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Design of experiments for optimizin
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Verification Experiments Confirmato
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Fig 3 Overlaid contour plots for te
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processing variables on the adhesio
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NR / CR TSC (%) 100 / 0 75 / 25 50
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the observed high values of its T-p
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Nondestructive testing of defects i
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visible impact damage (BVID). The c
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Fig 2. Photograph of the spliced ne
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Electrical studies on silver subsur
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temperatures exhibited by the 50 nm
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Figure 1: Variation of ln R with 1/
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Experimental Polyamide6 (PA6 with z
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Table 1: Sample code and compositio
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Blends of unsaturated polyester res
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in comparison to that of the base r
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Fig. 1 Tensile strength of rubber m
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characterization of PTT/m-LLDPE ble
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organoclay into the blend matrix re
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Figure: 5 - DSC cooling thermogram
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polypropylene exhibits β-chain sci
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ehavior. Here two possible effects
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Complex modulus (KPa) Complex visco
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has been carried out using thermogr
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Weight (%) 80 40 0 Table 1. Sample
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Mechanical properties of natural ru
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due to adsorption on rubber particl
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Preparation and Characterization of
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2.7. Fabrication of curcumin elutin
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Table 2. Effect of curcumin content
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Biodegradable nanocomposites can be
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crystallization temperature of PBAT
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Biomimetic synthesis of nanohybrids
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3.3. Thermogravimetric analysis (TG
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Fig 2: 31 P-NMR Spectra of as-synth
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In this work we have examined the c
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7. George, K.M, Alex, R, Joseph, S
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Reinforcement studies - Effect of t
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Results and Discussion Immersion an
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Stress (MPa) 26 24 22 20 18 16 14 1
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Effect of plasticizer, filler and s
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Results and Discussion Properties o
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prepolymers having higher percentag
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Table2. Formulation for Peroxide cu
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Elongation at Break The elongation
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All-PP composites based on β and
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a T E'(T) = (1) E'(T ) ref The shif
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We tried the classical WLF equation
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Figure 2. Schematic of time-tempera
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Intercalated poly (methyl methacryl
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them. The nanocomposites prepared u
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Table 1: Mechanical Properties of P
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Abstract A Review on thermally stab
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processing of different commercial
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d(%Mass)/dT ( 0 d(%Mass)/dT ( C) 0
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composites has been reported to imp
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(a) (b) Figure 2: WAXD of a) PVC/mi
- Page 116 and 117:
Storage Modulus (M Pa) 3000 2500 20
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17. Peprnicek, T.; Duchet, J.; Kova
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constraint of several nanometers, t
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The FT-IR spectrum .ER-Epoxy resin,
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GLASS TRANSITION TEMPERATURE (Tg) V
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AFM image of Amine containing PDMS
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8. A.Al.Abrash, F.Al.Sagheer, A.A.m
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2. Experimental Details Polypropyle
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5. Acknowlegements We would like to
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Synthesis and characterization of p
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pristine polypropylene during cooli
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a Figure 2: Typical TEM micrographs
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potassium ditelluratoargentate (III
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found to be 80.51 and 77.31, respec
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14. G. Canche-Escamilla, J.I. Cauic
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2.2. Characterization of electrospu
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eported that tortuosity decreases w
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Abstract: Effect of nano TiO2 in co
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3. Results and Discussion : The wid
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This is further evidenced from the
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Transducer using Terfenol-D/epoxy c
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esults were compared. Measurements
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500 400 300 200 100 0 Magnetostrict
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Experimental Materials Natural crum
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It is known that for alkali and alk
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Polymer sample Table1. Ion uptake b
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Abstract Protein functionalized pol
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2.4 Analysis of Particle size of ul
- Page 172 and 173:
Table 1 Nano particle preparation o
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As the particle size is reduced, su
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Figure- 3 SEM micrograph of EFNP of
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Excess PVA solution was drained off
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Figure 1. IR spectra of (I) PSF bas
- Page 182 and 183:
Photodegradable polypropylene film
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were observed as a broad peak in th
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Fig. 1. Carbonyl index variation of
- Page 188 and 189:
Abstract Swelling behaviour of hydr
- Page 190 and 191:
Swelling experiment Circular shaped
- Page 192 and 193:
⎛ hθ D = π⎜ ⎜ ⎝ 4Q ∞
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21. Bajsic G, Rek V. J Appl Polym S
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log (C α - C t ) 1.0 0.9 0.8 0.7 0
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esistance [2]. For converting it to
- Page 200 and 201:
References 1. Bob RJ, Underwater El
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Figure-2 Insertion Loss behavior 0.
