Death notice

Robert Simha
1912 - 05 June 2008
Case Western Reserve University
Cleveland, OH

Submitted by Alex Jamieson

Published on 25-June-2008

Robert Simha, pioneer in polymer physics, and Emeritus Professor of Macromolecular Science & Engineering at Case Western Reserve University, passed away peacefully on 5 June 2008 at his residence in Cleveland Heights, Ohio.

Born in Vienna, Austria, in 1912, Simha entered the Institute of Theoretical Physics of the University of Vienna in 1930, and graduated with the PhD degree in 1935. His thesis advisors were Hans Thirring and Felix Ehrenhaft. His thesis topic, Contribution to Colloid Hydrodynamics , was influenced by discussions with Eugene Guth, a theoretical physicist working with a dynamic interdisciplinary group, directed by Herman Mark, studying the properties of polymers. Simha was set the challenge of extending Einstein's viscosity theory of rigid spheres to higher concentrations and to ellipsoidal and flexible solutes. Thus began an influential line of enquiry, with publications extending until 1981, and involving collaborations with S. G. Weisberg, Jacques L. Zakin, and Leszek Utracki. Simha s contributions were recognized by the award of the Bingham Medal of the Society of Rheology in 1983.

In 1938, Simha obtained a postdoctoral fellowship at Columbia University sponsored by Victor K. La Mer. There, ground‑breaking research was initiated with Elliott Montroll on a kinetic theory of chain degradation processes. In 1942, Simha obtained a faculty position at Howard University and began a third seminal research direction with Herman Branson on the kinetics and statistics of copolymerization chain reactions. Next, he moved to the National Bureau of Standards in 1945, and developed a theory of depolymerization with Leo Wall, experimentally confirmed by Sam Madorsky, accounting for behaviors varying from random scission to unzipping with high monomer recovery. After this, he went to New York University's Department of Chemical Engineering, where a longstanding interest in statistical thermodynamics was put into practice, deriving with a student, Stuart Hadden, the equations of state of linear and branched paraffins, using the cell theory of Ilya Prigogine. This work became the starting point for major explorations of the configurational thermodynamics of macro and small molecules. During this time also, with Harry Frisch, and Fritz Eirich, a theory of adsorption of long chains from solution was developed.

In 1958, Robert moved to the University of Southern California. Collaboration with Ray Boyer, on the equilibrium and non‑equilibrium properties of polymer melts and glasses, resulted in widely‑used correlations between the glass transition temperature and thermal expansivity. However, the most significant development was the derivation of the cell‑hole theory of chain molecule liquids with Thomas Somcynsky. The theory correctly describes the temperature and pressure effects on specific volume (PVT), as well as on the lattice vacancy fraction, i.e., the free volume content.

In 1968 Robert Simha joined Case Western Reserve University. Collaboration with Alexander Silberberg and a student, Robert H. Lacombe, focused on the kinetics of cooperative processes in macromolecular structures, synthetic or biological. Anh Quach constructed a pressure dilatometer, performed careful PVT measurements on two polymers, in melt and glass, demonstrating for the first time quantitative agreement with the cell‑hole theory. The results stimulated international research, extending the success to over 50 polymers and their mixtures. Simha had notable collaborations with Raj K. Jain (India) extending the hole‑cell theory to multicomponent systems, with Eric Nies and Alex Stroeks (The Netherlands) to phase equilibria, with Hankun Xie (China) and Chul B. Park (Canada) to gas solubility, with Leszek A. Utracki to extrusion‑foaming of polymers, and the molecular dynamics of molten and glassy polymeric nanocomposites.

An approach to non‑equilibrium properties via the computed hole fraction was developed. With John McKinney, the partial freeze‑in of free volume at Tg was demonstrated, with Leszek A. Utracki the relationship between the hole fraction and viscous flow was investigated, and with John G. Curro and Richard E. Robertson, the kinetics of volume relaxation explored. Connections between hole fraction and positronium annihilation lifetime spectroscopy were studied with John McGervey, Alex M. Jamieson, Gianni Consolati and Franz H. Maurer. A theory of elastic constants of polymer glasses with Elisabeth Papazoglou, involved the stress dependence of free volume.

Up to the last day of his life Robert Simha was a productive and original scientist, and a cherished member of the polymer physics community, enlivening scientific discussions and social events with his wry sense of humor and superb knowledge of classical music. Throughout his professorial career, until mandatory retirement in 1983, he was a gifted and highly popular teacher. His achievements were recognized by the award of the Polymer Physics Prize of the American Physical Society in 1981.

