American Chemical Society Rubber Division

HCS SpringMeeting, American Chemical Society, Rubber Division, Washiagton, D.C., 1995. 

T. M. Dobel, Nein Development in Ethylene jA.cry lie Elastomers Paper No. 28, American Chemical Society Rubber Division, Detroit, Mich., Oct. 1991. 

Shanmugharaj, A.M. and Ryu, S.H. Fall Technical Meeting—American Chemical Society, Rubber Division, 168th Meeting, Pittsburgh, PA, Nov. 1-3, 2005. 

Mangaraj, D. Role of Compatibilization in Rubber Recycling by Blending with Plastics, presented at 166th American Chemical Society Rubber Division Meeting. Columbus, OH, 2005, Paper No. 27. 

Kawazura, K., Kawaza, M., et al. American Chemical Society Rubber Division Meeting, Chicago, IL, 1994. 

Vaia R, Mirau P, Alexander M, Koemer H, Hsiao BS, Sics I (2005) 167th Spring Technical Meeting - American Chemical Society, Rubber Division, San Antonio, TX, United States, 16-18 May 2005, 63/1-63/8... 

Y.-L. Lu, L.-Q. Zhang, Y.-L. Feng, Z.-H. Wang and J.-B. Ding, Technical Meeting-American Chemical Society, Rubber Division, 180th, Advanced Materials in Health Care, Qeveland, OH, United States, Oet. 11-13, 2011, 1, 390 15. 

Rodgers, B Tracey, D and Waddell, W, (2004) Tire applications of elastomers treads. Paper H, Presented at a Meeting of the American Chemical Society Rubber Division, Grand Rapids Ml,... 

Day, G. and Futamura, S. (1987) A comparison of styrene and butadiene in tire tread polymers. Kaut. Gummi Rmstst., 40, 39 Day, G. and Futamura, S. (1986) A comparison of styrene and butadiene in tire tread polymers. Paper 22, Presented at a Meeting of the American Chemical Society, Rubber Division, 1986. 

H. J. Barager and L. C. Muschiatti, Vamac Ethylene Acrylic Elastomers for Demanding Automotive Applications, Paper No. 189, American Chemical Society Rubber Division, Orlando, Fla., Sept. 1999. 

Member, American Chemical Society Rubber Division Northeast Ohio Rubber Group American Society of Testing and Materials and American Society for Quality Control. 

H. Hosozawa, A. Toyada and H. Sato (1989). In 136th Meeting 1989 Conf Proc., Detroit, MI, 17-20 October, Paper 82.012, American Chemical Society, Rubber Division, Washington, DC. 

Figure 5.40. Transmission electron microscopy thin section of phosphotungstic acid stained cryosections of an as extruded (A) and deep drawn (B) coextruded film constructed of toughened nylon/barrier resin/tough-ened nylon. (From Wood [186] used with permission of the American Chemical Society Rubber Division.)...

Figure. 5.100. A glass fiber reinforced polyamide with elastomer was cryoultrathin sectioned with an older diamond knife, due to the presence of the glass fibers, and images of the sections unstained (A) and stained with RUO4 vapor (B) showed the dark dispersed phase of the elastomer in the latter and the irregularly shaped mineral particles in the former. The broken glass fibers are the larger structures in the image. At higher magnification (C), the dark dispersed phase is more clearly resolved as fairly round particles about 0.2/tm in diameter. (From Wood [186] used with permission of the American Chemical Society Rubber Division.)...

B.A. Wood, Technical Papers—American Chemical Society, Rubber Division, Spring Technical Program, 161st, Savantuth, GA, Apr. 29-May 1, 2002, (ACS Washington DC, 2002), p. 669. 

Figure 9 Copolymerization of butadiene and styrene in different solvents at 50 °C. From Hsieh, H. L. Glaze, W. H. Rubber Chem. Technol. 1970,43, 22-73 reprinted by permission of the American Chemical Society/Rubber Division.

G.L. Baumgartner in Proceedings of the 4 Rubber Modified Asphalt Conference, Akron, OH, USA, 7-8 May 2009, American Chemical Society Rubber Division, Washington, DC, USA, Paper No.2. 

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