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100%: Waitukaitis, Scott R.: Impact-activated Solidification Of Cornstarch And Water Suspensions (ISBN: 9783319359274) 2016, in Englisch, Taschenbuch.Nur diese Ausgabe anzeigen…
100%: Waitukaitis, Scott R. (Author): Impact-Activated Solidification of Cornstarch and Water Suspensions (Springer Theses) (ISBN: 9783319091822) 2014, Springer-Verlag GmbH, 2015. Ausgabe, in Englisch, Broschiert.Nur diese Ausgabe anzeigen…
Impact-activated Solidification Of Cornstarch And Water Suspensions
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Impact-Activated Solidification of Cornstarch and Water Suspensions
~EN PB NWISBN: 9783319359274 bzw. 3319359274, vermutlich in Englisch, Springer Shop, Taschenbuch, neu.
Lieferung aus: Schweiz, Lagernd, zzgl. Versandkosten.
This thesis approaches impact resistance in dense suspensions from a new perspective. The most well-known example of dense suspensions, a mixture of cornstarch and water, provides enough impact resistance to allow a person to run across its surface. In the past, this phenomenon had been linked to "shear thickening" under a steady shear state attributed to hydrodynamic interactions or granular dilation. However, neither explanation accounted for the stress scales required for a person to run on the surface. Through this research, it was discovered that the impact resistance is due to local compression of the particle matrix. This compression forces the suspension across the jamming transition and precipitates a rapidly growing solid mass. This growing solid, as a result, absorbs the impact energy. This is the first observation of such jamming front, linking nonlinear suspension dynamics in a new way to the jamming phase transition known from dry granular materials. Soft cover.
This thesis approaches impact resistance in dense suspensions from a new perspective. The most well-known example of dense suspensions, a mixture of cornstarch and water, provides enough impact resistance to allow a person to run across its surface. In the past, this phenomenon had been linked to "shear thickening" under a steady shear state attributed to hydrodynamic interactions or granular dilation. However, neither explanation accounted for the stress scales required for a person to run on the surface. Through this research, it was discovered that the impact resistance is due to local compression of the particle matrix. This compression forces the suspension across the jamming transition and precipitates a rapidly growing solid mass. This growing solid, as a result, absorbs the impact energy. This is the first observation of such jamming front, linking nonlinear suspension dynamics in a new way to the jamming phase transition known from dry granular materials. Soft cover.
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Impact-Activated Solidification of Cornstarch and Water Suspensions | - -
DE NWISBN: 9783319091822 bzw. 3319091824, in Deutsch, Springer, neu.
Von Scott R. Waitukaitis: This thesis approaches impact resistance in dense suspensions from a new perspective. The most well-known example of dense suspensions, a mixture of cornstarch and water, provides enough impact resistance to allow a person to run across its surface. In the past, this phenomenon had been linked to 'shear thickening' under a steady shear state attributed to hydrodynamic interactions or granular dilation. However, neither explanation accounted for the stress scales required for a person to run on the surface. Through this research, it was discovered that the impact resistance is due to local compression of the particle matrix. This compression forces the suspension across the jamming transition and precipitates a rapidly growing solid mass. This growing solid, as a result, absorbs the impact energy. This is the first observation of such jamming front, linking nonlinear suspension dynamics in a new way to the jamming phase transition known from dry granular mat...
3
Impact-activated Solidification Of Cornstarch And Water Suspensions
~EN NWISBN: 9783319359274 bzw. 3319359274, vermutlich in Englisch, neu.
Lieferung aus: Kanada, Lagernd, zzgl. Versandkosten.
This thesis approaches impact resistance in dense suspensions from a new perspective. The most well-known example of dense suspensions, a mixture of cornstarch and water, provides enough impact resistance to allow a person to run across its surface. In the past, this phenomenon had been linked to "shear thickening" under a steady shear state attributed to hydrodynamic interactions or granular dilation. However, neither explanation accounted for the stress scales required for a person to run on the surface.Through this research, it was discovered that the impact resistance is due to local compression of the particle matrix. This compression forces the suspension across the jamming transition and precipitates a rapidly growing solid mass. This growing solid, as a result, absorbs the impact energy. This is the first observation of such jamming front, linking nonlinear suspension dynamics in a new way to the jamming phase transition known from dry granular materials.
This thesis approaches impact resistance in dense suspensions from a new perspective. The most well-known example of dense suspensions, a mixture of cornstarch and water, provides enough impact resistance to allow a person to run across its surface. In the past, this phenomenon had been linked to "shear thickening" under a steady shear state attributed to hydrodynamic interactions or granular dilation. However, neither explanation accounted for the stress scales required for a person to run on the surface.Through this research, it was discovered that the impact resistance is due to local compression of the particle matrix. This compression forces the suspension across the jamming transition and precipitates a rapidly growing solid mass. This growing solid, as a result, absorbs the impact energy. This is the first observation of such jamming front, linking nonlinear suspension dynamics in a new way to the jamming phase transition known from dry granular materials.