Written by A. M. Jamieson, I. Otterness and L. A. Utracki

 

Add a comment or reminiscence below on Robert Simha (maximum 750 words):
Your name
Your email
Your city
Your state
Your country	Afganistan Albania Algeria American Samoa Andorra Angola Anguila Antarctica Antigua and Barbuda Argentina Armenia Aruba Australia Austria Azerjaijan Bahamas Bahrain Bangladesh Barbados Belarus Belguim Belize Benin Bermuda Bhutan Bolivia Bosnia and Herzegovina Botswana Bouvet Island Brazil British Indian Ocean territory Brunei Darussalam Bulgaria Burkina Faso Burundi Cambodia Cameroon Canada Cape Verde Cayman Islands Central African Republic Chad Chile China Christmas Island Cocos (Keeling) Islands Colombia Comoros Congo Cook Islands Costa Rica Cote d'Ivoire (Ivory Coast) Croatia (Hrvatska) Cuba Cyprus Czech Republic Denmark Djibouti Dominica Dominican Republic East Timor Ecuador Egypt El Salvador Equatorial Guinea Eritrea Estonia Ethiopia Falkland Islands Faroe Islands Fiji Finland France French Guiana French Polynesia French Southern Territories Gabon Gambia Georgia Germany Ghana Greece Greenland Grenada Guadaloupe Guam Guatamala Guinea-Bissau Guinea Guyana Haiti Heard and McDonald Islands Honduras Hong Kong Hungary Iceland India Indonesia Iran Iraq Ireland Israel Italy Jamaica Japan Jordan Kazakhstan Kenya Kiribati Korea (north) Korea (south) Kuwait Kyrgyzstan Laos Latvia Lebanon Lesotho Liberia Liechtenstein Lithuania Luxembourg Macau Macedonia Madagascar Malasia Malawi Maldives Mali Malta Marshal Islands Martinique Mauritania Maurritius Mayotte Mexico Micronesia Moldova Monaco Mongolia Montserrat Morocco Mozambique Mynamar Namibia Nauru Nepal Netherland Antilles Netherlands New Caledonia New Zealand Nicaragua Niger Nigeria Niue Norfolk Island Northern Marianas Islands Norway Oman Pakistan Palau Panama Papua New Guinea Paraguay Peru Philippines Pitcairn Poland Portugal Puerto Rico Qatar Reunion Romania Russian Federation Rwanda Saint Helena Saint Kitts and Nevis Saint Lucia Saint Pierre and Miquelon Saint Vincent and the Grenadines Samoa San Marino Sao Tome and Principe Saudi Arabia Senegal Seychelles Sierra Leone Singapore Slovak Republic Slovenia Solomon Islands Somalia South Africa South Georgia and the South Sandwich Islands Spain Sri Lanka Sudan Suriname Svalbard and Jan Mayen Islands Swaziland Sweden Switzerland Syria Taiwan Tajikistan Tanzania Thailand Togo Tokelau Tonga Trinidad and Tobego Tunisia Turkey Turkmenistan Turks and Caicos Islands Tuvalu Uganda Ukraine United Arab Emirates United Kingdom United States of America Uruguay Uzbekistan Vanuatu Vatican City Venezuela Vietnam Virgin Islands (British) Virgin Islands (US) Wallis and Futuna Islands Western Sahara Yemen Yugoslavia Zaire Zambia Zimbabwe

Current comments and reminiscences on Robert Simha:

For a youngsters development, it is important to come across the path of at least a few individuals one can strongly identify with; people regarded by the youngster as a role model. For me, Prof. Simha was one of these people. When I think about it, the reason for this is twofold. Of course, he served as an example for me from a scientific point of view. But moreover, and maybe of greater importance to me, due to his sincere and profound interest in other persons drives and motivations, he served as an example for me from personal point of view.

As a Dutch youngster, due to Prof. Simhas Dutch connection (DSM, Eindhoven University of Technology) I was in the lucky opportunity to spend half a year as a research student at CWRU under the wings of Prof. Simha and Prof. Jamieson. The research topic was of an experimental nature and related to the monitoring of the change of free volume of a curing epoxy system by fluorescence. At that time however, I also came in contact with the so‑called Simha‑Somcynsky equation of state model and with efforts to apply this model in a broader sense; a topic that really intrigued me because of some theoretical challenges.

As an example of his personal warmth serves Christmas evening at Cleveland Heights in 1985. To my surprise, my visiting brother and I were invited by Prof. Simha and his charming wife Genevieve to enjoy the classic turkey Christmas diner at their home. You can not leave these youngsters alone as Christmas eve, can you? During a blizzard that a Dutch guy never experienced before, we were picked up by Prof. Simha in complete winter outfit in his classical old Volvo. We hardly made it through the snow. It took us more than an hour in this cold and bad weather to reach his house enjoying their warmest hospitality.

Back in Holland, inspired by my Cleveland period but also by the enthousiasm and professionalism of Erik Nies, I decided to devote a Ph.D.study on the description of phase equilibria of polymer systems by an extended version of the Simha‑Somcynsky equation of state model. Research was carried out in the group of Prof.Lemstra at the Eindhoven University of Technology. During that period, under direct supervision of Erik Nies, there was a rather frequent contact with Prof. Simha resulting in a rather successful extension of this theory and a superior prediction of phase behavior of polymer solutions and blends. Prof. Simha acted as promotor of my Ph.D. thesis.

During my later period at DSM, we kept contact and Prof. Simha visited us at DSM on several occasions. Discussions with him were always very fruitful and his critical remarks were highly appreciated; I speak also on behalf of the other DSM colleagues.

He kept interested in my personal life, visited us at home several times and informed about my children and parents.

I will remember Prof. Simha as a warm, friendly and father‑like person. I owe him a lot; he contributed to my identity.
Alexander Stroeks, Valkenburg, Netherlands