KUDILYA, Ye.S.; DEKIYANCHUK, A.S,,; RYABUSHKO, O.P. local spectrum analysis of weld joint@ and metal alloys. Artow. svar. 10 n0.5:49-55 3~-O 157. O(IRA 10:12) 1. Ordena Trudovogo Krannogo Znamoni Institut alektroavarki in. Te.O. Patona All USSR. (Spectrum analysis)  MN'TANCHUX, A.S.; XUIMLITA. Te.S. 2eculiarities of the woectral deterniiiiation of' carbon, phosphorus, and sulfur-in metal alloys* Tiz.abore noo4:535-338 . 158. (MIRL 12:5) 1. Ordena Trudovogo Kmanogo Znaymi Inatituta elektroavarki iment akademika Ye..O.Patona AN USSR. (Carbon--Spectra) (safur--spectra) (Phosphorus--Spectra)  AUTHOR: Dem I yanS1ik"-1.----- 1.30V-125-58-8-7/!6 j~ITLE: Simultaneous retermination of Carbon and Other Impurities in Steel and Cast Iron by the Spectral Method (Odmovremennoye opredeleniya ugleroda i drugikh primesey v s-balyakh i chugunakh spektrallnym metodom) PERIODICAL: AvtomaticheskEtya svarka, 1958, Nr 8, PP 41-45 (USSR) ABSTRACT: Information is presented on a method of simultaneous spectral analysis of the contert of carbon and other impurities in steel or cast iron, developed by the author. An analysis of cast iron standard "DG-l" are-generator (high frequency) or "1G-2" condensed spark generator can be used as a source for excitation of the spectrum. The chosen technology permits the determination of the silicon, magnesium, manganese and carbon content in cast iron by a single spectrum photograph. The method can also be used to check the distribution of these elements in weld joints of gray and high-resistance iron. There are 5 graphs, 3 tRbles and 3 Soviet rE-ferences. Card 112  SOV-125-58-8-7/16 Simultaneous Determination of Carbon and Other Impurities in Steel and Cast Iron by the Spectral Method ASSOCIATION: Institut elektrosvarki imeni Ye.O. Patona, AN USSR (Institute of Electric Welding imeni Ye.O. Paton, AS 11krSSF_) SUBMITTED: May 8, 1958 I. Steel--Properties 2. Cast iron--Properties 3. Spectrum analyzers--AppliciLtions Card 2/2  N DZK'rACHU, A.S. A Using o"n-dispersion spectrographs in determining the carbon content in high-alloyed steels Lvith aummary in English). Inth.-fiz. shur. no. 9:116-118 6 958. (KIRA 11:10) 1. Institut alaktroevarki AN USSR, g. Kiyev. (Steel alloys--Testing) (Spectrometry)  SCV-125-58-10-11/12 AUTHORS: De*anchuk, A.S. and Ryabushko, O.P. TITLE.- spectral a Y-M,-R,of High-Silicon Aluminum Alloys and Weld Joints (Spektrallnyy analiz vysok.okrc-mnistykh alyuminiyevykh splavov i svarnykh shvov) PERIODICAL: Avtomatichaskaya, svarka, 1958, Nr 10, pp 86 - 89 (U3SR) ABSTRACT.~. Information is presented on a method Of SPOCtral analysis to determine the amount of basic alloying edmixtures in high-silicon aluminum alloys and weld joints with excita- tion of the spectrum by high frequency discharge. It was stated that a high silicon content (6 -- 15 ~) did not affect the results of determining other admixtures. The spectral analysis of aluminum alloys of different chemical composition is possible with the use of a unique standard system. The error factor in the suggested method did noi exceed + for all elements contained in the analyzed Card 1/2 specimen.  A. ~JOV-125-58-3.0-11/12 Spectral Analjsis of High-Silicon Aluminum Alloys and ')Veld Joints There are 3 graphs, 1 table and 5 Soviet references. ASSOCIATION; Institut elektrosvarki imeni Ye.O. Patona (Institute of Electric Welding imeni Ye.O. Paton) SUBMITTED: June 16, 1958 1. Aluminum alloys--Welding 2. Aluminum alloys--Spectrographic analysis 3. Welds--Spectrographle analysis 4. High freTuency discharges Card 2/2  DW I TANGMK, A, 5, Using spectrum ajwlysis for quantitative daterminntion of minor content of boron, arsenic, tallurivm, and phosphorus in stools. Inzh.-fiz.zhnr. no.10:88-93 0 156* (MIRA 11:11) 1. Inatitut slaktroevarki imeni Te.0. Patona AN USSR. g.Kiyav. (Steal alloys--Testing) (S~)octrum analyt3is)  AUTEOR: Demlyanchlik, A.S. TITLE: PERIODICAL: ABSTRACT: 3OV/125-58-11-5/16 -ftWM1%YffflVt*1`"6'~ ~~_'Nii;on in Steel with the ';Jse of a Styloscope (Opredeleniye ugleroda v stalyakh s pomoshchlyu sti-loskopa) ASSOCIATION: SUBMITTED: Avtomaticheskaya svarks, 1958, Nr 11, PP 37-39 (USSR) The author developed a new method to determine carbon content in steel and weld joints by spectral analyais with the use of the "SL-Y styloscope. The method is described in detail and technological recommendations for the excitation and obser- vation of' the carbon spectrum are given,, )ata obtained by comparison of chemical and styloscopical analyses of the carbon content in steels and weld joints, shows that the sug- gested method and the chosen way of generator operation (with the autotransformer connection) ensure the necessary accuracys and can be used for express analyses of steel. There are 2 tables, 2 diagrams and 3 Soviet references. Institut elektrosvarki imeni Ye.0. Patona AN USSR (Institute of' Electric Welding imeni Ye.O. Paton, AS UkrSSR) August 27, 1958 Card 1/1  IM I YANCHUK. A. S. Simultaneous determination of carbon and other impurities in steel and cast iron by the spectrum method. Avtom. awtr. 11 no.8-.41-45 Ag 158. (MIRA 11:10) 1.0rdena, Trudovogo Krasnogo Znameni Institut elektrosvarki im. Ye. 0. Patona-AN 'USSR. (Steel-Swtra) (Cast iron-Spectira)  ISMIYANCMM, A.S., kau&. to-Khn. nauk; RYABUSHKO, O.P., inzII. - I ~ I I - Spectr= analysis of high-silicon aluminum alloya and welded joints. Avtom. avar. 11 no.11;86-8910 158- (MIRA 11:12) 1.0rdena, Tradevoge Krasnege Znameni Institut eleIrtronvarki Im. YO.O. Patons, AN USSR. (Aluminan allors-4Pectra) (Ilectric welding-Tenting)  AUTHORS: Demlyanchuk, A.S., Shitman, M.Ye., Rekitmr, X.I. 32-24;-~-25/44 TITLE: The Photographic Method of Analyzing Irom- and Nonferrous Alloys on the Spectrograph ' ISP-51 (Fotograficheskiy metod snali a oheriVkh- i tsvetnykh splarov na spektrografei , ISP-51) PMODICAL: Zavodsicaya Labomtoriya, 1958, Vol 24, Hr 6, pp 751--752 (USSR) ABSTRACT: As the most sanxitive spectral lines of &33m.3i metals ana alkaline earth metals are within the visible spectral. range, it is obvious that the detemination of Al, Or, Ti wW other elements in iron alloys be carried out within this range, for which purpose the spectrograph mentioned in the heading can bo used. The optim= oon- ditions for analyses carried out by means of' the spectrograph mentioned are given as well an a table shovdng the pairs used in the analysis of iron alloys, the entire analysis of the alloys being carried out according to one speotrogram. The spectral anal- ysis of aluminum alloys is carried out under the same conditions wiWthe only difference that the current of' the light aro in somewhat weakened and that the time for prmlous irradiation is reduced. The pairs of lines for determinations of this kind are Card 1/2 also given, and it is said in this connection that concentratiora  The Photographic Method of Analyzing Iron- and 32-24-6-25/44 Nonferrous Alloys on the SpeatrDgraph ISF-51 of 0.001-0.01% of admixtures can be determined, which is suffi- cient to satisfy the demands made by the industry and, in many 09Aess by soientifio work. The method of three etalons was em- ployeas, for which purpose the etalons VA M1 No 2,46 ama the brands AL9 and A UO were used. The relative error is mentioned as amovinting to 4,% and the two methods mentioned are being em- ployed by the plant mentioned, below for serial analyses. There are 2 tablesp and 1 reference, I of which is Soviet. ASSOCIATION: Kiyevskiy mekbanicheskiy zamod. (Uyev Maeldne Plant) 