| Category |
Title / Sections |
Scholar |
Branch of Study |
Year |
| Page |
2.12. Determination of the concentration of polysulphidic cross links. (Thesis: Transport phenomena through elastomers and blends ) |
Soney C George |
Chemistry |
1999 |
| Page |
2.13. Determination of swelling behaviour of cross linked membranes. (Thesis: Transport phenomena through elastomers and blends |
Soney C George |
Chemistry |
1999 |
| Page |
cHAPTER 3 TRANSPORT OF AROMATIc HYDROcARBONS THROUGH cROSSLINKED STYRENE-BUTADIENE RUBBER. (Thesis: Transport phenomena through elastomers and blends ) |
Soney C George |
Chemistry |
1999 |
| Page |
3.1.1 Effect of nature of cross links. (Thesis: Transport phenomena through elastomers and blends |
Soney C George |
Chemistry |
1999 |
| Page |
3.1.8 comparison with theory. (Thesis: Transport phenomena through elastomers and blends ) |
Soney C George |
Chemistry |
1999 |
| Page |
cHAPTER 4 TRANSPORT OF AROMATIc HYDROcARBONS THROUGH cONVENTIONALLY cROSSLINKED SBR MEMBRANES: EFFEcT OF DEGREE OF cROSSLINKING ON SWELLING AND MEcHANIcAL PROPERTIES. (Thesis: Transport phenomena through elastomers and blends |
Soney C George |
Chemistry |
1999 |
| Page |
Fig. 4.9. Variation of tensile strength with crosslink density. (Thesis: Transport phenomena through elastomers and blends ) |
Soney C George |
Chemistry |
1999 |
| Page |
cHAPTER 5 TRANSPORT OF ALIPHATIc HYDROcARBONS THROUGH STYRENE-BUTADIENE RUBBER: EFFEcT OF NATURE OF cROSSLINKS ON SWELLING AND MEcHANIcAL BEHAVIOUR. (Thesis: Transport phenomena through elastomers and blends |
Soney C George |
Chemistry |
1999 |
| Page |
5.1.1 Effect of the nature of cross links. (Thesis: Transport phenomena through elastomers and blends ) |
Soney C George |
Chemistry |
1999 |
| Page |
Fig. 5.2. Schematic model for swelling In defferently cross linked membranes. (Thesis: Transport phenomena through elastomers and blends |
Soney C George |
Chemistry |
1999 |
| Page |
Fig. 5.4. cNMR spectra of (a) uncured SBR and (b) SBR cured by cV system. (Thesis: Transport phenomena through elastomers and blends ) |
Soney C George |
Chemistry |
1999 |
| Page |
Table 5.6. Arrhenius parameters and thermodynamic constants. (Thesis: Transport phenomena through elastomers and blends |
Soney C George |
Chemistry |
1999 |
| Page |
Fig. 5.20. Variation of Youngs modulus with crosslinlung systems. (Thesis: Transport phenomena through elastomers and blends ) |
Soney C George |
Chemistry |
1999 |
| Page |
Fig. 5.22. Variation of tensile strength with crosslinking systems. (Thesis: Transport phenomena through elastomers and blends |
Soney C George |
Chemistry |
1999 |
| Page |
5.1.8 Degree of cross linking. (Thesis: Transport phenomena through elastomers and blends ) |
Soney C George |
Chemistry |
1999 |
