A new approach to visualizing the carbon black/natural rubber interaction layer in carbon black-filled natural rubber vulcanizates and to elucidating the dependence of mechanical properties on quantitative parameters

被引：0

作者：

Atsushi Kato

Yuko Ikeda

Ryota Tsushi

Yota Kokubo

Nobuo Kojima

机构：

[1] Nissan ARC,Strategic Service Promotion Department

[2] Ltd,Graduate School of Science and Technology

[3] Kyoto Institute of Technology,undefined

来源：

Colloid and Polymer Science | 2013年 / 291卷

关键词：

3D-TEM; AFM; Dynamic mechanical property; Interaction layer; Carbon black; Natural rubber; Composite;

D O I：

暂无

中图分类号：

学科分类号：

摘要：

The viscoelastic behavior of carbon black (CB)-filled natural rubber (NR) vulcanizates is explained for the first time by applying a two-phase mixing law, excluding the CB phase, to the volume fraction of the CB/NR interaction layer (CNIL). For CB loadings of 20 phr or less, the CNIL of local CB aggregates induces the reinforcement effect of a series mechanical model of the mixing law. In contrast, for CB loadings of 30 phr or more, the CNIL that forms the CB network (CBN) generates the reinforcement effect of a parallel mechanical model of the mixing law. Therefore, the model of the mixing law presumably changes from a series mechanical model before CBN formation to a parallel one after the network forms. Additionally, employing this fraction, a transition caused by CBN formation was investigated.

引用

页码：2101 / 2110

页数：9

共 152 条

[1]

Boonstra BB(1967)Mixing of carbon black and polymer: interaction and reinforcement J Appl Polym Sci 11 389-406

[2]

Dannenberg EM(1952)Carbon black dispersion and reinforcement Rubber Chem Technol 25 843-857

[3]

Gessler AM(1969)Evidence for chemical interaction in carbon and polymer associations: extension of original work on effect of carbon structure Rubber Chem Technol 42 858-873

[4]

O’Brien J(1976)An NMR investigation of the interaction between carbon black and Macromolecules 9 653-660

[5]

Cashell E(1986)-polybutadiene J Appl Polym Sci 31 2325-2330

[6]

Wardel GE(1997)Changes of spin–spin relaxation time for EPR composites during mixing process Nippon Gomu Kyokaishi 70 274-279

[7]

McBrierty VJ(1971)Effects of chemical structure and molecular weight of rubber on the content and structure of carbon-gel in black filled rubber system J Polym Sci, Part A-2: Polym Phys 9 829-839

[8]

Furuta M(2006)Nuclear magnetic resonance study of rubber–carbon black interactions Macromolecules 39 3089-3092

[9]

Hikasa T(1968)Adsorption and desorption dynamics of linear polymer chains to spherical nanoparticles: A Monte Carlo investigation Rubber Chem Technol 41 1194-1202

[10]

Kato E(1973)Glass transition in carbon black reinforced rubber J Colloid Interface Sci 43 583-590

← 1 2 3 4 5 6 7 8 9 10 →