1. Aluminum alloys--Spectrographic m~alysis 2. Iron alloys --Spectrographic ana4sis Metals--Determination Card 2/2  18 (2, 3, 5), 24 (7) SOV/12 5 -59-11- 1.5-3/22 AUTHOI-S: Deml~ancliuk, 44.S,, Candidate of Tocl-inical Sciences,, and Ryabushk(5T~T., Engineer TITLE: Spectrum Analysis of Welded Joints of Duralumin Type Alloys PERIODICAL: Avtomaticheskaya svarka, 195,), Nr 11, pp 9c..92 (USSR) ABSTIZACT: As a source of energy for cbta,~ning speztrum, a high- frequency spark generator was used. The effect of treatment by sparking on the main duralumin, alloying components - copperg magnesium and ~-jlicon - is shown in Fig 1. The influence of magnesium and copner or. the results of spectral determination of manganese and si- licon is illustrated in Fig 2. Duralumin, Type D-16, was researched; its chemica-1 composition after being heat-Treated in three different ways is shown in Table 1. Analytic pairs of lines for welded joints are given in Table 2. References are made to the Drevious works in this field: ~_.17 Ye. S. Kudelya an~ ~.S,, Demlyan- Card 1/2 chuk "Spectrum Analysis of Welded Joints o-l' Some Co r Z~~  -,)V/_-:25--59--'i 1---, 5122 Spectriim Analysis of 71elded Joints of Diiraluniiln '_'yno All-loys, and Aluminum Alloys" -, L ~97 kathors- of --,his article "3pectrum Analysis of High-1) --'I-!! _ )n Alumi-numm Alloys and ',,Welded Jointo'" Z,`7 K.A. Stihhonl~,-) "Spoctrum Analysis r of Steels an~. Ailoy~3", Theri, ar,: ') ,r_-,-h.: tables and 3 Soviet references. ASSOCIATION: Ordena Trudovogo Krasnogo Zna_mteni. Institut elektro- C> svarki imeni Ye.O. Patona AN USSR (Ord,_~r cf the Red Banner of Labor Instlitiite ofi' Elect-1c imeni Ye.0. Paton AS UkrSSR) Card 2/2  SOV/1' 5- 59--:-J/1.- 1-3 (7) 2 5 (5) AUTHOR: eDemlyanchuk, A.S., Ryabushko, O.P. TITLE: S1,ectral Analysis of Welding Seams on Magnesiuri-Aluminum Alloys (Spektrallnyy analiz svarnykh shvov na alyumini- yevo-magniyevykh splavakh) PERIODICAL: Avtomaticheskaya zvarka, Vol 1.'::, Nr 1~31, pp 69-7~7 (USSR) ABSTRACT: The influence of the material of the electrodes on the results of analysis as well as the influence of' thermic treatment (e.g. welding) and of the alloyed components with the aluminum-magnesium alloy AlIg 6 were tested. Fig. 1 shows the comparison of graphite (1), copper and aluminum (3) electrodes. It is evident that a gra- phite-electrode, because of the highest intensity of the spectral lines, is the best one. The experimEntal re- sults (Tab, 1) show that the influence of magnesium on aluminum and the influence of iron on aluminum as well as different temperatures (max. 5000C) do not cause chem- Card 1/2 ical changes in the composition of the alloy AMp 6. The  SOV/1.'r,5-59 Spectral Analysis of Welding Seams on Magnesium-Aluminum Alloys spectroscopic results arc, compared with the chemical analysis, within the limit of error. There are 5 graphs, 3 tables and 1 Soviet reference. ASSOCIATION: Ordena trudovogo krasnogo znanieni institut elektrosvarki im. Ye. 0. Patona AN USSR (Order of the Red Banner of' Labor Institute for Electro-Welding im. Ye. 0. Paton:~ AS UkrSSR) SUBMITTED: November 11, 1958 Card 2/~2  18M 1 SOV/125-12-4-12/18 AUTHOR: Demy Candidate of Technical Scienceeg nitskiy, and Ryabuphko, O.P., Engineers TITLE: New Possibilities to Use the Generator IG-2 for Spectrum Analy!,ip of High Steel-i and Weldings C. PERIODICAL: Avtomatichepkaya evarka, 1959, Vol-l', Nr 4, pp 89-91 (USSR) ABSTaACT: The authorm show a new -et up-for thE! generator IG-2 (Figure 1). An additional reoietance if placed in c-eriep to the analytic intermpace. The bypapp-conden- -er is parallel to the analytic interppace. This-in- creas,ep the energy of the spark dipcharge. Within the generator there is no changing nE!ceqpary. Ya.P. Bellkevich LlRef g warned again-~,t the use of genera- tor IG-2 for an analypi- of lead and brass, because the lead-lines appeared very poor. Even with long expositions (8-10 minutes) the Ppectrum line of a Card -1/2 -ample with 2% lead was too poor to be mea"ured.  SOV/1-25-12-4-12/18 New Poosibilities to Use the Generator IG-2 for Spectrum Analyrip of High Alloyed Steels and Weldingp There are-3 graphP, I cricuit diagram and 2 Soviet references. ASSOCIATION: Ord.ena trudovogo krasnogo znamine in-titute elektro- Pvarki im. .-.0. Patona AN USSR (Institute of the Order of the Red Banner of Labor for 1.3lectric Welding imeni 0. Paton ? AS UkrSSR) Card 2/2  Sn.V/1.25-12-6-12/14 AUTHORS: DeallLnchuk, A.S, Candidate of Technical Sciences and _7yabushko,-7.-P-.-, Engineer TITLE: Quantitative Identification of Boron b:r 7--pectrum in Welded Joints and High Resistance Weld:ing PERIODICAL: Avtomaticheskaya svarka, 1959, Vol 12, Nr 6 (75) pp 89-90 ~ U I,") SR ) ABSTRACT: The author presents a met'-iod to analyze boron by spectrum in welded joints, which has been described by him in an other article (Ref 1 ) . Fe states, that for this method the spark generator IG-2 can be used, The corresponding s,.,iitching is described by the author in (Ref. 2). This method is used extensively in the laboratories of Institut elektrosvarki ironiYe.O.Pato- na (institute of Electric Welding imeni Yen. Paton), There are 2 Soviet references ASSOCIATIOU: Ordena trudovogolcrasnogo znameni institut elekro- Card 1/2  SOV/125-12-6-12/14 Quantitative IdentificatioTi of Boron by 3pectrum in Welded Joints and High Resistance Welding svarki imeniYo.O.Patona I Welding imeni Ye.O. Paton Red Banner of Labor). SUBMITTED: February 20, '1959 AN 11")17R (Tnstitttte of Plectric A", F;T? of tlie PrOer of Vie JTkr9 Card 2/2  5(2) AUTHORS: Demlyanchuk, A S., Kukharenko, Ye. D. SOV/75-14-1-8/32 TITLE: Sp(,ctro-Cliamiciil.Determination of Magnesium and Influence of the lelacnesium Content on the Results of Silicon and Manganese Analysis in Caat Iron (Spektrokhimicheskoye opredeleniye magniya i vliyaniye yego soderzhaniya na rezul'taty analiza kremniya i margantsa v chugunakh) PERIODICAL: Zhurnal analiticheskoy khimii, 1959, Vol 14, Nr 1, pp 45-49 (USSR) A B S T 11A CT.- Cast iron usually contains 0.03 - 0.121P, magnesium, to be found chiefly in compounds. (Ref 1). The authors of the present paper worked out a spectral-anallytical detejzmination method for magnesium in cast iron, by using a high-frequency spark as the energy source to excite the spectrum, (Ref 4). The determinations were carried out on an,&vex:aF,&' dispersion spectrograph of the firm "KhillL,,er" described conditions (Ref 51. An erect copier electroce wa 's employed. The lines Mg 2802.69 - Fe 28M.98 served as analytical line pair. The method elaborated pernits the detE!rminition of 0-005'~L and more of magnesium. The calibratiox. otraialit line of the Card 1/3 deter;-,iciation is characterized by a steep aicent. It is  -Spec tro-Chemical Determination of' %ilairricsiura and ~A)V/751- 1 2 Influence of the Magnesium Content Ul-on tho Results off, _'silicon and Manganese Analysis in Cast Iron illustrated in t1je paper. Reproducibility oil re3ults is good. It was foun,1 that the intensity of t1he si-ectral 1-111ac o.1 silicon and manganose in cast iron stront-,1,y dor,~I!nas on the cast iron content in -..no alternatin- curl-ent - arc discharge. The line intensity o;-.'* these elements increases markedly with gro,.-.,inj, nagnesium content. ',Vi,;h a ma.