Interpenetrating Polymer Networks

University of Detroit Mercy, 39. University of Ghent, 595. University of New South Wales, 285. University of Strathclyde, 405. University of Tennessee...
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Downloaded by 117.253.202.100 on January 15, 2016 | http://pubs.acs.org Publication Date: May 5, 1994 | doi: 10.1021/ba-1994-0239.ix001

Author Index Alexandratos, Spiro D„ 197 Allcock, H . R., 157 An, Jeong Ho, 463 André, J.-J., 143 Barrett, L.W., 489 Bauer, Barry J., 179 Beauvais, Robert, 197 Briber, Robert M., 179 Burford, R. R, 285 Carraher, Jr., Charles E., 221 C h o u , Y . C , 305 Crick, DarrellW., 197 Derrough, S., 143 Dickens, Brian, 179 Dillon, Mark E., 393 Dirlikov, Stoil, 517, 539 Eschbach, F. O., 205 Frisch, H. L., 269 Frisch, K. C , 39 Frischinger, Isabelle, 517, 539 Gilmer, J. W., 489 Grady, Corinne Ε., 197 Guo, J. S., 557 Han, Xiaozu, 571 Holdsworth, A. K., 449 Hourston, D. J., 449 Hsieh, Κ. H., 427 Huang, S. J., 205 Jones, J. J., 285 Kim, Sung Chul, 463 Klempner, Daniel, 39 Lee, Doo Sung, 463 Lee, L. J., 305 Lee, S. T., 427 Liao, D. C , 427 Lipatov, Yuri S., 125 Liu, Jingjiang, 571 Liu, Wenzhong, 571

Liucheng, Zhang, 373 Ma, C. C. M., 427 Ma, Song, 405 Mai, Y.-W., 285 Manners, I., 157 Meyer, G. C , 143 Muturi, Patrick, 539 Mylonakis, S. G., 489 Narkis, Moshe, 353 Nernirovski, Naum, 353 Pandya, Bhoomin, 221 Posthuma de Boer, Α., 333 Ree, Moonhor, 247 Reiff, William, 221 Ridgway, Thomas H., 221 Rouf, C , 143 Sendijarevic, Vahid, 39 Sophiea, Daniel, 39 Sperling, L. H., 3,489 Sterling, Dorothy C , 221 Suthar, B., 39 Tan, Peiwan, 595 Tang, Xinyi, 405 Tianchang, Liu, 373 Utracki, L. Α., 77 Verhoogt, H., 333 Visscher, Κ. B., 157 Widmaier, J.-M., 143 Wu, D. W , 427 Xie, H. Q., 557 Xiucuo, Li, 373 Yamamoto, K., 233 Yoon, Do Y , 247 Zhang, C. X., 557 Zhou, Huarong, 571 Zhou, Peiguang, 269 van Dam, J., 333

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In Interpenetrating Polymer Networks; Klempner, D., et al.; Advances in Chemistry; American Chemical Society: Washington, DC, 1994.

N I TERPENETRATING POLYMER NETWORKS

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Downloaded by 117.253.202.100 on January 15, 2016 | http://pubs.acs.org Publication Date: May 5, 1994 | doi: 10.1021/ba-1994-0239.ix001

Affiliation Index Bio Med Sciences, Inc., 393 Changchun Institute of Applied Chemistry, 571 Delft University of Technology, 333 Eastern Michigan University, 517, 539 EniChem America, Inc., 489 Florida Atlantic University, 221 Hebei Institute of Technology, 373 Hitachi Chemical Co., Ltd., 233 Huazhong University of Science and Technology, 557 IBM Almaden Research Center, 247 IBM Technology Products, 247 Institut Charles Sadron (CNRS-ULP), 143 Jilin University, 405 Kenya Industrial Research and Development Institute, 539 Korea Advanced Institute of Science and Technology, 463 Lancaster University, 449 Lehigh University, 1,489 Mossbauer Spectroscopy Consultants, 221

National Institute of Standards and Technology, 179 National Research Council Canada, 77 National Taiwan University, 427 National Tsing Hua University, 427 The Ohio State University, 305 The Pennsylvania State University, 157 Pohang Institute of Science and Technology, 463 State University of New York at Albany, 269 Sung Kyun Kwan University, 463 Sydney University, 285 Technion-Israel Institute of Technology, 353 Ukrainian Academy of Sciences, 125 University of Cincinnati, 221 University of Connecticut, 205 University of Detroit Mercy, 39 University of Ghent, 595 University of New South Wales, 285 University of Strathclyde, 405 University of Tennessee, 197

Subject Index A AB-cross-linked copolymers castor oil polyurethane and poly(butyl methacrylate-divinyl benzene), 561 copolymerization of vinyl-terminated oligomer and vinyl monomer, 572 definition, 4 general preparation method, 572 schematic diagram of network, 575/ structure and properties, 571-594 synthesis, 573 A B A block copolymers, reaction with hydroxyl-capped poly(ethylene oxide) to form simultaneous IPN, 221-232 ABCP, See AB-cross-linked copolymers Abrasion resistance, jetting sand, 609-610 Absorbance, internal calibration standard, 148 Acid and base resistance, graft IPN, 610 Acoustic absorbing materials, transitions that result from microstructures, 329 Acoustic impedance, 45-46 Acoustic theory, 45-48 Acrylic acid dynamic mechanical properties of PEAPU-PMMA + A A ABCP, 592/

Acrylic acid—Continued miscibility of PEAPU-PMMA ABCP, 591, 593 Acrylic-epoxy bichain reaction, simultaneous interpenetrating polymer networks, morphology, 405-426 Additive rule, large positive deviation in annealed samples, 478 Additivity, homopolymer loss areas, 44/ Adhesion molecular interdifïusion, 264-265 properties of composite films, 262-265 two-phase coatings, 550, 552 Airborne noise, acoustic wave transmission, 46 Allylic monomer, polymerization, 143-156 Anisotropic domain morphology, interpenetrating polymer networks, 296 Annealing determining factors, 483 gas transport in IPN membranes, 463-485 membranes, effect on permeability coefficient and selectivity, 477-482 Application visualization system, three-dimensional pictures of blend morphology, 341

In Interpenetrating Polymer Networks; Klempner, D., et al.; Advances in Chemistry; American Chemical Society: Washington, DC, 1994.