Tungsten—Its history, geology, ore dressing, metallurgy, chemistry

Tungsten—Its history, geology, ore dressing, metallurgy, chemistry, analysis, applications, and economics. Laurence S. Foster. J. Chem. Educ. , 1948...
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TUNGSTEN-Its History, Geblogy, Ore DresPing, Metallurgy. Chemistry, Analysis, Applications, and ~conomi& K. C. Li, Commodity Exchange, New York, and Cbung Yu Wong, Columbia University. Reinhold Publishing Corp., New York, 1947. Second Edition. A. C. S. Monograph No. 94. xx 430 pp. 15 X 23 om. $8.50.

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WEREIT NOT for a recent editorial in Chemical and Engilzeering

News1this reviewer might not have expressed so freely the dim view he holds of certain aspects of the revision of this book. It is particulady important, he believes, to call to the attention of the Board of Editors of the A. C. S. Monographs that be finds that they me not exercising a suffioiently vigilant editorial control over the books issued under their aegis. The deficiencies that one may reasonably forgive in the first edition have been accentuated by revision, whereas the reader normdly would expect the reverse to happen. Despite its poor editing, however, this hook remains the definitive work on that most strategic element, tungsten. When the publishers are faced with the decision as to whether to issue a third edition, however, it is respectfully urged that much rewriting of the present edition be effected. The senior author was the discoverer of the extensive Chinese tungsten deposits in 1911,a faot that is brought but in an interesting personal account in the Foreword, and since the time of that most important accident, has been identified with the exploitation of Chinese ores. Tungsten has physd a decisive part in two world wars, primarily as an alloying element far steels. I t isless wall known that projectiles containing tungsten carbide cores, used by Rommel in North Africa, were what nearly finished the British in the early days of the Wsr. Similar antitank, armor-piercing tungsten carbide projectiles were feverishly developed in the United States and England in time to play an important part in the defeat of Von Rundstedt's Army in the Battle of the Bulge. Compared with the tonnages required for such applications, the more familiar use of tungsten for lamp filsments requires only a very small amount, less than 100 tons a year. Recognizing the strategic importance of tungsten, the authors propose, in one of the new sections added in the revisionApendix 111, "Post-War Tungsten Situation7'-that an International Tungsten Pnoducers Research Association he organized and recommend that, %ny discovery made hy the Association should be public property and the results of all research should be published for the benefit of members." As tbosc who are familiar with the first edition are aware, this monograph is a major source hook of information concerning tungsten. The emphasis, however, is not on chemistry. Rather it is on geology, ore dressing, economics, and especially metallurgy. In the preparation of the second edition, data from many recent publications touching on these aspects have been incorporated. For recent information on the chemistry of tungsten, on the other hand, it is disappointing to report that it contains nothing not readily available in the standard handbooks of chemistry cited as references, the latest of which was published in 1933. In the second edition, much of the new material that wss included hag been added bodily with little effort, apparently, to eliminate contradictory statements msde in the first edition. On page 375,to cite only one example of statements that should have been eliminated, several G m a n s are listed as present members of an International Ferra-Tungsten Convention. The twenty pages that are devoted to the topic, "Tungsten Carbides," appear superficislly to he adequate for a book of this soooc. Deficiencies in the treatment. however, are revealed bv

'MURPHY, W. J., Chm. Eng. News.,25,3633(Dec. 8,1947)

close scrutiny. Temperatures are given without mentioning the scale. Strengths are given in kg./mm2 on page 213 and in "psi" on page 216, with no effort to interconvert. The annotated listing of patents is useful only for early work on cementcd carbides, since it contains no references beyond 1933. It is followcd by a. serial list of U. S. patent numbers on the same topic, and this list ends abruptly on June 3, 1941. The thirty odd U. S. patents on cemented carbides issued subsequently are not included. Some of the theories of the structure of cemented tungsten carbides are mentioned, hut not those of Dawihl and Hinnuber published in 1943. Even more surprising, no reference is made to the classic work of Takeda in 1936 on the equilibrium diagram of the W-C-Co system. In the chapter on "Substitution of Tungsten,'' pages 357-358, no mention is made of the adapt* tion by the Germans of vanadium csrhide-titanium carbide tool tips to replace tungsten carbide, a topic discussed in detail in the earlier sections. The usefulness of these sections on cemented carbides, thus, is seriously impaired by the lack of completeness and the rather undigested and unconsolidated manner in which the revision has been accomplished. Readers have a right to expect morein books that have been "revised." Other sections could he taken apart and their deficiencies &milarly revealed, but no additional purpose would be served. Tmoeraohical errors. like the soelline of zireoniurnin on Dare

modernity in the chemical concepts. No attempt is made to correlate the very complex ohemical behavior of tungsten with the structures of its compounds. No advantage has been taken of the rapid strides made in recentyeam in the theories of inorganic chemistry. The reviewer would not turn to this Kook with confidence of finding upto-date answers either of a factual nature or of theoretical interpretations. This should not be true of A. C. S. monographs. LAURENCE S. FOSTER W o ~ n ~ o aA n ~ s e n *L ~ .~ s o ~ ~ ~ o s p W ~ r ~ n r o wM a ,* s a * c a o s m ~ s

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PARAMAGNETIC RELAXATION

C. J. Gorter, hofessar of Experimental Physics in the University of Leyden (Netherlands). Elsevier Publishing Company, Inc., 127 pp. 14.5 X 20.5 cm. $2.25. New York, 1947. vii

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Paramagnetic relaxation is shown by the frequency dependence of paramagnetism in transition group substances, especially a t low tempefatures. One never knows when some less familiar branch of physics will emerge a s a useful tool in chemistry, hut certainly the text of this carefully written and scholrtrly little book by Professor Gorter will appeal to no more than a handful of chemists in the world. The recent more speetaeuler advances in nuclear magnetism are not a part of Professor Gorter's subject. But surely this little book should have an honored place in every library in the land; not so much for its subject matter, hut for how it came to he written. It is a monument to those men who kept alive a slender thread of learning when almost all the other attributes of civilization seemed failing. Your reviewer takes the liberty of quoting the first paragraph in Professor Gorter's Preface: The greater part of the present monograph was written during the winter of 1944-45 known in Holland as "starvation winter." At that time the denselv uouulated Western Dart of the Netherlands was cut off from c h i Sbuth by the fighthg-line and from the East by a broad zone of German military posts.