-nesium content >0.061,'~O' 1 1 2 times ac much sil'.con and frian-anese is found on the bacis of the lines, as is actually contained in the metal. This effect bases on the ftct that magncsiuL~ influences the evaporation process of silicon and manganese in the arc and consequently, also the determination results. When working with a generator IG-2 (condensed spark) and with a high-frequency spark, the magnesium content has no influence upon the spectral determination of S:L and Ka. The working conditions under which the authors carried out their investigations are described. The results of a number of Card 2/3  -Spectro-Chemical Determination of Magnesium and SOV/715-14-1-8/32 Influence of the Magnesium Gdntent Upon the Results'of Silicon and Manganese Analysis in Cast Iron determinations of silicon and. manganese in the presence and in the absence of magnesium according to both methods (with and without generator IG-2) are tabulated. There are 5 fis-uresv 3 tables, and 10 Soviet references. ASSOCIATION: Institut elektrosvarki im. Yet. 0. Patona i Institut mashinovedeniya AN USSR, Kiyev (Institute of Electric 'Weldinr~ imeni Ye. 0. Paton and Institute of '.Tachine Building, AS Ukr~301.~.,iXlyev) SUBMITTED: liovember 25, 1957 Card 3/3  ~4(7) SOV/46-23-9-41/57 AUTHORS; Kudelya, Ye. S.,,~anchuk,,,J,%.S. TITLL: On Some Methods of Standardization in the Analysis of Alloys PLRIODICAL: Izvestiya Akndemiii nauk SSSR. Scriya fizi&.e-sk,1,,a, 1959, Vol 23, Nr 9, pp 1143 - 1144 (USS-R) ABSTRACT: In the analyais of various industrial alloys the authors used only on2 standard sample in contrast to the nor-nal method in which three standard samples were used. The exact- riess of the analysis is practically not diminished as shown in practice. First, the authors employed the so-called method of "inter-rupted exposure" (interrupted exposure), in which the spectrum of the standard is recorded by exposarcs of t, 2t/3, 1t/2 and lt/3, in which case in the last three spectre- grams the photograph of the spectrum of the base material is additionally superimposed with the tiiae3 of exposure 1t/3, 1t/2 and 2t/3- Evaluation of the spectrum is carried out in a similar manner as in the case o-P Vne use of three Card 1/2 standards. Figure 1 shows a calibration cur've for the deter-  On Some Methods of Standardization in the Analysis soil/48-23-9-41/57 of Alloys mination of Si in steels, which was constructed by this method. Furtherl the method of "dosed exposure" is described, in which a series of spectra of one standard i~5 produced with times of exposure which are partly greater arid partly smaller than t. From -these photographs concentration i:3 then determined by calculation. As an example figure 2 shows t'-ie calibration curve for the determination of nickel in steeLs, which was deve- loped according to this method. The calibratio:.,2 curve was deve- loped by means of two different standards and is therefore forked in its upper part. For the calculation of the nickel content formula (1) is then given. This formula, howev2r, applies only to the range in which both calibration curves coincide. Formula (2) makes the empirical calculation of concentration in the upper part of the calibration curve possible. rhere are 2 figures. ASSOCIATIONt Institut elektroevarki imeni Ye. 0. Patona Akademii nauk USSR (Institute for Electrical Yielding imeni Ye. 0. Paton of the Academy of Sciences, UkrSSR) Card 2/2  5(2) SOV132-25-5-2 1 /56 AUTHOR: Demlyanchuk, A. S. TITLE: Simultaneous Det;;m_lfiation of Carbon and Alloying Elements in Steel (Odnovremennoye opredeleniye ugleroda i letmiruyushchikh elementov v stali) PERIODICAL: Zavodskaya Laboratoriya, 1959, Vol 25, Nr 5, PI) 581-503 (USSR) ABSTRACT: In the case of a spectral analysis of carbon and alloying elements in a-heel it is recommended (Refs 1, 2) to apply a high-frequency dio'charge and to decrease the diameter of the invariable electrode. A diagram is given of tho spraying effect for carbon, obtained at high frequency and a magnesium electrode diameter of 1.6 and 2-5 mm (Fig 1), wherefrom it may be ob- served that the intensity of the spectral line for carbon C 111 2296,86 with a smaller electrode diameter already stabilizes after 70 seconds. An increase in the electrode dia- meter augments but to a small extent the inten.sity of the spectral line; it impairs, however, the discharge stability (Fig 2). In another work (Ref 3) an investigation was directed onto the influence exerted by the diameter of the invariable copper electrode upon the spraying effectv and in the case under review it was found that practically the same course may Card 1/2 be observed with a magnesium electrode, and that analysis may  SOV/32-25-5-21/56 Simultaneous Determination of Carbon and Alloying Elements in Steel be carried out without prior spraying. The conditions required for a spectrograph for the sinultaneous determination of carbon and other impurities were laid down. The spectral lines used are mentioned (Table 1), and analysis waii carried out according to the method of the three standard samples with the utilization of the series UIM Nr 4 and 5. A comparison is established between analytical results obtained with the spectral and chemical method on a welding seam (C, Si and Mg). There are 3 figures, 2 tables, and 4 Soviet references. ASSOCIATION: Institut elektroovarki im. Ye. 0. Patona Akadem4i nauk USSR (Institute of Electrical Welding imeni Ye. 0. Paton of the Academy of Sciences UkrSSR) Card 2/2  A -b; Pid Po Zvi 1; oil I -i ~- . b I JO 33 s A *v ir: :i~ . gs. 1. Vol V I g, 1 Ilk  DAVIANCHUK, A.S., RYARUSHKO. O.P. Spectral analysis of aluminum ani nickel alloys. In2h.-fiz. zhur. no.4:111-114 Ap 160. (MIRA 13:8) 1. Inatitut elektronvarki Im. Te.0-Patona, Kiyev. (Ahim num.a;LZWo-Spectra) (Nickel alloys- Spectra)  3hIdth S/1 E35/61 /0006/0006/026/0710 D2SI9/!)304 AUTHORg Dem'yanchuk, A.S. TITLE: On a general-purpose light source and a s-,,andard me- thod for the spectral analysis of motals and alloys PERIODICAL: Ukrayinslkyy fizychnyy zhurnal, v. 6, no. 6, 19619 869 - 872 TEXT: All the basic requirements which spectral analysis (in the service of industry) has to meet, could be satisfied by developing an a,c.-arc light source with a high-voltage condensed spark. The construction of such a general-purpose devicep incorporating the standard-type generators Plf'-2 (IG-2) and 01--1, (IG03). would open many new possibilities in spectral analysisc Hence a modification is proposed to S.I.J. Rays'kiy's well-known scheme for the IG-2 ge- nerator. This modification involves the insertion of additional ca- pacitors, a resistor and a v-oltage stabilizer. The au-thor tested the modified version of the generator and ascertained -he optimum operating conditions which would ensure f-reatest possible accuracy of analysis~ The supplementary units to the IG-2 generator, can be Card 112  S,/185'61/006/006/026/'030 On a gene--cal-pirpose light source D2')97D304 fitted in any spectral laboratory. Using the modified device, it is possible to analyze very thin surface layers of metals with least damage to the surface, to analyze very small specimensi thin fila- CoMpOS4 merits and alloys of complex chemical Ition. Hence the modifLed generator IG-2 (IG-3) can be used as a gE!neral purpose source. and it becomes possible to envisage the stan~.ardization of all methods of 8pectral analysis of metals and alloys. The error in determininG the concentration of impurities in metals and alloys, is 1 _ 1~5 55, if the modified device is used* This compares favorably with other devices~ Further, the characteristics are given of the modified ver- sion of the IG-2 generator, used for the analysis of metals and al.