2007
DOI: 10.1016/j.scriptamat.2007.07.043
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Gradient porosity and large pore size NiTi shape memory alloys

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Cited by 86 publications
(56 citation statements)
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“…Porosities from nearly dense up to more than 60% are reported [94], but the pore sizes are usually comparatively small ranging from 4 µm [103] to a not more than 100 µm (see Figure 3b[96]). To increase the pore size, Zhang and Li used temporary space holders [104][105][106]. A mixture of elemental powders (average particle size 61 µm for Nickel and 50 µm for Titanium) and ammonium acid carbonate powders (NH4HCO3, average particle size 250 µm, volume fractions ranging from 10 to 30%) was the starting point.…”
Section: Conventional Sinteringmentioning
confidence: 99%
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“…Porosities from nearly dense up to more than 60% are reported [94], but the pore sizes are usually comparatively small ranging from 4 µm [103] to a not more than 100 µm (see Figure 3b[96]). To increase the pore size, Zhang and Li used temporary space holders [104][105][106]. A mixture of elemental powders (average particle size 61 µm for Nickel and 50 µm for Titanium) and ammonium acid carbonate powders (NH4HCO3, average particle size 250 µm, volume fractions ranging from 10 to 30%) was the starting point.…”
Section: Conventional Sinteringmentioning
confidence: 99%
“…[128] and Bansiddhi and Dunont [100,129]. In this method, which is very similar to the approach described by Zhang, Xiong and Li [104][105][106] for conventional sintering, space-holders are added to elemental powder mixtures [128,130] or to pre-alloyed NiTi powder [100,129].…”
Section: Page 19mentioning
confidence: 99%
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“…Development of techniques for control of porous structure [7] opens new prospects for applications. In order to make the most efficient use of this promising material, correct methods of calculation should be applied.…”
Section: Introductionmentioning
confidence: 99%
“…Powder metallurgy techniques, on the other hand, provide the flexibility of low-temperature processing as well as close composition control, as well as mechanical and physical property modifications via adjustment of the processing parameters and characteristics of the powders used. Accordingly, various powder metallurgy methods, such as self-propagating high-temperature synthesis (SHS), [9][10][11][12][13][14] hot isostatic pressing (HIP), [2][3][4][5]15,16] conventional sintering, [4,[17][18][19][20] spark plasma sintering, [21] space holder technique, [6,7,[22][23][24] and metal injection molding (MIM) [25,26] were employed intensively to fabricate TiNi foams. However, incomplete diffusion when elemental powders were used and contamination during processing even when prealloyed powders were used by these methods led to formation of secondary intermetallics (Ti 2 Ni, TiNi 3 , and Ti 3 Ni 4 ) and oxides (Ti 4 Ni 2 O) or carbonitrides, all of which deteriorate the shape memory and superelasticity characteristics.…”
Section: Introductionmentioning
confidence: 99%