Suche löschen...
The photographic news
- Bandzählung
- 6.1862
- Erscheinungsdatum
- 1862
- Sprache
- Englisch
- Signatur
- F 135
- Vorlage
- Hochschule für Grafik und Buchkunst Leipzig
- Digitalisat
- Hochschule für Grafik und Buchkunst Leipzig
- Digitalisat
- SLUB Dresden
- Lizenz-/Rechtehinweis
- Public Domain Mark 1.0
- URN
- urn:nbn:de:bsz:14-db-id1780948042-186200003
- PURL
- http://digital.slub-dresden.de/id1780948042-18620000
- OAI-Identifier
- oai:de:slub-dresden:db:id-1780948042-18620000
- Sammlungen
- Fotografie
- LDP: Historische Bestände der Hochschule für Grafik und Buchkunst Leipzig
- Bemerkung
- Seite 1-72 fehlen in der Vorlage. Vorlagebedingter Textverlust.
- Strukturtyp
- Band
- Parlamentsperiode
- -
- Wahlperiode
- -
- Bandzählung
- No. 201, Juny 11, 1862
- Digitalisat
- SLUB Dresden
- Strukturtyp
- Ausgabe
- Parlamentsperiode
- -
- Wahlperiode
- -
-
Zeitschrift
The photographic news
-
Band
Band 6.1862
-
- Ausgabe Ausgabe 73
- Ausgabe Ausgabe 85
- Ausgabe Ausgabe 97
- Ausgabe Ausgabe 109
- Ausgabe Ausgabe 121
- Ausgabe Ausgabe 133
- Ausgabe Ausgabe 145
- Ausgabe Ausgabe 157
- Ausgabe Ausgabe 169
- Ausgabe Ausgabe 181
- Ausgabe Ausgabe 193
- Ausgabe Ausgabe 205
- Ausgabe Ausgabe 217
- Ausgabe Ausgabe 229
- Ausgabe Ausgabe 241
- Ausgabe Ausgabe 253
- Ausgabe Ausgabe 265
- Ausgabe Ausgabe 277
- Ausgabe Ausgabe 289
- Ausgabe Ausgabe 301
- Ausgabe Ausgabe 313
- Ausgabe Ausgabe 325
- Ausgabe Ausgabe 337
- Ausgabe Ausgabe 349
- Ausgabe Ausgabe 361
- Ausgabe Ausgabe 373
- Ausgabe Ausgabe 385
- Ausgabe Ausgabe 397
- Ausgabe Ausgabe 409
- Ausgabe Ausgabe 421
- Ausgabe Ausgabe 433
- Ausgabe Ausgabe 445
- Ausgabe Ausgabe 457
- Ausgabe Ausgabe 469
- Ausgabe Ausgabe 481
- Ausgabe Ausgabe 493
- Ausgabe Ausgabe 505
- Ausgabe Ausgabe 517
- Ausgabe Ausgabe 529
- Ausgabe Ausgabe 541
- Ausgabe Ausgabe 553
- Ausgabe Ausgabe 565
- Ausgabe Ausgabe 577
- Ausgabe Ausgabe 589
- Ausgabe Ausgabe 601
- Ausgabe Ausgabe 613
- Register Index 619
-
Band
Band 6.1862
-
- Titel
- The photographic news
- Autor
- Links
- Downloads
- Einzelseite als Bild herunterladen (JPG)
-
Volltext Seite (XML)
1862. tn’s shor her hare iy of his Kilbur, s has w It.I.N portnit; Is. It I-paintdd a numbd a certain ! entitle) limber d genenl that Mt d he mit Axe? Paul" ilso send 183,21 is in th 1 reatmett ■ting ap ry ph# carta d slovenly rame. (I by • ore tba . in # f photr- !. Ther rom wan at silence the most ' Messis have sur mount d ng sud tebly am 1 not • ■y beattt i cons/ ed in* Chui* hose 4 $ a 14 place" of ligb to ha" inds o0 md ot). : guar® io bette reoscop" : ancie® ommed® peculist luce int) t salien’ s, of an July 11,1862.] THE PHOTOGRAPHIC NEWS. 331 elongated prismatic form, preferably deposit themselves, and finally completely cover them. We believe that this body is an isomeric modification of aldehyde, known under the name of metaldehyde. For the analogy of the characteristics we have remarked completely confirm this opinion. Thus, the formation of the crystals of metaldehyde is greatly favoured by the asperities of metallic fragments, such as zinc and iron turnings, and heat volatilizes without melting them. But a very remarkable phenomenon, which we have not always succeeded in repro ducing, and which shows the identity of these two bodies is, that the vapour arising from the volatization of the crystals which gather together in the air, condense under the form of light, snowy, flakes. In winter, we sometimes remark, when these collodions are exposed to very severe cold, that there is formed in the centre of the liquid long and thin transparent needles, resembling frozen water. We have found it impossible to isolate this substance from the collodion, as it appears to melt as soon as the liquid is disturbed; and if we happen to succeed in isolating it, it disappears by evaporating imme diately it comes into contact with the air. This substance must be elaldehyde, another modification of aldehyde, which is found whenever there is an oxygenation of ethereal substances. The formation of similar prismatic needles had been pre viously observed in old collodions, but they were regarded as being nitrate of potassa, produced at the expense of the nitric acid, attributed to the decomposition of the pyroxyline. This mode of regarding it does not explain the properties of the body in question. Besides, we have remarked these crystallizations in collodions which contained no iodide of potassium. Those of iodide of ammonium, zinc, cadmium, iron, and others of organic bases, produce just the same phenomenon. We conclude by remarking, that it is an error to intro- duce any metal whatever into collodion, with the view of rendering it colourless, and making it keep longer. In this Case, the reactions are hidden from the eye, but they take place just the same, and even more rapidly, as we have already stated. Besides, it is from want of experience that we believe it so absolutely necessary to have the collodion colourless, in order for the photographic operations to proceed successfully, especially when we make of it a generality which must be extended to all modes of working. In most cases it is, in fact, advantageous that the collodion be not too much foloured by iodine, when the development of the picture is affected by means of a weak reducing agent, such as gallic 1 pyrogallic acid; but, on