- loys. The spectra were taken by means of the spectrograph OC_TI-28 (ISP-28). The 3-specimen method was used as the method -of analysis, A table shows the analytic pair of lines chosen for the spectral. analysis. The above-described stable light source makes it possible to use a simple and accurate stan0ard method of analysis in each laboratory, There are 2 figures, 1 table and 5 Soviet-bloc refe- rences, ASSOCIATION: Instytut elekt:~ozvaryuvannya im. Yc.O~ P,-.tora AS M~rRSR (Electric VIeldine; Institute im. Ye.0- Palon of ihe AS Card 2/2 UkrRSR-, Y,,ylv)  DEMIYANCHUK, A.S. Methods of de$ermfuting carbon in iron alloys by meang of spectrum analysis. Avtom.svar. 34 no.?:90-91 J1 161. (MMA 1-4:7) (Iron allop-Spectra) (Carbon--Spectra)  A.A. Spectral analysiv of magnetic alloys. Znv.lab. 23 no.5:565-566 ,62. MRA 15-6) 1. Institut elektrosvarki imeni Ye.O.Patona AN USSR. (AlloyS-MELgnetic properties) (Spectrum analysis)  S/032/62/028,/011/014/015 B104/BI02 AUTHORs Demlyanchuk, A. S. TITLEs Universal light source for the spectrum analysis of metals PERIODICALt Zavodskaya laboratoriya, v. 28, no. 11, 1962, 1389 TEM 1, modified circuit diagram'of the lir-2 (IG-2) spark generator (Fig.) -As given. This serves for the spectroanalytical examination of very thin surface layers of metals, of finished parts without notably damaging their surfaces, and of small!-dimensioned specimens. The follow- ing modifications were mades (i) An additional resistor R' (4 kiloohms, 400 - 500 w) and an additional capacitor C' 0-01 PS, 15 kv) were connected in series with the analytic gap kI). A shunting capacitor C" (200 pfq VK 15 kv) was connected in parallel with (I). A ferroresonance voltage, stabilizer was connected in parallel with the primary coil of the trans- former. Yurther, a current stabilizer was irztalled. The following working conditions are recommended: inductance 0.15 mh, capacitance 0.005 Lf, electrode spacing in the working 9&P 3 mm, amperage in the primary circuit 1.6 - 1.8 a, electrode spacing in the spectroanalytic Card 1/2  S/032/62/026/01 1/014/015 Universal light source for the ... B104/BI02 gap 1.6 mm. The spectrum should be taken by an VICT-28 (ISP-28) spectro- graph with three-lens illumination system, and with a gap of 10A'U. Spectroscopic plates of the type 11 (16 - 20 Por-1- (GOST) units) and three standards should be used. There is I figure. ASSOCIATIONs Institut elektrosvarki im. Ye. 0. Patona Akadeiaii nauk USSR (Institute of Electric Welding imeni Ye. 0. Paton of the L) Academy of Sciences UkrSSR) Fig. 1. Modified circuit d1agram of IG-2. L C Card 2/2  KOSOIAPOV, V.I.; SKVQRTSOV, AL.M.; DE1,11YANCHIM A S.; KISELLVA., K.V.; I V.N. 'UIMLENK03 Exchange of experience. Zav.lab. 23 no-11-1388-1389 162. OMA 15-11) 1. lnstitut khlmii Sibirskogo otdelenipi Ali SSSR (for Kosolapov, Skvort.gov). 2. institut elektrosvarki, Aviani Ya.O.Patllona A14 UkrSSR (for Demtyanchuk). 3. Fizicheskiy institut imei-d P.N,L-zbedeva (for Kiseleva, Mkhalenko). (Scienti-fic apparatus and instmments)  DEMIYANCRUK A S -[Demlianchuk,, A.S.] On a universal light source and a stando-rd method for the spectrum analysis of metale and alloys. Ukr.fiz.zbur,. 6 no.6; 869-973 N-D 161. MIA 16-'5) I* Inatitutiploktroavarki im. Patonst AN UkrSSR, Kiyev. (Elect'ric lamps) (Spe atrum analysis)  DEMIYANCHUX, A.S. High-frequency condensed spark as a source of light for spectrum analysis. Avtom. .avar. 17 no.5:93-94 My 164. ~MIIRA 1.7-11)  L 27lonk6 EWT(m)/F-WA(d)/EWp(10/En IJP(c) JFVJD ACC NRi AP6015253 (A-) SOURCE CODE: UR/0125/66/000/005/0074/0075 AUTHOR, -Rabkin, D. M.; Bukalo, Lq A.; Korzhova, Vi, Ya.; Dej!yaxvchuk..-4--~S ORG: none TITLE: Heterogeneity of aluminini-!pgnesium lloy uelds SOURCE: Avtomaticheskaya svarlui, no. 5, 1966, 74-75 TOPIC TAGS: aluminum alloy, majMesium containing alloy, alioy weld, weld property/ AMg3 alloy, AMg6 alloy ABSTRACT- The nature of the dark areas frequently appearingAn x-rny4ictures alongside welds, and their effect on the properties of ift3llnd AMg6laluminum- magnesium alloy welds, have been investigated. Alloy p-lates 3 i;r-;';m thick were -TiG-welded with steel backing. In these welds the (lark areas were about 0.5 mm wide. The specimens with and without dark areas had roughly the same tensile strength, 32.2 kg/MM2 and 31.6 kg/mm2. The fracture in both opecimens was also similar. Spectral.analysis revealed a sharp increase in magnesium content in the loc-ation of dark areas.., 7.2% instead of 2.8-3.8% for AHg3 allay and 11% instead of 6% for AMg6 a1"loy. The microhardness of a-9olid solution in the dark area was 77-81 kg/mm2 as compared to 60-66 kg/mm2 in the weld or in the annealed base metal'.. Thus, the dark areas are formed as a result of ttho enrichment of alloy with magnesiluMa They do not reduce the strength of the wel&. Orig. art. hast 4 fi rea4 JAZI S11B CODE: 11, 13/ SUBM DATE: uone/ ATD PRESS* 167 Card 1/1- O-d;-" -- UDCt 621.91 nici  IMMIYAJIGEUK .;,. HINGHMOVA, 0., redaktor; GOLOVGHFM, G., tektmicheokiy , , le-or. [Innovators of the confectionery trade) Novatory kondyteralkoho vy,robuytetva. Kyiv, Dershavne vyd-vo tekhnichnoi lit-ry UHSR, 1953. 37 P. (MLRA 8:2) (Confectionery)  S/103/62/q23/007/007/009 D201/D308 AUTHOR: Demlyanchuk,.I. V. (Kiev) TITLE. Reproduction of homogeneous functions of two variables PERIODICAL: Avtomatika i telemekhanika, v. 23, no. 7, 1962, .943-955 TEXT: The method is based on the approximation of the fullL;- tion of the auxiliary 'argument which is the ratio of the vari- ables. As a result of this approximation, the homogeneous func- tion is represented in the form of a power binomial. with coeffi- cients which are constant within the region of app2'oximation and with arguments varying from one region to another. The coeffi- cients are introduced by evaluating them from the graph of the auxiliary function. Formulas are given for the evaluation of the permissible approximation error. The reproduction of a homo- geneous function, which may be given either analytically or Card 1/2  S/103/62/023/007/007/009 Reproduction of homogeneous ... D2.01/D308 tabulated, is thus reduced to simple mathematical operations of addition, choosing the extremal sum and taking a certain power of the result. To this approximatiOn formula corresponds a simple structural circuit, which can be realized by means of standard functional circuits of modern electronic analogs and.known S%Vitch- ing and logic elements; the method may lead to simplification, decrease in the volume and increase in the accuracy of function generators. The general circuit diagram and the principle of operation of a function converter based on the method is given. There are 8 figures. SUBMITTED: March 10, 1962 Card 2/2  DEMIYANCHUK., I.y,_Ixiyev) Reproduction of bomogeneous functions of Gwo variables. Avtom. i telem. 23 no.7:943-955 Jl 162. (NMRA 1519) (Electronic calculating machines) (Automatic control)  DEMIYIANCHUK ~ V., insh. Automatic compensation of the readings of hydrostatic level indicators during the start of a boiler. Teploenergetika 10 no.100-75 Ja 163, (MIRA 16:1) 1. Institut avtomatiki Gosplana UkrMa. (Level. indicators) (Boilers-Equipment and supplies)  16806-66 EWT(M)/EWP(t) TJP.