradient, which can be achieved through an electrochemical cell and is more convenient than using a pH changing solution. The main objective of this study is to investigate the chemo-mechanical (i.e., pH response) and electro-chemo-mechanical behavior of PAN bundle actuators in order to characterize the performance capability of PAN fiber gel as an effective soft actuator for new engineering applications. In order to do this, the shrinking and swelling properties of PAN gel fiber bundles under the influence of various stimuli, such as pH difference and electric field, are investigated and characterized, while a capability map has been suggested and compared with other conventional actuators. Pre-oxidized PAN fibers are annealed for 5 h at 220 C and then placed in a bundle configuration. Fibers of 30 strands, 150 mm in length, are bound as a soft actuator, with a ring gripper epoxied to each end of the bundle. After significant efforts were made to properly address the corrosive behavior of the electrode, performance characteristics of PAN actuators have been experimentally obtained and compared to other conventional actuator technologies. It was found that the actuation stress of PAN bundle actuators is in the range of a moving coil transducer, and the actuation strain is also better than a solenoid, as well as similar to natural muscle. The power, density, and frequency of a PAN actuator are within the range of other polymer gel actuators. The obtained maximum actuation stress and linear actuation strain are generally in the range of 2 Â 10 À3 -1Â10 0 MPa and 20-100% for both chemically induced and electro-chemically induced PAN bundle actuators, respectively. Finally, suggestions for the practical application ranges of PAN actuation systems are given.

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Designing games to educate diabetic children

Chen

Baghaei

Sarrafzadeh

et al. 2011

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Weather as Medium: Art and Meteorological Science

Randerson

Salmond

Manford³

2015

Leonardo

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The recent artworks Albedo of Clouds and Neighbourhood Air adopt weather as primary material for sensory experiences. The art installations included the contributions of scientists, programmers, instrument technicians, social online networks and the vagaries of the weather itself. The projects suggest that creative engagement with meteorological science can activate eco-political “networks” in Latour’s sense, productive of knowledge and potentially transformative. In such “meteorological art,” digital networks not only distribute facts about atmospheric data; they also generate affective forms. Multi-directional flows between weather instrumentation, digital data, media art and meteorological science are enacted in the pursuit of a creative outcome.

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UDP Performance Comparison of IPv4 and IPv6 using Windows Vista-Server2008 and Windows XP-Server2008 LANs

Manford¹,

Kolahi²,

Soorty³

et al. 2010

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UDP Performance Analysis of IPv4 and IPv6 on Windows Vista and Windows XP over Fast Ethernet Peer-Peer LAN

Manford

Kolahi

Soorty

et al. 2009

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Chris Manford

Performance Characteristics of Electro–chemically Driven Polyacrylonitrile Fiber Bundle Actuators

Designing games to educate diabetic children

Weather as Medium: Art and Meteorological Science

UDP Performance Comparison of IPv4 and IPv6 using Windows Vista-Server2008 and Windows XP-Server2008 LANs

UDP Performance Analysis of IPv4 and IPv6 on Windows Vista and Windows XP over Fast Ethernet Peer-Peer LAN

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