國立虎尾科技大學 |

Physical chemistry of polymer solutions = theoretical background /

Record Type:	Language materials, printed : Monograph/item
Title/Author:	Physical chemistry of polymer solutions/ Kenji Kamide, Toshiaki Dobashi.
Reminder of title:	theoretical background /
Author:	Kamide, Kenji.
other author:	Dobashi, Toshiaki.
Published:	Amsterdam ;Elsevier Science BV, : 2000.,
Description:	1 online resource (xxviii, 646 p.) :ill. :
Notes:	Includes index.
Subject:	Polymer solutions. -
Online resource:	http://www.sciencedirect.com/science/book/9780444894304
ISBN:	9780444894304

Physical chemistry of polymer solutions = theoretical background /
Kamide, Kenji.

Physical chemistry of polymer solutionstheoretical background /[electronic resource] :Kenji Kamide, Toshiaki Dobashi. - 1st ed. - Amsterdam ;Elsevier Science BV,2000. - 1 online resource (xxviii, 646 p.) :ill.

Includes index.

Fundamentals of thermodynamics -- Ideal and non-athermal solutions -- Lattice theory -- Phase equilibria -- Colligative properties and virial coefficients of polymer solutions -- Statistical mechanics and excluded volume of polymer chains -- Light scattering -- Hydrodynamic properties -- Molecular weight and molecular weight distribution.

This book is mainly concerned with building a narrow but secure ladder which polymer chemists or engineers can climb from the primary level to an advanced level without great difficulty (but by no means easily, either). This book describes some fundamentally important topics, carefully chosen, covering subjects from thermodynamics to molecular weight and its distribution effects. For help in self-education the book adopts a "Questions and Answers" format. The mathematical derivation of each equation is shown in detail. For further reading, some original references are also given. Numerous physical properties of polymer solutions are known to be significantly different from those of low molecular weight solutions. The most probable explanation of this obvious discrepancy is the large molar volume ratio of solute to solvent together with the large number of consecutive segments that constitute each single molecule of the polymer chains present as solute. Thorough understanding of the physical chemistry of polymer solutions requires some prior mathematical background in its students. In the original literature, detailed mathematical derivations of the equations are universally omitted for the sake of space-saving and simplicity. In textbooks of polymer science only extremely rough schemes of the theories and then the final equations are shown. As a consequence, the student cannot learn, unaided, the details of the theory in which he or she is interested from the existing textbooks; however, without a full understanding of the theory, one cannot analyze actual experimental data to obtain more basic and realistic physical quantities. In particular, if one intends to apply the theories in industry, accurate understanding and ability to modify the theory are essential.

ISBN: 9780444894304

Source: 120966:128104Elsevier Science & Technologyhttp://www.sciencedirect.comSubjects--Topical Terms:

579935
Polymer solutions.
Index Terms--Genre/Form:

554714
Electronic books.

LC Class. No.: QD381.9.S65 / K345 2000eb

Dewey Class. No.: 547/.70454

National Agricultural Library Call No.: QD381.9.S65 / K345 2000

Physical chemistry of polymer solutions = theoretical background /
LDR:03324cam 2200361Ia 4500 001 691374
003 OCoLC
005 20111122091036.0
006 m d
007 cr cn|||||||||
008 120103s2000 ne a o 001 0 eng d
020 $a 9780444894304
020 $a 0444894306
029 1 $a NZ1 $b 12432830
035 $a (OCoLC)162130684
035 $a ocn162130684
037 $a 120966:128104 $b Elsevier Science & Technology $n http://www.sciencedirect.com
040 $a OPELS $b eng $c OPELS $d YDXCP $d OKU $d OCLCQ
049 $a TEFA
050 4 $a QD381.9.S65 $b K345 2000eb
070 $a QD381.9.S65 $b K345 2000
072 7 $a QD $2 lcco
082 0 4 $a 547/.70454 $2 22
100 1 $a Kamide, Kenji. $3 812745
245 1 0 $a Physical chemistry of polymer solutions $h [electronic resource] : $b theoretical background / $c Kenji Kamide, Toshiaki Dobashi.
250 $a 1st ed.
260 $a Amsterdam ; $a New York : $b Elsevier Science BV, $c 2000.
300 $a 1 online resource (xxviii, 646 p.) : $b ill.
500 $a Includes index.
505 0 $a Fundamentals of thermodynamics -- Ideal and non-athermal solutions -- Lattice theory -- Phase equilibria -- Colligative properties and virial coefficients of polymer solutions -- Statistical mechanics and excluded volume of polymer chains -- Light scattering -- Hydrodynamic properties -- Molecular weight and molecular weight distribution.
520 $a This book is mainly concerned with building a narrow but secure ladder which polymer chemists or engineers can climb from the primary level to an advanced level without great difficulty (but by no means easily, either). This book describes some fundamentally important topics, carefully chosen, covering subjects from thermodynamics to molecular weight and its distribution effects. For help in self-education the book adopts a "Questions and Answers" format. The mathematical derivation of each equation is shown in detail. For further reading, some original references are also given. Numerous physical properties of polymer solutions are known to be significantly different from those of low molecular weight solutions. The most probable explanation of this obvious discrepancy is the large molar volume ratio of solute to solvent together with the large number of consecutive segments that constitute each single molecule of the polymer chains present as solute. Thorough understanding of the physical chemistry of polymer solutions requires some prior mathematical background in its students. In the original literature, detailed mathematical derivations of the equations are universally omitted for the sake of space-saving and simplicity. In textbooks of polymer science only extremely rough schemes of the theories and then the final equations are shown. As a consequence, the student cannot learn, unaided, the details of the theory in which he or she is interested from the existing textbooks; however, without a full understanding of the theory, one cannot analyze actual experimental data to obtain more basic and realistic physical quantities. In particular, if one intends to apply the theories in industry, accurate understanding and ability to modify the theory are essential.
588 $a Description based on print version record.
650 0 $a Polymer solutions. $3 579935
650 0 $a Chemistry, Physical and theoretical. $3 557299
650 1 7 $a Polymeren. $2 gtt $3 812747
650 1 7 $a Oplossingen (chemie) $2 gtt $3 812748
650 1 7 $a Molecuulgewicht. $2 gtt $3 812749
650 1 7 $a Hydrodynamica. $2 gtt $3 655496
650 1 7 $a Lichtverstrooiing. $2 gtt $3 812750
650 1 7 $a Statistische mechanica. $2 gtt $3 812751
650 1 7 $a Viriaalco�efficienten. $2 gtt $3 812752
650 1 7 $a Fase-evenwichten. $2 gtt $3 812753
650 1 7 $a Roostermodellen. $2 gtt $3 812754
655 4 $a Electronic books. $2 local $3 554714
700 1 $a Dobashi, Toshiaki. $3 812746
856 4 0 $3 ScienceDirect $u http://www.sciencedirect.com/science/book/9780444894304
938 $a YBP Library Services $b YANK $n 2614579
994 $a C0 $b TEF