(c)-, JD/J.G . ACC NR-, AP6003368 SOURCE CODE,- UR/0363/66/002/001/0100/0104 AUTHOR: Obolonchik, V.A.; Lashkarev, G. V. -, E~~i ORG: Institutz of Materials Science Problems, Academy of Sciences SSSR (Institut problem materiidovedenlya AROemil nauk SSS TITLE, Preparation and some physic ochemical properties of rare earth ox ellurides yt SOURCE: AIN SSSR. Izvestlya. Neorganicheskiye materialy, v. 2, ng. 1, 1966, 100-104 TOPIC TAGS: rare earth, telluride, lanthanum compound, cerium compound, praseodym- ium compound, neodymium compound, samarium compound, gadolinium compound, dysprosium compound ABSTRACT: bxytellurides of stoichiometric composition corresponding to the formula M202Te (where M = La, Ce, Pr, ',Yd., Sm, Gd, Dy) were synthesized by reacting rare earth oxide4ith tellurium vaporIfn a hydrogen atmosphere in graphite boats at temperatures of 1000 - 1100-.The oxytellurides are unstable. Lanthanum, praseo- dymium, neodymium, and samarium oxytellurides are stable at elevated temperatures in air because of formation of a thin metal oxide film on the surface. The electrical con ductivit at room temperature and the temperature dependence of the thermal expansion Card 172 UDC: 546.442124'45:543.5   v f the Ililk ',~at Levol of Their Food oil t, c I' tabolisin of Ca!-ver,." Cam' .ff ect o .1 C (n "IB! 01, :,o 7, 7 r 1Z3. Sci, Mlarlkov Zoot~~-cvlulic_~l Ins'. P, ~ SO: Si-,-,. I-To. -101,, 2 r.,ov 55 - Survey of Scienti"JC -cclinical -Lissertations Defren-led at JJSSR !Ti--,hc,r Ejucational Distitu-bions (16).  DEM'YANCHUK V.P.[Dem"ianchuk, V.P.), kand.seliskokhoz.nauk: Calcium and phosphoruo metabolism in high-productive cows with D-hypovitaminosis. Visnyk silthosp.naukY 4 no.8,;86-90 Ag 161. le. Otdeleniye skotovodstva Ukrainskoy akademii sel'skokhozyaystvennykh nauk. (Calcium metabolism) (Phosphorus metabDli;sm) (Deficiency diseases in domestic animals)  L 30394-4-6 BIT ( I )TG ACC NTR: AP6005847 SOURCE CODE: UR/0102/65/000/004/0003/0009 AUTHOR: Barvinslky,.V, L. L. -- Barvinskiy, L. L. iev); Demlyanchu1c, V. S. (Kiev) ORG: none TITLE: The reliabilit of doubled systems taking into account the nature of failure of switches and control circuits SOURCE: Avtomatyka, no. 4, 1965, 3-9 TOPIC TAGS: reliability engineering, circuit reliability, redundant system, control circuit, switching circuit ABSTRACT: The authors present a method for the determination of the failure probability of a doubled system with functional replacement of channels which failed, taking into account the dynamic and static failures of switches and control circuits. An analysis of the obtained expressions for the determination of the failure probability of the system investi- gated shows that the presence of such failures as the arbitrary switching in of reserve channel switches considerably increases the probability of system failure. In view of this, it is necessary to have the intensity of arbitrary switching in of switches 3 to 4 orders Card 1/2  L 30394-66 ACC NR: AP6005847 lower than the intensity of their arbitrary switching off. An evaluation is made of the dependence of the relativ3 error in the calculation of failure probability of the doubled system without taking into account the failures of the switches compared to the failure probability of the real system from. the relationship of the intensities of failure of the switches and the reserve units. The error is increased with an increase in the intensity ratio. In order to reduce the error indicated, it is necessary to reduce the probability of the dynamic and the static failures of the switches. Orig. Art. has: 3 figures. SUB CODE: 14, 09 / SUBM DATE- 20Dec63 / ORIG REF: 003 C'nrti 2/2 t4 t'  L 3802-66 ERT (I )/E- PA (s)-2/T-.;el~ IJP(c)- GG ACCESSION M APS025503 UR/01-15/65/000/009/0026/0027 319" Al 1ADTHOR: Barvinskiy L.-L..; Denlyanch ti TITLE: Use of ferroelectric crystals -for built-in monitoring circuits ~ SOURCEt lzmaritellnaya tekhnika, roo 9, 1965t 26-27 TOPIC TAGS: electronically variable capacitor, ferroelectric crystal, test moni- toring, electronic measurement ABSTRACT: Previous studies have shown that voltage-variable capacitors may be used as converters in circuits for monitoring hf voltage (or power), frequency, and con.- Ibinations of these and other paranxiters. The operating principle of this type of converter is illustrated by fig. I of the Enclosure. The sensing elementJs a three-elect rode volt age- contr4)lled capacitor made up of ferroelqctr1c crystals. Control voltage from the output of the device to be monitored Is fed to plates 2 land 3 of capacitor C23 via the coxr?ling coil. The capacitance between plates I and 3 W13) serves as a decoupling unit for the indicator circuit L'1C2C13C1- When the device being monitored Is operating normally, this Indicator circuit Is tuned to r-6 Cl" 1/3  3802-66 ACCESSION NR* AP5025583 sonance. When there is a change in the frequency or.vo-Itage fed to capacitor C2i, the capacitance of this element also changes. This changes the capacitance Of C13 and the natural frequency of the indicator circuit. The voltage reduction in the _1indicator circuit in a set control-iroltage range is proportional to the frequency 1drift and to the variation in 'the voltage being monitored. If the indicator cir- icuit is somewhat detuned initially, voltmeter VI will show not only the drift in ithe frequency or the change in the voltage being monitored, but will also indicate ;to which side of the normal operating conditions these changes take place. Experi- pental curves are given showing the capacitance of C1 3 as a function of the con- trolling voltage applied to C23 at various frequencies. at 200C. 1hese curves show that the circuit is more sensitive to changes in voltage than to changes in fre- iquency. A great disadvantage of these ferroelectric converters is that they are ;considerably dependent on the ambient temperature. This temperature effect may be !compensated by using special circuits based on ferroelectric capacitors with the ,Proper characteristics. Advantages of tbese converters are their high reliability ,Emd simplicity of construction. Orfg. art. has- 4 figures. ASSOCIATION: node 1SUBHITTED- 00 ENCL: 1 01 13UB COM EC NO REF SOV: 000 OTHER:- 000 Card 2/3   L 6394-66 - EWT(l)/'9WA~P)'_ 'ACC NR: APS020925 SOURCE CODE: UR/014-2/6.li/008/003/0330/0336 ~AUTHOR: Barvinskiy, L. L.; E~~,mchtdc, V. S. 'ORG: none 1 0 :TITLE: Determination of the reli f redundant systems considering failures g iiitiA of switches.and of control circuits .SOURCE: IVUZ. Radiotekhnika, v. 8, no. 3, 1965, 330-336 1OPIC TAGS: circuit failure, circuit reliability, control circuit, switching circuit ABSTRAM The problem of the reliability of redundant systems with automatic :switching to the reserve is examined. The case shown in fig. 1 is considered, where~ ;BI and B. are regular operating units, BR is the reserve unit, and AC is the auto- ,matic control circuit. Switches S S and S connect the regular units and 31 4 '~S and'S the reserve unit. It 1; as2sumed that: (1) all units and switches are 1~2 14eIntica . (2) the reserve unit Is in a loaded state; (3) the automatic control cir- ,;cuit does not assure reconnection.of a channel which has failed and been repaired; 10) the system will faIll. If two units are switched simultaneously to one input or Card-_  C) ~ii i I i I f i i i- i ; I i, . !, I t i......  3~ 6394-66 ~ACC NR: AP5020925 output; and (5) each system element has an exponential probabilitr of reliable oper' :ation and the reliability of each is independent of the reliability of others. Con- sidering dynamic and static switch failures, the authors analyze 9 failure cases and derive the probability of failure within a given time for each. railures of main a and reserve units, switches, and automatic contzx~l oixIcuit are considered. A graphs! ,shows the dependence of the probability of systen failure on the probability of failure of each of the elements. The relative error of the probability of system 'failure when switching failure prcbabilities are negle-eted is graphed. Failures ;such as spontaneous closing of switches can subiji.