Influence of Powder Size on Production Parameters and Properties of Syntactic Invar Foams Produced by Means of Metal Powder Injection Moulding

Weise, Jörg; Salk, Natalie; Jehring, Ulrike; Baumeister, Joachim; Lehmhus, Dirk; Bayoumi, Mohamed A.

doi:10.1002/adem.201200129

Cited by 33 publications

(37 citation statements)

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“…For the latter, liquid metal processes have recently been reported, but usually powder metallurgy (PM) techniques are employed to limit processing temperatures. As porosity‐inducing particles, glass microspheres or ceramic macro‐ and microspheres are used . A special variant are all‐steel syntactic foams based on metallic hollow spheres and produced powder metallurgically, too.…”

Section: Introductionmentioning

confidence: 82%

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Production and Properties of 316L Stainless Steel Cellular Materials and Syntactic Foams

Weise

Lehmhus

Baumeister

et al. 2013

steel research int.

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Section: Introductionmentioning

confidence: 82%

“…Experimental procedures closely follow the approach previously laid down by Weise et al, though with adapted process parameters reflecting the requirements of the new matrix. 5 µm 316L‐powder acquired from Sandvik Osprey was mixed with 50 vol% binder in a 400 mL Brabender mixer at 120°C.…”

Section: Methodsmentioning

confidence: 99%

Production and Properties of 316L Stainless Steel Cellular Materials and Syntactic Foams

Weise

Lehmhus

Baumeister

et al. 2013

steel research int.

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“…In particular, the strain-rate sensitivity response at three different strain rate levels was studied by taking into account the influence of type and volume fraction of glass spheres. The materials' behaviour was found to be very similar to that of the metal matrix [2,[6][7][8]. Castro and Nutt produced steel based MMSFs, filled with ceramic hollow spheres by gravity fed and mechanical pressure infiltration.…”

Section: Introductionmentioning

confidence: 85%

“…MMSFs were developed for lightweight structures, requiring high strength and energy absorbing capacity [1]. The matrix material is usually an aluminium alloy (light and low cost), but nowadays high strength iron based matrices are also investigated [2][3][4][5][6][7][8][9][10][11]. As filler material, commercially available mixed-oxide ceramic [12][13][14][15], metallic [12] or SiC [16,17] hollow spheres are frequently applied, however Taherishargh et al have been made efforts for the application of low cost perlite filler as well [18][19][20].…”

Section: Introductionmentioning

confidence: 99%

Compressive behaviour of aluminium matrix syntactic foams reinforced by iron hollow spheres

et al. 2015

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HighlightsLow pressure infiltration is suitable to produce MMSFs with hollow iron spheres.The MMSFs showed plastic yielding and long, slowly ascending plateau region.The matrix and the heat treatment strongly influence the properties of the MMSFs.The full-scale FEM model gives excellent agreement compared to the measured values. Highlights (for review) *Manuscript Click here to view linked References AbstractAluminium alloy syntactic foams reinforced with iron hollow spheres were produced by low pressure, liquid phase inert gas infiltration technique. Four Al alloys (Al99.5, AlSi12, AlMgSi1 and AlCu5) and Globomet grade iron hollow spheres were used as matrix and reinforcing material, respectively. The produced composite blocks were characterised according to the ruling standard for compression of cellular materials in order to ensure full comparability. The compressive test results showed plastic yielding and a long, slowly ascending plateau region that ensures large energy absorption capability. The proper selection of the matrix material and the applied heat treatment allows for a wide range of tailoring of the mechanical properties. For design purposes, the full-scale finite element method (FEM) model of the investigated foams was created and tested on Al99.5 matrix foams. The FEM results showed very good agreement with the measured values (typically within 5% in the characteristic properties and within 10% for the whole compression curve).

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“…11) [64,65]. It was found that the compression stress-strain curve has a pronounced plateau regime; the plateau stress and plateau length depend on the added amount of glass hollow spheres.…”

Section: Powders With Placeholdersmentioning

confidence: 98%

Metallic Foams

Baumeister

Weise

2012

Ullmann's Encyclopedia of Industrial Chemistry

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There are numerous processes for making metallic foams or similar highly porous metallic structures. The various processes can be classified into those starting from metallic melts, those starting from powdered metals, and those using deposition techniques. Most methods work for a specific range of metals and alloys and result in a typical foam structure with closed cells or open, interconnected cells. The most important manufacturing methods and a number of established industrial applications are presented. The article contains sections titled: 1. Introduction 2. Production 2.1. Production from Metallic Melts 2.2. Production from Metal Powders 2.3. Production by Deposition Techniques 3. Toxicology and Occupational Health 4. Applications and Outlook

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Influence of Powder Size on Production Parameters and Properties of Syntactic Invar Foams Produced by Means of Metal Powder Injection Moulding

Cited by 33 publications

References 1 publication

Production and Properties of 316L Stainless Steel Cellular Materials and Syntactic Foams

Production and Properties of 316L Stainless Steel Cellular Materials and Syntactic Foams

Compressive behaviour of aluminium matrix syntactic foams reinforced by iron hollow spheres

Metallic Foams

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