- Page 204 and 205:
Development of epoxy based material
- Page 206 and 207:
NOTATIONS USED A→E-55, AL-45.S.g-
- Page 208 and 209:
The Samples E, I, H and pure epoxy
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The combination B The combination I
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Graft-copolymerization of cellulose
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Once the free-radical species (A
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References 1. Margaret I.P, Sau L.L
- Page 218 and 219:
Design of experiments for optimizin
- Page 220 and 221:
Verification Experiments Confirmato
- Page 222 and 223:
Fig 3 Overlaid contour plots for te
- Page 224 and 225:
processing variables on the adhesio
- Page 226 and 227:
NR / CR TSC (%) 100 / 0 75 / 25 50
- Page 228 and 229:
the observed high values of its T-p
- Page 230 and 231:
Nondestructive testing of defects i
- Page 232 and 233:
visible impact damage (BVID). The c
- Page 234 and 235:
Fig 2. Photograph of the spliced ne
- Page 236 and 237:
Electrical studies on silver subsur
- Page 238 and 239:
temperatures exhibited by the 50 nm
- Page 240 and 241:
Figure 1: Variation of ln R with 1/
- Page 242 and 243:
Experimental Polyamide6 (PA6 with z
- Page 244 and 245:
Table 1: Sample code and compositio
- Page 246 and 247:
Blends of unsaturated polyester res
- Page 248 and 249:
in comparison to that of the base r
- Page 250 and 251: Fig. 1 Tensile strength of rubber m
- Page 252 and 253: characterization of PTT/m-LLDPE ble
- Page 254 and 255: organoclay into the blend matrix re
- Page 256 and 257: Figure: 5 - DSC cooling thermogram
- Page 258 and 259: polypropylene exhibits β-chain sci
- Page 260 and 261: ehavior. Here two possible effects
- Page 262 and 263: Complex modulus (KPa) Complex visco
- Page 264 and 265: has been carried out using thermogr
- Page 266 and 267: Weight (%) 80 40 0 Table 1. Sample
- Page 268 and 269: Mechanical properties of natural ru
- Page 270 and 271: due to adsorption on rubber particl
- Page 272 and 273: Preparation and Characterization of
- Page 274 and 275: 2.7. Fabrication of curcumin elutin
- Page 276 and 277: Table 2. Effect of curcumin content
- Page 278 and 279: Biodegradable nanocomposites can be
- Page 280 and 281: crystallization temperature of PBAT
- Page 282 and 283: Biomimetic synthesis of nanohybrids
- Page 284 and 285: 3.3. Thermogravimetric analysis (TG
- Page 286 and 287: Fig 2: 31 P-NMR Spectra of as-synth
- Page 288 and 289: In this work we have examined the c
- Page 290 and 291: 7. George, K.M, Alex, R, Joseph, S
- Page 292 and 293: Reinforcement studies - Effect of t
- Page 294 and 295: Results and Discussion Immersion an
- Page 296 and 297: Stress (MPa) 26 24 22 20 18 16 14 1
- Page 298 and 299: Effect of plasticizer, filler and s
- Page 302 and 303: Effect of Plasticizer The polyureth
- Page 304 and 305: Effect of electron beam curing on m
- Page 306 and 307: Shore A hardness 70 60 50 40 30 20
- Page 308 and 309: Log DC Vol Resistivity (Ohm Cm) 14
- Page 310 and 311: can be created to predict the perfo
- Page 312 and 313: esolve any tanδ peak corresponding
- Page 314 and 315: 18. Hu WG, Schmidt-Rohr K Acta Poly
- Page 316 and 317: Figure 5. Optical micrograph from t
- Page 318 and 319: Experimental Materials PMMA (876 G)
- Page 320 and 321: loading. Na+MMT system shows a decr
- Page 322 and 323: E'(MPa) 16000 14000 12000 10000 800
- Page 324 and 325: silicate layers leading to enhanced
- Page 326 and 327: temperature mechanical properties,
- Page 328 and 329: Thermal and mechanical properties o
- Page 330 and 331: Testing Machine. The dynamic mechan
- Page 332 and 333: decreasing the tensile strength. Th
- Page 334 and 335: higher than that of pristine PVC. T
- Page 336 and 337: In-situ generation of silica in epo
- Page 338 and 339: RESULTS AND DISCUSSIONS FT-IR SPECT
- Page 340 and 341: TGA studies of Epoxy-Silica hybrid
- Page 342 and 343: of epoxy resin was determined. It w
- Page 344 and 345: The sol-gel processing of TEOS in e
- Page 346 and 347: Structure property relationship stu
- Page 348 and 349: 2 where cos φ (is the averaged val
- Page 350 and 351:
( 110) (a) PP/MWNT (0.5 wt%) fiber