-anti,311Y increase the probability ~of system failure. The importance! of using switches with low probability of static alid dynamic failure is thisreby shown.- Ori g. art,, hats: 3 figures. SUB CODE: EE,DP/ SUBM DATE: 2011ecO/ ORIG.REP:~'002/ OTH REr: ooo ~ !CarJ..,_.3/_3_.  ACC `R AP603-1639 SOURCE' CODE. 'UR/0102J'66/000/004/00'9/0025 UT, I' T I OTI yanchulk, V. S. (Niev); r4rarvinnlkyy, L. L. --Darvinr.-kiy, L. L. ORG: none TITLE: Idle-time coefficient of long-used reserve systerns, taking into account their restorability and preventive maintenance Part I SOURCE: Avtomatylta, no. 4, 1966, 18-25 !TOPIC TAGS: idle time, idle time coefficient, preventive maintenance, system maintenance ABSTRACT: The authors analyzed the problems of estimating the.idle time coefficient for reserve systems with a sliding loaded, unloaded, and "mixed" restorable reserve. Expressions are derived permitting the determination of the necessary minimum of reserve units, their operating conditions, and the number of maintenance personnel with the given idle-time coefficient. A -procedure is given for determining the idle-time coefficient of reserve systemn for carrying out preventive maintenance on the reserve units, and final expressions are derived for rnr,4 I / 2  _L Q99l5-6~7__________ ! ACC NR: i AP6034639 677) calculating the idle-time coefficient. It is assumed that there is always enough servicing personnel to carry out the preventive maintenance. Orig. art. has: 14 formulas. [Based on. authors' abstract] SUB CODE,: 06/SUBM DATE: OGJun64/ORIG REF: 004/ -  DEMIYANENKO, A., inzh.; VOYLVODIN, V., in2;h. , , - _0 . ~-, -- , Mechanization of plastering in the Main KrasnVer6k Construction Administration. Mekh. stroi. 20 no.10:14-15 0 1153. (MM 16:10)  VOLIFIN, P.I.;-WAUAKUMp,_AZI,; LYAPUNOV, A.I. Battery of continuously oporating digesters with air 'blast agitation. TSvet. met. 35 no.9t86-89 S 162. (MIRA 16:1) (Aluminum-Metallurgy) (Hydrometallurgy)  DEMITANENKC, A.I. ... ~ , 1, 1,.'- ~ . - Additional signalization,for the vacuum qystem zercury-iLre rectifiera. glek. i tepl.tiaga 7no.11W-28- N 163. (MIRA 17-.2) 1. Nachallnik renontno-reyizionnogo tackha Chishminskogo energouchastka Ku,ybysbevskoy dorogi.  DEYSIYANENKO, A.I.; YAYOVFNKO, N.G.; CHAWVY I.V. IncreanIng alumina, output at the VnJeper aluminum p:.ant during work with a high concentration aluminate solution. TSvet. m-1t. 38 no.8:86-87 Ag 165* OfIRA 18-.9)  f)~7~~M I YARENKOY ~ EVA, U;, [ I..-nrittiova, )(.] I 1 1, P-% tLyserko, A,.avj.jj ITDOROVSKAY-4, Y,-.,q. JFF-Aorova'kh, Actino7k)rcetes-ftntagonists from the sails of the Ki,~,r region. Mikrobiol. zhur. 27 no.5;7-10 165. (MiRA 18.1310) 1. Institut mikrobiologii i vir-u5ologli AN 11krSSR.  DEMIYANENKO.. D.M.; XCROZAp 7.1.; RODA, A.A.; :30LOVIYEV, L.S. Applicability of analog computers for calculating electron trajectories in linear accelerators. Uskovitel-i no-5:91-95 163. (MIRA 17:4)  Der'v,anenko, D. V. itt-nlal nn. ",tiolog_v, Pathogenesif,, f~ni I~i~iE~rlosi9 of' Sltl-fOz~~ 1q;5 (Dissertation for the de'r;ree of -,2nAicNt,? In Science) Sc: Y 140. ? n i z hn e i s' ~19V5  DEMIYANENKO., D. V.,, kand. mad. nauk; ZATOIA)KIN, F. D., assistent Treatment of syphilis with bicillin. Vest. dorm. i verl. 36 no.6:55-56 Je 162. (MIRA 15:6) 1. 12 kafedr7 kozirqkh i veneriohea)dkh Ix)lezney (zav,, - prof. N. A. Torsuyev) Donetskogo iaeditainslogo instituta (roktor - dotsent A. M. Ganichkin) (SYPHIL:  IL1301:5- - V4r(l)/BDS/E&G~b)-2 AFFTC/ASD/E3D-3 -rjF(G) AGG-ESSION WA: AP3001335 S/()057/63/033/006/0735/0738 ATjl'HOR: Ostrov k~z, Ye. K. ; _Zy*kov- A. I.; Konen inko, S. G.; Makhenko, L. A.; Do-ralyanenko, G. K.; .1janovets,_Yu. A_t; Rubtsov, K. s. TITLE: Investigation ui u shaping aeotion with constant phase velocity for wave propagation,~ SOURCE: Zhurnal tekhnicheskoy fiziki, v. 33, no. 6, 1963, 735-738 TOPIC TAGS: electronics.. linear accelerators ABS)TRACT: The axial motion of electrons in a loaded waveguide in which the phase velocity for wave propagation is constant along its length wa.s calculated by the method of J. Swiharta and E. Akeley (J. Appl. Phys., 24, 5, 1c,153). The io,%~e- guide is intended to be the initial section of an electron linear accelerato:,. Tho calculations were performed for a section 83 cin long excited to an electric field strength of 67.5 kV/cm and with the electrons injected at an energy of 80 keV. The results are displayed as a family of curves giving the exit elec- tron energy as a ftuiction of this 'entrance phase for different values of the phase velocity from 0.91a to 0.99c. From these results,, and taking into account the resolving power of a specific magnetic analyzer, the average energy of the electrons 'at maximum current in the bunch and the current at maximum density Caril 1/2  It 13045-63 ACUSSION NR: AP3001335 were calculated as functions of the phase velocity. These calculated results do not agree with the experimental data. The expetrimental data indicate t",at ecipture and acceleration occur in a much narrower range of phase velocities. Lho divergence between experimont and the calculations is ascribed to end of- facts in -the input Junction, which is an H sub 10 to E sub 01 tramsforner similar to the Stanford variant. The effect of putting inserts in the final waveguide cavity at the junction wall was investigated, and an insort th,at greatly improves the operation was found. The authors do not consider such inserts to be a satisfactory solution, howeverp owing to their delotericus effect on the electric strength and because of the analytical complications they involve. Orig. art. has: 7 formulas and 3 figures. ASSOCIATION: Fiziko-tekhnicheakiy institut AN USSR, Kharlkov (Physical-Technic-al Institute, AN USSR) J SITBIAMED 21may62 DATE AC Q: 01 J-ul63 ENCL: 00 SUB CODE-.- 00 NO HEF SOV: OI)l CTHER: 005 Card 2/2  ACMBION XR: AP3WI336 B/DO57/63/033/DU;/0739/0742 PXTHOR: Zykov, A. I.; Hakhnenkio* A, Osirovskiy Ye. K. j Dem lyanenko,, G. K, I Kozonenko., S. G,; Rdbtebv,,K, S, 1. Kranskoy,, G, D.; Wel V. 7B-.--*' T17AM Determination of the~optir= frequency of ef: linear travelingrVaw. ac- celerator sad investigation of thtt dependence of axicalerated-particle energy oil frequ"oy SCORCEr- 2burnaJ. tekhMehaskoy :ft!AikI,, v. 33, no. 6j, 1963, 739-742 TOPIC TAMS travelina-wave 31nbar' accelerator, phose) velocitv, gratip velocii ty at-celerator traveling-vave accelerator, linear ace-elerator ],~Mmwjai-. SimpUkled calcantions of phase and Eptmj? velocities of a traveling- we lineui i~~eleiator using a septate waveguide isectioa are supEeated. These 'w-e-bwe(I on be t~A that iii the case of small wirrelpaide mismatch i. e.., when Mle VSW hen or equal to~ 1-.Ij it i9 possible to derive formulas for these T-- -L by appiyii*;the,mathoa of shIf"Wing the locatiom of WIR y ii ihorting stub, This eliminates the need to plot com-plex cir. calar diagrBMB. Since actual w-aveguides contain sixe inhomogeneities, it is necessary to average the standInEj-wave minimum displacements resulting from ~rqnsjation of,the stub in the.serptate waveguide. The phase-velocity formula is CcIrcl 1/3  A01CMION, XRt. APY*1 336 obtained Vr measuring the total displacement of the stancUng-wave mininum &wimg the travel of. the stub fDr -the, total number or resonators. Thlo formula Wines tbe dependence of phaset 'Ivloclty on frequency, Measurements made by this mothod. foi, a aeptate waveguidelvith type U/2 oscilLetions, a source frequency i stability of 10-7, an& a septate vaveguide period to 2.677.