Using the bond energy density to predict the reinforcing ability of a composite
| ISSN: |
1573-4803
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| Source: |
Springer Online Journal Archives 1860-2000
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| Topics: |
Mechanical Engineering, Materials Science, Production Engineering, Mining and Metallurgy, Traffic Engineering, Precision Mechanics
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| Notes: |
Abstract A model is proposed to predict the ability of a filler to reinforce a polymer. The model combines the effects of filler particle size, filler surface chemistry and filler volume fraction into one parameter called the bond energy density. Bond energy density is defined as the total interfacial bond energy per unit volume of a polymer composite. Bond energy density is determined by Fowkes's equation. The critical bond energy density, which is equivalent to the bond energy density of the composite when its tensile strength equals that of its matrix, determines whether a filler will reinforce or weaken a polymer. To get a filler reinforcing effect, the bond energy density of the composite must be greater than its critical bond energy density.
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| Type of Medium: |
Electronic Resource
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| URL: |
| _version_ | 1798296737026146304 |
|---|---|
| autor | Shang, S. W. Williams, J. W. Söderholm, K. -J. M. |
| autorsonst | Shang, S. W. Williams, J. W. Söderholm, K. -J. M. |
| book_url | http://dx.doi.org/10.1007/BF01105259 |
| datenlieferant | nat_lic_papers |
| hauptsatz | hsatz_simple |
| identnr | NLM194633268 |
| issn | 1573-4803 |
| journal_name | Journal of materials science |
| materialart | 1 |
| notes | Abstract A model is proposed to predict the ability of a filler to reinforce a polymer. The model combines the effects of filler particle size, filler surface chemistry and filler volume fraction into one parameter called the bond energy density. Bond energy density is defined as the total interfacial bond energy per unit volume of a polymer composite. Bond energy density is determined by Fowkes's equation. The critical bond energy density, which is equivalent to the bond energy density of the composite when its tensile strength equals that of its matrix, determines whether a filler will reinforce or weaken a polymer. To get a filler reinforcing effect, the bond energy density of the composite must be greater than its critical bond energy density. |
| package_name | Springer |
| publikationsjahr_anzeige | 1992 |
| publikationsjahr_facette | 1992 |
| publikationsjahr_intervall | 8009:1990-1994 |
| publikationsjahr_sort | 1992 |
| publisher | Springer |
| reference | 27 (1992), S. 4949-4956 |
| search_space | articles |
| shingle_author_1 | Shang, S. W. Williams, J. W. Söderholm, K. -J. M. |
| shingle_author_2 | Shang, S. W. Williams, J. W. Söderholm, K. -J. M. |
| shingle_author_3 | Shang, S. W. Williams, J. W. Söderholm, K. -J. M. |
| shingle_author_4 | Shang, S. W. Williams, J. W. Söderholm, K. -J. M. |
| shingle_catch_all_1 | Shang, S. W. Williams, J. W. Söderholm, K. -J. M. Using the bond energy density to predict the reinforcing ability of a composite Abstract A model is proposed to predict the ability of a filler to reinforce a polymer. The model combines the effects of filler particle size, filler surface chemistry and filler volume fraction into one parameter called the bond energy density. Bond energy density is defined as the total interfacial bond energy per unit volume of a polymer composite. Bond energy density is determined by Fowkes's equation. The critical bond energy density, which is equivalent to the bond energy density of the composite when its tensile strength equals that of its matrix, determines whether a filler will reinforce or weaken a polymer. To get a filler reinforcing effect, the bond energy density of the composite must be greater than its critical bond energy density. 1573-4803 15734803 Springer |
| shingle_catch_all_2 | Shang, S. W. Williams, J. W. Söderholm, K. -J. M. Using the bond energy density to predict the reinforcing ability of a composite Abstract A model is proposed to predict the ability of a filler to reinforce a polymer. The model combines the effects of filler particle size, filler surface chemistry and filler volume fraction into one parameter called the bond energy density. Bond energy density is defined as the total interfacial bond energy per unit volume of a polymer composite. Bond energy density is determined by Fowkes's equation. The critical bond energy density, which is equivalent to the bond energy density of the composite when its tensile strength equals that of its matrix, determines whether a filler will reinforce or weaken a polymer. To get a filler reinforcing effect, the bond energy density of the composite must be greater than its critical bond energy density. 1573-4803 15734803 Springer |
| shingle_catch_all_3 | Shang, S. W. Williams, J. W. Söderholm, K. -J. M. Using the bond energy density to predict the reinforcing ability of a composite Abstract A model is proposed to predict the ability of a filler to reinforce a polymer. The model combines the effects of filler particle size, filler surface chemistry and filler volume fraction into one parameter called the bond energy density. Bond energy density is defined as the total interfacial bond energy per unit volume of a polymer composite. Bond energy density is determined by Fowkes's equation. The critical bond energy density, which is equivalent to the bond energy density of the composite when its tensile strength equals that of its matrix, determines whether a filler will reinforce or weaken a polymer. To get a filler reinforcing effect, the bond energy density of the composite must be greater than its critical bond energy density. 1573-4803 15734803 Springer |
| shingle_catch_all_4 | Shang, S. W. Williams, J. W. Söderholm, K. -J. M. Using the bond energy density to predict the reinforcing ability of a composite Abstract A model is proposed to predict the ability of a filler to reinforce a polymer. The model combines the effects of filler particle size, filler surface chemistry and filler volume fraction into one parameter called the bond energy density. Bond energy density is defined as the total interfacial bond energy per unit volume of a polymer composite. Bond energy density is determined by Fowkes's equation. The critical bond energy density, which is equivalent to the bond energy density of the composite when its tensile strength equals that of its matrix, determines whether a filler will reinforce or weaken a polymer. To get a filler reinforcing effect, the bond energy density of the composite must be greater than its critical bond energy density. 1573-4803 15734803 Springer |
| shingle_title_1 | Using the bond energy density to predict the reinforcing ability of a composite |
| shingle_title_2 | Using the bond energy density to predict the reinforcing ability of a composite |
| shingle_title_3 | Using the bond energy density to predict the reinforcing ability of a composite |
| shingle_title_4 | Using the bond energy density to predict the reinforcing ability of a composite |
| sigel_instance_filter | dkfz geomar wilbert ipn albert fhp |
| source_archive | Springer Online Journal Archives 1860-2000 |
| timestamp | 2024-05-06T09:56:51.117Z |
| titel | Using the bond energy density to predict the reinforcing ability of a composite |
| titel_suche | Using the bond energy density to predict the reinforcing ability of a composite |
| topic | ZL |
| uid | nat_lic_papers_NLM194633268 |