the other hand, there is an Nsonvenience—an obstacle even, when the development is ducted by sulphate of iron, a case in which the best speci- "ens are those obtained with a collodion reddened by the ^dition of a considerable portion of iodide, and a weak and "id sensitizing bath. There is a very material difference between a collodion Taddened by decomposition, and another reddened by the Edition of free iodine. In the latter case it loses none of its sensibility when its normal state is that of slowly becoming Colourless. Then, whatever be the quantity of iodine added within the limits of 1866 to 186, it always tends to become coloyrless v hen sheltered from the influence of light. We often make use of collodions to which we add a very ?inong dose of free iodine, and still obtain as much sensi- lity as when these products are neutral; but it is then neces- w; to employ weak and acid nitrate of silver baths, prepared Nt commercial nitrate of silver, crystallized; while with a ALtral and concentrated bath, the obtaining of an animated Ject will be impossible, however long the exposure may "8 prolonged. wodine added to collodion does not diminish its sensibility witl, the silver bath is prepared in accordance with it, but extr. a neutral or alkaline bath the impression will be emely slow. The same thing takes place when the collodion is neutral, and the silver bath possesses an acid reaction. But when we employ iodine in the collodion, and the sensitizing bath is feeble, and contain a quantity of free nitric acid, in equivalent proportion to the acid dis engaged from the article by the free iodine, we then obtain the maximum of sensibility, with weak and acid products, which offers undoubted advantages. Free iodine in collodion produces not only nitric acid by its contact with nitrate of silver, but it must be remembered that the alcohol and ether, which also moisten the film at the time of its immersion, tend to complicate the pheno menon by giving rise to nitrous or nitric ether, which the iodine decomposes by oxydizing at the expense of the oxygen of the nitric acid, a part of which is thus trans formed into aldehyde and aldehydic acid, ether properly so called, which was united to the compounds of nitrogen. The elements resulting from this reaction, and which are principally nitrous ether, iodous acid, and hyperiodic acid, act in their turn upon the silver of the nitrate, with which they form special salts, the presence of which very probably modifies the sensibility of the collodion film, to the degree of communicating to it the precious qualities it possesses when there exists in the collodion a quantity of iodine limited to the circumstances. For collodions reddened by iodine we must employ acid baths ; but in place of adding nitric acid to the solution, or of preparing the latter with crystallized nitrate, as is gene rally done, we infinitely prefer to employ pure fused nitrate of silver, to which, after it is dissolved in water, a certain quantity of alcoholic solution of iodine. To this end we add the iodine solution drop by drop, until the precipitate of iodide remains palpably in excess. The sensitizing bath is in this manner saturated with iodide of silver, at the same time there occurs a formation of special products of a strong and penetrating odour, the presence of which is extremely favourable to the luminous impression. Among these products we have identified particularly the presence of iodic and hyperiodic acids, which greatly parti cipate in the properties of chloric and hyperchloric acid, and exercise upon the collodion film an action analogous to that of the hyperchlorite of lime upon positive proofs when it is introduced into the toning bath : that is, these acids keep the collodion film clear and clean, without diminishing the sensibility; on the contrary, they seem to augment it considerably, either because of the dilatation they produce in the organic film (pyroxyline), or on account of the salts which these acids form with the silver of the nitrate bath. [To be continued.) STUDY OF THE WET COLLODION PROCESS. BY B. REYNAUD. Examination of the Principal Chemical Products Em ployed in this Process—RESEARCHES into the various Accidents which Occur in Practice, and upon the Means Employed to Prevent them. The wet collodion process is, undoubtedly, the most exten sively employed in photography, on account of the many advantages it possesses over most other processes. Still, how ever, it is not free from defects, and a very brief experience with it is sufficient to convince us that, although it has undoubted advantages, especially as regards rapidity, it is also, like them, liable to many causes of failure. To study these causes, and to overcome them, has appeared to me a profitable task ; and it is in this hope that I have collected and classified the instructions which have furnished me with the method I now practise. This task will, then, form a methodical and classified pic ture of the numerous failures which frequently occur to the operator, especially when he first begins the practice of this process, and has not acquired sufficient experience to be able to recognize immediately, by habit, the disturbing causes to which he must attribute the accidents that occur.
- Aktuelle Seite (TXT)
- METS Datei (XML)
- IIIF Manifest (JSON)