Selective Laser Sintering: A strategy for manufacturing complicated-structured ceramic foams using fly ash hollow spheres - Couverture souple
Synopsis
Selective laser sintering (SLS), known as one of the powder-based Additive Manufacturing technologies developed in 1980s, has unique advantages in building porous ceramics with high geometry complexity. This accomplished study provides a strategy to prepare mullite foams with controlled pore structures and low thermal conductivity by SLS using fly ash hollow sphere (FAHS) as raw materials. The major superiority of using FAHSs as raw materials to prepare ceramic foams can be listed as follow:(i) their particle size and distribution can be well adjusted before use, which can control the pore size and porosity of ceramic objects; (ii) their shell walls can act as skeletons, which might potentially improve mechanical properties of mullite foams;(iii) they are ultra-low cost, and the recycling of such solid waste can help solve pollution problem caused by FAHSs.The subject has a considerable practical interest because SLS is an emerging technology for manufacturing complex-shaped porous ceramic objects with great added value, and it also brings new sights into the advanced utilization of FAHS solid waste.
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Selective Laser Sintering
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LAP LAMBERT Academic Publishing, 2020
ISBN 10 : 6200530351
ISBN 13 : 9786200530356
Neuf
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Selective Laser Sintering A strategy for manufacturing complicatedstructured ceramic foams using fly ash hollow spheres
Edité par
LAP Lambert Academic Publishing, 2020
ISBN 10 : 6200530351
ISBN 13 : 9786200530356
Neuf
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Selective Laser Sintering: A strategy for manufacturing complicated-structured ceramic foams using fly ash hollow spheres
Edité par
LAP LAMBERT Academic Publishing, 2020
ISBN 10 : 6200530351
ISBN 13 : 9786200530356
Neuf
Couverture souple
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Selective Laser Sintering
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LAP Lambert Academic Publishing 2020-01, 2020
ISBN 10 : 6200530351
ISBN 13 : 9786200530356
Neuf
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Selective Laser Sintering
Edité par
LAP LAMBERT Academic Publishing Jan 2020, 2020
ISBN 10 : 6200530351
ISBN 13 : 9786200530356
Neuf
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Taschenbuch. Etat : Neu. This item is printed on demand - it takes 3-4 days longer - Neuware -Selective laser sintering (SLS), known as one of the powder-based Additive Manufacturing technologies developed in 1980s, has unique advantages in building porous ceramics with high geometry complexity. This accomplished study provides a strategy to prepare mullite foams with controlled pore structures and low thermal conductivity by SLS using fly ash hollow sphere (FAHS) as raw materials. The major superiority of using FAHSs as raw materials to prepare ceramic foams can be listed as follow:(i) their particle size and distribution can be well adjusted before use, which can control the pore size and porosity of ceramic objects; (ii) their shell walls can act as skeletons, which might potentially improve mechanical properties of mullite foams;(iii) they are ultra-low cost, and the recycling of such solid waste can help solve pollution problem caused by FAHSs.The subject has a considerable practical interest because SLS is an emerging technology for manufacturing complex-shaped porous ceramic objects with great added value, and it also brings new sights into the advanced utilization of FAHS solid waste. 76 pp. Englisch. N° de réf. du vendeur 9786200530356
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Selective Laser Sintering
Edité par
LAP LAMBERT Academic Publishing Jan 2020, 2020
ISBN 10 : 6200530351
ISBN 13 : 9786200530356
Neuf
Taschenbuch
Vendeur : buchversandmimpf2000, Emtmannsberg, BAYE, Allemagne
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Taschenbuch. Etat : Neu. This item is printed on demand - Print on Demand Titel. Neuware -Selective laser sintering (SLS), known as one of the powder-based Additive Manufacturing technologies developed in 1980s, has unique advantages in building porous ceramics with high geometry complexity. This accomplished study provides a strategy to prepare mullite foams with controlled pore structures and low thermal conductivity by SLS using fly ash hollow sphere (FAHS) as raw materials. The major superiority of using FAHSs as raw materials to prepare ceramic foams can be listed as follow:(i) their particle size and distribution can be well adjusted before use, which can control the pore size and porosity of ceramic objects; (ii) their shell walls can act as skeletons, which might potentially improve mechanical properties of mullite foams;(iii) they are ultra-low cost, and the recycling of such solid waste can help solve pollution problem caused by FAHSs.The subject has a considerable practical interest because SLS is an emerging technology for manufacturing complex-shaped porous ceramic objects with great added value, and it also brings new sights into the advanced utilization of FAHS solid waste.VDM Verlag, Dudweiler Landstraße 99, 66123 Saarbrücken 76 pp. Englisch. N° de réf. du vendeur 9786200530356
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Selective Laser Sintering : A strategy for manufacturing complicated-structured ceramic foams using fly ash hollow spheres
