000	02091cam  2200373zi 4500
001	9.875832
003	CaOODSP
005	20221107164541
006	m     o  d f
007	cr |n|||||||||
008	190703t20182018onc    #ob   f000 0 eng d
040	|aCaOODSP|beng|erda|cCaOODSP
041	|aeng|bfre
043	|an-cn---
086	1 |aD68-2/128-2017E-PDF
100	1 |aUnderhill, Royale S., |eauthor.
245	10|aAuxetic materials : |bproject final report / |cRoyale S. Underhill.
264	1|a[Dartmouth, NS] : |bDefence Research and Development Canada = Recherche et développement pour la défense Canada, |c2018.
264	4|c©2018
300	|a1 online resource (25 pages) : |bfigures.
336	|atext|btxt|2rdacontent
337	|acomputer|bc|2rdamedia
338	|aonline resource|bcr|2rdacarrier
490	1 |aScientific report ; |vDRDC-RDDC-2017-R128
500	|aCover title.
500	|a"Can unclassified."
500	|a"March 2018."
504	|aIncludes bibliographical references, pages 23-25.
520	|a"The Canadian Army’s Soldier System 2030 plan will take advantage of advancements in technologies and materials to provide the most effective equipment to the dismounted soldier. This includes lightweight armour with improved performance. It has been postulated in the literature that negative Poisson’s ratio, auxetic materials may find application in an armour system, providing impact protection or behind armour blunt trauma mitigation. During the past four years, Defence Research and Development Canada (DRDC) has been exploring as a proof-of-concept, the physical properties of regular open cell polyurethane foams, compressed to form re-entrant structures"--Abstract.
546	|aIncludes abstract in French.
692	07|2gccst|aMilitary technology
710	2 |aDefence R&D Canada. |bAtlantic Research Centre.
830	#0|aScientific report (Defence R&D Canada)|vDRDC-RDDC-2017-R128.|w(CaOODSP)9.802305
856	40|qPDF|s41.90 MB|uhttps://publications.gc.ca/collections/collection_2019/rddc-drdc/D68-2-128-2017-eng.pdf