4
Impact-Activated Solidification of Cornstarch and Water Suspensions (2016)
DE PB NWISBN: 9783319359274 bzw. 3319359274, in Deutsch, Springer International Publishing AG, Taschenbuch, neu.
Lieferung aus: Niederlande, 5-10 werkdagen.
bol.com.
This thesis approaches impact resistance in dense suspensions from a new perspective. The most well-known example of dense suspensions, a mixture of cornstarch and water, provides enough impact resistance to allow a person to run across its surface. In the past, this phenomenon had been linked to shear thickening under a steady shear state attributed to hydrodynamic interactions or granular dilation. However, neither explanation accounted for the stress scales required for a person to run on the... This thesis approaches impact resistance in dense suspensions from a new perspective. The most well-known example of dense suspensions, a mixture of cornstarch and water, provides enough impact resistance to allow a person to run across its surface. In the past, this phenomenon had been linked to shear thickening under a steady shear state attributed to hydrodynamic interactions or granular dilation. However, neither explanation accounted for the stress scales required for a person to run on the surface. Through this research, it was discovered that the impact resistance is due to local compression of the particle matrix. This compression forces the suspension across the jamming transition and precipitates a rapidly growing solid mass. This growing solid, as a result, absorbs the impact energy. This is the first observation of such jamming front, linking nonlinear suspension dynamics in a new way to the jamming phase transition known from dry granular materials.Taal: Engels;Afmetingen: 6x235x155 mm;Gewicht: 180,00 gram;Verschijningsdatum: november 2016;Druk: 1;ISBN10: 3319359274;ISBN13: 9783319359274; Engelstalig | Paperback | 2016.
bol.com.
This thesis approaches impact resistance in dense suspensions from a new perspective. The most well-known example of dense suspensions, a mixture of cornstarch and water, provides enough impact resistance to allow a person to run across its surface. In the past, this phenomenon had been linked to shear thickening under a steady shear state attributed to hydrodynamic interactions or granular dilation. However, neither explanation accounted for the stress scales required for a person to run on the... This thesis approaches impact resistance in dense suspensions from a new perspective. The most well-known example of dense suspensions, a mixture of cornstarch and water, provides enough impact resistance to allow a person to run across its surface. In the past, this phenomenon had been linked to shear thickening under a steady shear state attributed to hydrodynamic interactions or granular dilation. However, neither explanation accounted for the stress scales required for a person to run on the surface. Through this research, it was discovered that the impact resistance is due to local compression of the particle matrix. This compression forces the suspension across the jamming transition and precipitates a rapidly growing solid mass. This growing solid, as a result, absorbs the impact energy. This is the first observation of such jamming front, linking nonlinear suspension dynamics in a new way to the jamming phase transition known from dry granular materials.Taal: Engels;Afmetingen: 6x235x155 mm;Gewicht: 180,00 gram;Verschijningsdatum: november 2016;Druk: 1;ISBN10: 3319359274;ISBN13: 9783319359274; Engelstalig | Paperback | 2016.
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Impact-Activated Solidification of Cornstarch and Water Suspensions (Springer Theses) (2014)
EN HC USISBN: 9783319091822 bzw. 3319091824, in Englisch, 88 Seiten, 2015. Ausgabe, Springer, gebundenes Buch, gebraucht.
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This thesis approaches impact resistance in dense suspensions from a new perspective. The most well-known example of dense suspensions, a mixture of cornstarch and water, provides enough impact resistance to allow a person to run across its surface. In the past, this phenomenon had been linked to "shear thickening" under a steady shear state attributed to hydrodynamic interactions or granular dilation. However, neither explanation accounted for the stress scales required for a person to run on the surface. Through this research, it was discovered that the impact resistance is due to local compression of the particle matrix. This compression forces the suspension across the jamming transition and precipitates a rapidly growing solid mass. This growing solid, as a result, absorbs the impact energy. This is the first observation of such jamming front, linking nonlinear suspension dynamics in a new way to the jamming phase transition known from dry granular materials., Hardcover, Baskı: 2015, Etiket: Springer, Springer, Ürün grubu: Book, Yayınlanan: 2014-07-29, Stüdyo: Springer, Satış sırası: 10551283.
Von Händler/Antiquariat, PBShop UK.