� 0.001 cm shaved; that for a phase velocity equal, loo light velocity a frequency of 496,58 Me repre-~ sents the optimum frequency for, this vaveguicU;-.' A straightforward calculation from the phase-velocity formuls yle -Ids the corresponding group velocity. As re- gards the dependence of accelere6ori cutput on frequency, it is Euistmed that ran- d= deviations of phase velocit;y:are insignificant 4md that the whole of.the its a function waveguic . is homogeneous. Prorn this a formula for kinatie energy or frequency is derived. For Ake' vaveguide described the relative kinetic energy decreases by a factor of approximately .10 for a frequency change ftom 2796.6 to 2799 Me. It is concluded that, for aeptate waveguides with small inhomogeneities the method described determlaen optir= frequency,,. and phase and g,..,oup velocities vith adequate accuracy for prantical.purposes, since the maximum relative error does not exceed + 0.01%. Orig,, art. has: 3 figm~es and 8 formulEw. ASSOCIATION: Fitiko-tekhnichealAy bistitutAN.6SEIR, 1(harlkov (Phy-Bicateebacal -A. AN SBSR) Institute) ~AC~M 2/3 .. ....   V V 'A F T 6 _jk~ii~ibll I I sp GS 5 - - 5 W- X / iSSION NR* RrSO07932 St,0000/64/000/0000435/0 419 ir~ Ail K ..G i AWjiOR-. r shaveviii T. A4 ;~i-Dem -,Vafienk&'~ d. 'K. Zykov i, --A- Ipyl.-lenok G. 11. 1 Malyshey I F_ I a K#; Makhuenko L. A. j jr-i ~_7=flm -nn + -4-rel bgm-w -M e v b -ut p u- t 4 t- nk ~r_ M_ r - 7 llilizl!k: Line -atiAi~ -:J 4~ tom CE - utevi k 41ilonal:.Con'ferali'' brat na. iIL963- Trt~-d 'm Atomizdat i 435i,~~ '39 4o ra oz- traya ing.wave r TOPIC TAGS: blIg1j. energy accele t 1' _elei~tron: accelerator, Injecto wavep de J, ABSTRA&r.- One.'~of the stages ih..th4-.Ahv610' -at -Khair the liticar electraq pments, ~bv, of acc .eleiatbrs: wa!~~ the Const IrIIqtion.'_6f-' -360L-Mev acceler tor, with accele-rati-ag track I didided-Into- 1141 ";eCtions consistlirlg_ :i6 injectail; lii'nd 10 sections tl.!~ speters ~h*: '-During vo.didlng bea IIa. ekpe'w44 ts-tba Sixt selct!;)n is asent, 11,1' lt~3 place Pali, I ~ . . . -, D :' 'I . i ma e -s oue:gi~ rings. The el-,.~ctvon in- b e the gnotti of th injeqtinj~ i~4ices: of tbe t jec, and the., aqcelieratifig~ too-ated in a- ~,.~imicvete bunker. 'Uy3tromq vith~ nominal p6wer of 20 Mw I'm tbo t~64e -ime. used for VO high-frequenq,pvtfer L quj;p y. apm ve energy U64 d!-I~ -the k vith hydm- I C .1til storel* 0%0 11 iNitmri moaulatar's 1/3 4.   K !1-65 45251~ ACMSSION NR; ArSOMM 25~6 12.5, 6.25, 3.125, 1, and a c~ _415 ce,o (Note, The half -width is the gU sen ifidth of -the ene qy spectrum. at 4" -16~vel half the cu rra~rt -maximum.) TM design and construc~tl on of the electron injels.~t'Or and:the remaininj; parameters of the a-celerat-i ed ~beem were discussed by v et al.. (Sa'mei conference p. 1140 The FWjtse,.,-it Yeport disminses matters irelating to the adjustmert of the accolerator: the; ls~-.;te',Pa clectrodynamic and loaded charatteristics, thv accuracy of construction of~ th'e sections, their resoiiance fxeqt~encies, group velocity and damping, shunt resistJ =-d partial power of- the principal-accelerating harmonic. Orig. art. has: 6 filrares. 1ASS-8,0CIATION: rizil-o-tekhnicheski,~'L-ist:".tut AN UkrSSR fthysico-technical Institute ~M UhrSSR); llai-ichno-issledo-~iateltr.):i~ i1i6titut elektro-fizicheskoy apparatury ime-ni i M ~I D. V. Yi~' mova GKIAE SSSR (Scientific-Research Institute of rjectroP4 ~Lid~~lr SUBMITTEM: May64 MCL: -00 SUB CODE: BE, NP N 0 REF SOV- 000 OTHER: 000 61-d 3/ 3 ~7_  24749 3/19 1/6, 110GO/Cr,",100710 10 ~ -I' 'L-'0 13 10 1 /B2 15 AUTHORS: Shturman, A. A., D.em I yane,nk_o_,.__I_'.. D. TITLE: Magnesite molds for products of cold-sett'n--y placitios PERIODICAL: Pl~sticheskiye Mass.-, no, 7, 1961, 26-27 TEXT: 'Baged upon the fact that cold-opLtinE plaqtico (epoxy ai'6 roly-,stor resins, ACT-T (AST-'f) acrylic pliistic, etc.) haie found inci-ea~_-ini~ application in the manufacture of large-size objec,,s. such :9 Icats, car b o I i e s, , a nA TiF c'-ine parts , the suitabil i ty Df Ihe %,,qr~c,uEi mti tel Jial 9 fn-r molds is discusged. Gypsum %ithstands only 1-3 processes; easily meltable alloys are too expensive, and wood and metal m,)J.ds requirp. ru,,,)- time and ex,,3ensive levices. The authors availed themseliresof theexperi3rce of the LeninL7radskiy zavod stankov-avtomatov (Leningra~l Plant cf Autonatic Machineo) regarding magnesite molds for precision :~astin6., Pn3 sugglest such molds for casting plastics. A model made of wood, glass, plastic, metal, eto. is polished, coated with Aq-1 (ATs-.'I) and 4r_-9 (FG-9) vr1rnishes, and then put into a, mold frame. 2.4 parts by iveight c-f an a ucous solution of magnesium chloride (specific gravity of 1.3-1.32) is Card 1/2  2049 SIP9 61/000/007,'C,:)7/010 Magnesite molda for products of- 310!~B215 stirred into a mixture consisting of I part by wei[:ht of marshallite and 2 parts by weight of caustic magnesity of type rocT 1216-41 (GOST 1216-41). The mass is then nourpd into the mold frame.. At room temperature, the mass hardens within 4-8 hr. The mold is then poli:.'hed with a felt disk soaked with paraffin or stearin. Such molds were wised for press",1E 2 products of the :,acrylic plastic AST-T under pressu:res of 70-90 kf-/cm - The advantages of these molds aro- IN smooth siirface of the pressed plastic; 2) durability of the mold; 3~ broken ,r,,cld3 car, be used al3ain after gluing with FA-2 (BP-2) M-4 (BF-4) etc; ~,) low cost of the material. Magnesite molds are also recommended for use in va3uum and preamatic molding Of plastic sheets. At present, the authors are attemptin~~ to produce pressure castings of caprone, polystyrene. and polyethylene by such ma.1-nesite molds. There are 2 figures. Card 2/2   ZHDANOV, Ye.A., inzh. (Tuganak); SKLYAROV, WK., inzh. (Iuganek)j HRDVTSKV V.A. insh. (Inganek); DS41YANENYO, T.D., inzh. (tuganskjo p Locomotive aab made from glass plast:=. Zhel(, dore transp* 47 no. 11 &8341, N 165 (MM[ 19.1)  TARAN., A.V.p kand.seIIskokhozyaystv(3z1nykh mauk; IPIIYANENK0 K.V. L-2- Best predecessors for basic field crops in the steIrpe of the Ukrainian S.S.R. A.V. Taran, K.V. D-.mlianenko. Zemledelie 21+ no.8:23-25 Ag 162. (MIRA -5:9) 1. Zaporozhskaya oblastnaya gosudargtvennaya seltskokhozyaystvennaya opytnaya stantelyao Mx-aine-Rotation of crops)  Na Olo. -A it:mlErd zT is Allf lciillz-, uma:5 ti a"T, ll-,;~ !3 a cz~-.I-Ctinn tneff %v,. of P-r lnl. ~A fMilv, :,C4L.. ?--, ac :J on .al, Imm  BCBIIF, X.?.; GMASIMOV, N.S.; GOLUBIV, S.G.; ])ZMnOV, P.G.; DXMIUX~ M.P.; - YZVMSMIN, N.M.; ZA4SXIY, M.I.; KAUSHNIKOV, K.A.- XONCRAW, B.I.; KORMV, A.I.; KRZHIZWOVSKIY, F.I.; KUL&XOV$ G*K.; POLOSUKHINg M.N.; ROYTKAN, H.Ya.; RUMYANTaV, V.I.; HXKUSHKIN, B.V.; SKUROV, A.N.; TARASOV-AGAKOV, N.A.; TOKASHEV, A.I. Semen Vaaillovich Kaliaev; obituary. Pozh. delo 4 n0.5.29 W 15B. (Kaliaev, Semen Vasillevich, 1904-1958) (MIRA 11:5)  DEIIIIANENKO, M.P. Complete utilization of sW beets is an interesting yet Complicated problem. Salch*'Prom. 36 no.9:16-19 S 162. (MIRA 16:11) 1. Sovet po izucheniyu j9viSvodmtva,nnykh sil pri Gosudarotven- nom nauelmo.