+44 (0)1509 263171
Please use this identifier to cite or link to this item:
|Title: ||Additive manufactured textiles for high-performance stab resistant applications|
|Authors: ||Johnson, Andrew|
Bingham, Guy A.
|Keywords: ||Laser sintering|
Home Office scientific development branch
|Issue Date: ||2011|
|Publisher: ||© 12th Conference on Rapid Design, Prototyping & Manufacturing|
|Citation: ||JOHNSON, A., BINGHAM, G.A. and WIMPENNY, D.I., 2011. Additive manufactured textiles for high-performance stab resistant applications. IN: RDPM 2011 - 12th Rapid Design, Prototyping & Manufacturing Conference (RDPM 12), Lancaster University, 17 June 2011.|
|Abstract: ||A series of nanocrystalline copper metallised and non-metallised Laser Sintered (LS) Nylon (PA2200) samples using the EOS P100 Formiga system, were stab tested to current Home Office Scientific Development Branch (HOSDB) Knife Resistance (KR) 2007 standards, to ascertain their stab resistant characteristics. The research demonstrated that while a sample thickness of 8mm virgin PA2200 was required for a successful stab test, this figure was significantly reduced to 5.6mm using a 50:50 mix of virgin and recycled PA2200. A further significant reduction in sample thickness to 4.5mm was also recorded for samples manufactured from virgin PA2200, metallised in a 150μm layer of nanocrystalline copper.
The results of the stab testing series were then utilised to develop a non-metallised, scale Additive Manufactured (AM) textile manufactured from a 50:50 recycled and virgin PA2200 mix. Results indicated a successful AM textile-like design, with little or no penetration during stab testing at the HOSDB KR1 standard.|
|Description: ||This is a conference paper. It was awarded 'Best Written Student Paper' at RDPM 2011, June 17 2011, Lancaster University. The Conference Proceedings are published in print format.
|Version: ||Accepted for publication|
|Appears in Collections:||Conference Papers and Contributions (Design School)|
Files associated with this item:
Items in DSpace are protected by copyright, with all rights reserved, unless otherwise indicated.