This thesis approaches impact resistance in dense suspensions from a new perspective. The most well-known example of dense suspensions, a mixture of cornstarch and water, provides enough impact resistance to allow a person to run across its surface. In the past, this phenomenon had been linked to "shear thickening" under a steady shear state attributed to hydrodynamic interactions or granular dilation. However, neither explanation accounted for the stress scales required for a person to run on the surface. Through this research, it was discovered that the impact resistance is due to local compression of the particle matrix. This compression forces the suspension across the jamming transition and precipitates a rapidly growing solid mass. This growing solid, as a result, absorbs the impact energy. This is the first observation of such jamming front, linking nonlinear suspension dynamics in a new way to the jamming phase transition known from dry granular materials., Hardcover, Baskı: 2015, Etiket: Springer, Springer, Ürün grubu: Book, Yayınlanan: 2014-07-29, Stüdyo: Springer, Satış sırası: 10551283.
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Impact-Activated Solidification of Cornstarch and Water Suspensions (Springer Theses) (2014)
EN HC USISBN: 9783319091822 bzw. 3319091824, in Englisch, 108 Seiten, 2015. Ausgabe, Springer, gebundenes Buch, gebraucht.
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Von Händler/Antiquariat, Nearfine.
This thesis approaches impact resistance in dense suspensions from a new perspective. The most well-known example of dense suspensions, a mixture of cornstarch and water, provides enough impact resistance to allow a person to run across its surface. In the past, this phenomenon had been linked to "shear thickening" under a steady shear state attributed to hydrodynamic interactions or granular dilation. However, neither explanation accounted for the stress scales required for a person to run on the surface. Through this research, it was discovered that the impact resistance is due to local compression of the particle matrix. This compression forces the suspension across the jamming transition and precipitates a rapidly growing solid mass. This growing solid, as a result, absorbs the impact energy. This is the first observation of such jamming front, linking nonlinear suspension dynamics in a new way to the jamming phase transition known from dry granular materials. Hardcover, Baskı: 2015, Etiket: Springer, Springer, Ürün grubu: Book, Yayınlanan: 2014-08-12, Yayın tarihi: 2014-08-12, Stüdyo: Springer.
Von Händler/Antiquariat, Nearfine.
This thesis approaches impact resistance in dense suspensions from a new perspective. The most well-known example of dense suspensions, a mixture of cornstarch and water, provides enough impact resistance to allow a person to run across its surface. In the past, this phenomenon had been linked to "shear thickening" under a steady shear state attributed to hydrodynamic interactions or granular dilation. However, neither explanation accounted for the stress scales required for a person to run on the surface. Through this research, it was discovered that the impact resistance is due to local compression of the particle matrix. This compression forces the suspension across the jamming transition and precipitates a rapidly growing solid mass. This growing solid, as a result, absorbs the impact energy. This is the first observation of such jamming front, linking nonlinear suspension dynamics in a new way to the jamming phase transition known from dry granular materials. Hardcover, Baskı: 2015, Etiket: Springer, Springer, Ürün grubu: Book, Yayınlanan: 2014-08-12, Yayın tarihi: 2014-08-12, Stüdyo: Springer.
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Impact-Activated Solidification of Cornstarch and Water Suspensions (2016)
DE NW RPISBN: 9783319359274 bzw. 3319359274, in Deutsch, Springer International Publishing AG, neu, Nachdruck.
Von Händler/Antiquariat, PBShop [61989342], Secaucus, NJ, U.S.A.
New Book.Shipped from US within 10 to 14 business days.THIS BOOK IS PRINTED ON DEMAND. Established seller since 2000.
New Book.Shipped from US within 10 to 14 business days.THIS BOOK IS PRINTED ON DEMAND. Established seller since 2000.
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Impact-Activated Solidification of Cornstarch and Water Suspensions (2016)
DE NW RPISBN: 9783319359274 bzw. 3319359274, in Deutsch, Springer International Publishing AG, neu, Nachdruck.
Von Händler/Antiquariat, Books2Anywhere [190245], Fairford, GLOS, United Kingdom.
New Book. Delivered from our US warehouse in 10 to 14 business days. THIS BOOK IS PRINTED ON DEMAND.Established seller since 2000.
New Book. Delivered from our US warehouse in 10 to 14 business days. THIS BOOK IS PRINTED ON DEMAND.Established seller since 2000.
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Impact-Activated Solidification of Cornstarch and Water Suspensions (2016)
DE PB NWISBN: 9783319359274 bzw. 3319359274, in Deutsch, Springer, Taschenbuch, neu.
Von Händler/Antiquariat, Herb Tandree Philosophy Books [17426], Stroud, GLOS, United Kingdom.
9783319359274 This listing is a new book, a title currently in-print which we order directly and immediately from the publisher.
9783319359274 This listing is a new book, a title currently in-print which we order directly and immediately from the publisher.
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Impact-activated Solidification of Cornstarch and Water Suspensions (2016)
DE PB NWISBN: 9783319359274 bzw. 3319359274, in Deutsch, Springer Verlag, Taschenbuch, neu.
Von Händler/Antiquariat, Revaluation Books [2134736], Exeter, United Kingdom.
reprint edition. 9.25x6.10 inches. In Stock.
reprint edition. 9.25x6.10 inches. In Stock.
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