271
search result(s)
for
''.
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Metal foam
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Porosity: 96%; Average pore size: 1.2 mm; Foam type: Open cell.
Polymer precursor - 4.3%. Cells take on whatever characteristics the polymer foam had.
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Metal foam
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Porosity: 92.4%; Average pore size: 1.2 mm; Foam type: Open cell.
Polymer precursor - 7.6%. Cells take on whatever characteristics the polymer foam had.
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Metal foam
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Porosity: 90.1%; Average pore size: 1.2 mm; Foam type: Open cell.
Polymer precursor - 9.9%. Cells take on whatever characteristics the polymer foam had.
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Metal foam
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Porosity: 61.1%; Average pore size: 3.7 mm; Foam type: Closed cell.
PM/HS composite - 3.7 mm, LC. Powder metallurgical region may be foamed or a semi-solid matrix.
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Metal foam
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Porosity: 67.6%; Average pore size: 1.4 mm; Foam type: Closed cell.
PM/HS composite - 1.4 mm, LC. Powder metallurgical region may be foamed or a semi-solid matrix.
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Metal foam
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Porosity: 96%; Average pore size: 1.7 mm; Foam type: Closed cell.
Sintered HS - 2 mm porous. Two different cell voids: interior of the spheres, and spaces between spheres.
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Metal foam
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Porosity: 76.4%; Average pore size: 1.5 mm; Foam type: Closed cell.
Powder metallurgy. Pores have irregular shape.
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Metal foam
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Porosity: 74.9%; Average pore size: 2.8 mm; Foam type: Open cell.
Infiltration casting of salt dough. The geometry is based on the salt dough pores shape.
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Metal foam
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Porosity: 72.8%; Average pore size: 2.8 mm; Foam type: Open cell.
Infiltration casting of salt dough. The geometry is based on the salt dough pores shape.
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Metal foam
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Porosity: 68.7%; Average pore size: 2.8 mm; Foam type: Open cell.
Infiltration casting of salt dough. The geometry is based on the salt dough pores shape.
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Metal foam
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Porosity: 67.5%; Average pore size: 2.8 mm; Foam type: Open cell.
Infiltration casting of salt dough. The geometry is based on the salt dough pores shape.
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Metal foam
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Porosity: 73.7%; Average pore size: 2.8 mm; Foam type: Open cell.
Infiltration casting of salt dough. The geometry is based on the salt dough pores shape.
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Metal foam
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Porosity: 73%; Average pore size: 2.8 mm; Foam type: Open cell.
Infiltration casting of salt dough. The geometry is based on the salt dough pores shape.
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Metal foam
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Porosity: 72%; Average pore size: 2.5 mm; Foam type: Closed cell.
Melt foaming method. Aluminum matrix with 4.0 wt% of manganese addition. The pore structures are.
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Metal foam
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Porosity: 54%; Average pore size: 1 mm; Foam type: Closed cell.
Melt foaming method (TiH2 as blowing agents). Aluminium - Silicon alloy matrix with irregular pores.
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Metal foam
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Porosity: 63%; Average pore size: 1 mm; Foam type: Closed cell.
Melt foaming method (TiH2 as blowing agents). Aluminium - Silicon alloy matrix with irregular pores.
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Metal foam
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Porosity: 74%; Average pore size: 1.2 mm; Foam type: Closed cell.
Melt foaming method (TiH2 as blowing agents). Aluminium - Silicon alloy matrix with irregular pores.
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Metal foam
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Porosity: 70.4%; Average pore size: 2 mm; Foam type: Open cell.
Infiltration process. Aluminium - Silicon alloy matrix with SiC particles addition (4%vol.). Irregular pores, with NaCl particles size.
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Metal foam
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Porosity: 67.5%; Average pore size: 2 mm; Foam type: Open cell.
Infiltration process. Aluminium - Silicon alloy matrix with SiC particles addition (4%vol.). Irregular pores, with NaCl particles size.
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Metal foam
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Porosity: 60.6%; Average pore size: 2 mm; Foam type: Open cell.
Infiltration process. Aluminium - Silicon alloy matrix with SiC particles addition (4%vol.). Irregular pores, with NaCl particles size.