- Page 352 and 353:
Experimental: The materials used in
- Page 354 and 355:
13. Wang, Z. M.; Nakajima, H.; Mani
- Page 356 and 357:
A Study of mechanical properties of
- Page 358 and 359:
Optimization of Various Reaction Pa
- Page 360 and 361:
Modulus of Rupture, Modulus of Elas
- Page 362 and 363:
Novel nanocomposite polymer electro
- Page 364 and 365:
polymers with ceramic fillers have
- Page 366 and 367:
in Fig. 8. The cell based on the PE
- Page 368 and 369:
composites containing nano additive
- Page 370 and 371:
other hand, the coatings containing
- Page 372 and 373:
References : 1] L.Alcacer, Conducti
- Page 374 and 375:
selected as matrix material due to
- Page 376 and 377:
Fig.1 Conceptual sketch of Magnetos
- Page 378 and 379:
Abstract Competitive extraction of
- Page 380 and 381:
Complexation of metal ions: General
- Page 382 and 383:
22 Hiratana K. Chem.Lett.1982; 7: 1
- Page 384 and 385:
Fig. 3 Complexation in NR/PEO block
- Page 386 and 387:
adhesives, cosmetics, detergents, t
- Page 388 and 389:
depend largely on concentration, mo
- Page 390 and 391:
(Fei Han et al.,2008) and in turn s
- Page 392 and 393:
[9] F.Jinda, G.Yong, Journal of Exp
- Page 394 and 395:
Preparation of polyvinylalcohol bas
- Page 396 and 397:
of 125±2 ºC. Desalting performanc
- Page 398 and 399:
Figure 4. Time vs. % Rejection; for
- Page 400 and 401:
for packaging owing to their low co
- Page 402 and 403:
Conclusion A steep increase of carb
- Page 404 and 405:
Fig. 4. Variation in the elongation
- Page 406 and 407:
et al [4] reported the swelling beh
- Page 408 and 409:
where Qt and Q∞ are the mol% incr
- Page 410 and 411:
compared to diffusion rate results
- Page 412 and 413:
Table V Transport coefficients of b
- Page 414 and 415:
Studies on EPDM based compositions
- Page 416 and 417:
Results and Discussion The cure cha
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Table-3 Physico-mechanical properti
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Fig-3 Echo Reduction 0.5 kHz-4 kHz
- Page 422 and 423:
particles. Additionally, fractured
- Page 424 and 425:
The Samples E, I, H and pure epoxy
- Page 426 and 427:
THERMAL FATIQUE TEST The test was c
- Page 428 and 429:
mechanical and thermal behaviors wh
- Page 430 and 431:
from HiMedia Laboratories, Mumbai,
- Page 432 and 433:
pattern appears to be a little diff
- Page 434 and 435:
Fig.1. Effect of reaction temperatu
- Page 436 and 437:
1. Introduction Polymer nanocomposi
- Page 438 and 439:
II) Elongation at break (% Elongati
- Page 441 and 442:
Figure 7. Scanning Electron Microgr
- Page 443 and 444:
2. Experimental Details Polypropyle
- Page 445 and 446:
(a) (b) (c) Tenacity (gpd) Modulus
- Page 447 and 448:
ABSTRACT Finite element analysis of
- Page 449 and 450:
It is an unsymmetrical two point te
- Page 451 and 452:
Programming and also with FEA packa
- Page 453 and 454:
Stress analysis of air borne polyme
- Page 455 and 456:
einforced Epoxy. It was observed th
- Page 457 and 458:
Figure 7: Total Vector displacement
- Page 459 and 460:
Experimental: Materials: Reagent gr
- Page 461 and 462:
Table 4: TGA Results a-DDM cure b-D
- Page 463 and 464:
INFERENCE: 1. Temperature at 10% we
- Page 465 and 466:
The peculiarity of the DDM curing s
- Page 467 and 468:
REFERENCES: 1. “Polymer synthesis
- Page 469 and 470:
1. Introduction Polymer nanocomposi
- Page 471 and 472:
II) Elongation at break (% Elongati
- Page 474 and 475:
Figure 7. Scanning Electron Microgr
- Page 476 and 477:
2. Experimental Details Polypropyle
- Page 478 and 479:
(a) (b) (c) Tenacity (gpd) Modulus
- Page 480 and 481:
ABSTRACT Finite element analysis of
- Page 482 and 483:
It is an unsymmetrical two point te
- Page 484 and 485:
Programming and also with FEA packa
- Page 486 and 487:
Stress analysis of air borne polyme
- Page 488 and 489:
einforced Epoxy. It was observed th
- Page 490 and 491:
Figure 7: Total Vector displacement
- Page 492 and 493:
Experimental: Materials: Reagent gr
- Page 494 and 495:
Table 4: TGA Results a-DDM cure b-D
- Page 496 and 497:
INFERENCE: 1. Temperature at 10% we
- Page 498 and 499:
The peculiarity of the DDM curing s
- Page 500:
REFERENCES: 1. “Polymer synthesis