Edité par
LAP LAMBERT Academic Publishing, 2020
ISBN 10 : 6200530351
ISBN 13 : 9786200530356
Neuf
Taschenbuch
Vendeur : AHA-BUCH GmbH, Einbeck, Allemagne
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Taschenbuch. Etat : Neu. nach der Bestellung gedruckt Neuware - Printed after ordering - Selective laser sintering (SLS), known as one of the powder-based Additive Manufacturing technologies developed in 1980s, has unique advantages in building porous ceramics with high geometry complexity. This accomplished study provides a strategy to prepare mullite foams with controlled pore structures and low thermal conductivity by SLS using fly ash hollow sphere (FAHS) as raw materials. The major superiority of using FAHSs as raw materials to prepare ceramic foams can be listed as follow:(i) their particle size and distribution can be well adjusted before use, which can control the pore size and porosity of ceramic objects; (ii) their shell walls can act as skeletons, which might potentially improve mechanical properties of mullite foams;(iii) they are ultra-low cost, and the recycling of such solid waste can help solve pollution problem caused by FAHSs.The subject has a considerable practical interest because SLS is an emerging technology for manufacturing complex-shaped porous ceramic objects with great added value, and it also brings new sights into the advanced utilization of FAHS solid waste. N° de réf. du vendeur 9786200530356
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Selective Laser Sintering | A strategy for manufacturing complicated-structured ceramic foams using fly ash hollow spheres
Edité par
LAP LAMBERT Academic Publishing, 2020
ISBN 10 : 6200530351
ISBN 13 : 9786200530356
Neuf
Taschenbuch
Vendeur : preigu, Osnabrück, Allemagne
Évaluation du vendeur 5 sur 5 étoiles
Taschenbuch. Etat : Neu. Selective Laser Sintering | A strategy for manufacturing complicated-structured ceramic foams using fly ash hollow spheres | An-Nan Chen | Taschenbuch | 76 S. | Englisch | 2020 | LAP LAMBERT Academic Publishing | EAN 9786200530356 | Verantwortliche Person für die EU: preigu GmbH & Co. KG, Lengericher Landstr. 19, 49078 Osnabrück, mail[at]preigu[dot]de | Anbieter: preigu. N° de réf. du vendeur 117948669
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Selective Laser Sintering : A strategy for manufacturing complicated-structured ceramic foams using fly ash hollow spheres
Edité par
LAP LAMBERT Academic Publishing, 2020
ISBN 10 : 6200530351
ISBN 13 : 9786200530356
Ancien ou d'occasion
Couverture souple
Vendeur : Buchpark, Trebbin, Allemagne
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Etat : Sehr gut. Zustand: Sehr gut | Sprache: Englisch | Produktart: Bücher | Selective laser sintering (SLS), known as one of the powder-based Additive Manufacturing technologies developed in 1980s, has unique advantages in building porous ceramics with high geometry complexity. This accomplished study provides a strategy to prepare mullite foams with controlled pore structures and low thermal conductivity by SLS using fly ash hollow sphere (FAHS) as raw materials. The major superiority of using FAHSs as raw materials to prepare ceramic foams can be listed as follow:(i) their particle size and distribution can be well adjusted before use, which can control the pore size and porosity of ceramic objects; (ii) their shell walls can act as skeletons, which might potentially improve mechanical properties of mullite foams;(iii) they are ultra-low cost, and the recycling of such solid waste can help solve pollution problem caused by FAHSs.The subject has a considerable practical interest because SLS is an emerging technology for manufacturing complex-shaped porous ceramic objects with great added value, and it also brings new sights into the advanced utilization of FAHS solid waste. N° de réf. du vendeur 36017093/2
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Image d'archives
Selective Laser Sintering : A strategy for manufacturing complicated-structured ceramic foams using fly ash hollow spheres
Edité par
LAP LAMBERT Academic Publishing, 2020
ISBN 10 : 6200530351
ISBN 13 : 9786200530356
Ancien ou d'occasion
Couverture souple
Vendeur : Buchpark, Trebbin, Allemagne
Évaluation du vendeur 5 sur 5 étoiles
Etat : Hervorragend. Zustand: Hervorragend | Sprache: Englisch | Produktart: Bücher | Selective laser sintering (SLS), known as one of the powder-based Additive Manufacturing technologies developed in 1980s, has unique advantages in building porous ceramics with high geometry complexity. This accomplished study provides a strategy to prepare mullite foams with controlled pore structures and low thermal conductivity by SLS using fly ash hollow sphere (FAHS) as raw materials. The major superiority of using FAHSs as raw materials to prepare ceramic foams can be listed as follow:(i) their particle size and distribution can be well adjusted before use, which can control the pore size and porosity of ceramic objects; (ii) their shell walls can act as skeletons, which might potentially improve mechanical properties of mullite foams;(iii) they are ultra-low cost, and the recycling of such solid waste can help solve pollution problem caused by FAHSs.The subject has a considerable practical interest because SLS is an emerging technology for manufacturing complex-shaped porous ceramic objects with great added value, and it also brings new sights into the advanced utilization of FAHS solid waste. N° de réf. du vendeur 36017093/1
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