-skoiiomicheslc6l6.oovete S,ovet& Ministrov ILRSR.  AUTHOR: Dem lyanehkD It. , Master of Sports 85-91-2T/53 TITLE: How to Mount an Incandescent Spark Plug on the Compression Engine MK-12S (Ustanovka,kalillnoy ivechi na kompressio4nyy ,dvigatel! MK-12S) PERIODICAL: Kryllya Rodiny 1957, Nr 9, pip. 29-30 (USSR) ABSTRACT: The author, whose airplane model driven by a compressioo engine achieved in May 1957 the All-Union record speed of 197.8.km. A., explains how he had fitted the winning models engine MK-12S with an incandescent spark plug,. The fila- ment of the spark plug is said to have been made of ah alloy 'of 8o% Pt and 20% Ir (0 0.2' mm.), the inlaye~rs of mica or 'Paranit'. As to the fuel, the author recommends mixing 75% of methyl'alcohol and 25% ricinus oil (an addi- tion of 30% of nitromethane does, assertedly, incre&se the number of revol-utions by 1000 per minute). During the com- p.etitions the author used a mixture of 55% methyl alcohol, 15% r'icinus oil, and 30% of nitromethane, with 5% of Card 1/2- nitrobenzene added. 7 designs showing various phases of  f >1 H UTZ- FIRE Ng 06 * KIN Ht' PH g i -E k1 1. -)w Ing 'It, lw U;q xj E IF. 06; tz, Al, tc fil- , , ooo a 0 0 CL "! Mq~ v to -1.4 R gis d A  1. DEMIYANENKO, N.M. 2. ussR (6o0) 4. Marmot s 7. Acid ztlt preaervation of marmot skine. Trudy VNIO no. 10, 1951 9. Monthly List of Russian Aacessions, Library of Congress, Februtry -1953. Unclassified.  TIMOKHINAP A.D.;-DEN!,XANEN-KO P.P- ~ Streamlining and invention at tho Semiluki factory. Ogneupory 26 no.3:149-151 161. - (MIRAL 14: 10 1. Semilukskiy ogneUP01717Y 2avod. (Semiluki-Tachhological innovations)  JEEMIYANENKO, P.P. From industrial practices. Ogneupory 27 no.8080-381 162. (MIRA 15:9) 1. Semilukskiy ogneupornvy zavod. (Metal cleaning) (Glass cutting)  DEKIYANMOV P.P. Machine for the manufactw* of swivel arze for bucket conveyors. Ogmeupor7 28 no.5*.23!F 163. (MIFLA l6s6) 1, Somilukakiy ogneupornyy savod. (Refinactories industry-;~Cquipsent and supplies) (Metalvarking Machining)  zav  151'-V~SENKOP V.I., otv. red.; 11,ARKOVSKIY, Ye.A., red.; IOGJdl-T-1-1, V.S., red. DD-11YANIENKO, T.P., red.; D.B-TNIOVA, N.M., red. [Use of radiation in automationj "'.sotopes and nuclear radia- tion in science and technoloa] Rudiatsionnaia avt,:)r,.atika, izot.opy i iadernye izluclieniia v nauke i tekhnike. Kiev, 1964. 193 p. (miRt, 1-,:8) 1. Akademiya nauk URSR, Kiev.  DEMIYANENKO T.P.: STETSENKO, V.I., kand. tekhn. nauk ~- - Third Ukrainian Conference on "Nuclear physics and applications of atomic energy." Avtom. i prib, no.l18l-82 JF-Mr 165. (MA 18:8)  SOV/146-58-4-4/22 AUTHORS: Ornatskiy, F.F., Candidate of Technical Sciences, Docent Khodeyev T K., and Deijjj!j~ Engineers TITLE: A Sensitive, Multirange Electromagnetic Milliampere- Voltmeter for a 93~oadened Frequency 'Band PERIODICAL: Izvestiya vysehikh uch ?bnyk:h zavedeniy, Priborostroye- : niye, 1958, Nr 4, pp 1.)-25 (USSR) ABSTRACT: Presently a rapid improvement and further development of electrical measuring instruments of almost all sys- t6ms is observed. However, the improvement of moving- iron instruments in regard to sensitivity, extended measuring and frequency ranges is advancing slowly at the present time. Recently the Kiyev plant "Tochelek- tropribor" developed a~ new series of class 0.5, E-59 moving-iron instruments, having increased sensitivity. The ammeters of this series, built for current of 2.5- 1.0 amperes, have an increased frequency range. The multirange milliammeter for 10-20-40 milliamperes and the voltmeters of this series do not have an extended Card 1/5 frequency range. In these devices a difference of the t  SOIT/146-58-4-4/22 A Sensitive, Multirange Electromagnetic Milliampere-Voltmeter for a Broadened Frequency Band readings on direct current and on 50-cycle alternating current is observed with uncharged values of the mag- nitudes to be measured. The magnitude of this differ- ence limits the sensitivity of the multirange milli- ampere-meters and voltmeters of type E-59. The fre- quency error of these instruments is positive and caused by a considerable interturn oapacitance in the tapped measuring coil. At the Kafedra izmeritellnykh uatroystv Kiyevskogo politekhniches:Kogo instituta (Chair of Measuring Devices of the Xiyev Polytechnic Institute) in cooperation with the laboratory of in- dicating instruments of the plant "Tochelektropribor", special studies were performed for the purpose of im- proving the parameters of class 0.5 moving-iron instru- ments. The results of this work may be used for the development of high-sensitive alternating current in- struments of electromagnetic and ot'her systems for higher frequencies. A new multirange instrument with Card 2/5 a tapped coil was created on the basis of the E-59  SOV/146-58-4-4/22 A Sensitive, Multirange Electromagnetic Milliampere-Voltmeter for a Broadened Frequency Band instrument. For increasing the sensitivity of these instruments and for reducing their current consump- tion, above all the number of turns of the measuring coil was inc:reased. With a larger number of turnsy the interntwrn capacitances increased considerably, especially the capacitance between the taps of the measuring coil. The capacitances between the taps of the measuring coil atta.: ned magnitudes of approximate- ly 0.015 microfarads. The increase of internal capa- citances led to a noticeable rise of frequency errors of the device which were 1-1.5% even at a frequency of 50 cycles. For eliminating the errors caused by the internal coil capacitance, a new compensating system was suggested, which provides a high sensitivity of the instrument while maintaining its ranges and its universality. This circuit provides ineasurements not only at direct current and alternating current of 50 cycles but also on alternating current up to 400 cycles Card 3/5 in the 0.5 accuracy class. The authors consider the  SOV/'146-58-4-4/22 A Sensitive,, Multirange Blectromagnetic Mill. iampere-Vol tmeter for a Broadened Frequency Band frequency error of the moving-iron milliammeter in the presence of internal capacitance and especially in the suggested frequency compensation circuit. The compensation of the frequency error may be performed by means of an auxiliary coil which has a negative frequency error, As shown, in Figure 4, the auxiliary coil will compensate in a certain frequency range the positive frequency error caused by parasite capacitance in the basic instrument coil. On this basis, a meas- uring instrument was built with the following ranges: 7.5, 15, 30 milliamperes; 30, 75, 150 V, and with ad- ditional resistors up to 600 v inclusively. The power required by the measuring coil in all measuring ranges is 0.09 w. The voltage drop in the working coil with- in -the different ranges: 30 milliamperes = 3 V; 15 milliamperes = 6 v; 7.5 milliamperes = 12 v. The im- pedance of the voltmeter is in the following ranges: 30 v - 1,000 ohm, 75 v - 5,000 ohm; 150 v - 20,000 Card 4/5 ohm. The instrument is designed for measuring direct  SOV/146-58-4-4/22 A Sensitive, Multirange Electromagnetic Milliampere-Voltmeter for a Broadened Frequency-Band and alternating currents and voltages at frequencies up to 400 cycles. The accuracy class of the instru- ment is 0.5. The calculation and testing of the in- strument model were performed by the student of the Kiyev Polytechnic Institute, V.A. Demlyanenko. The model of this device was shown at the Brussels World Fair. Figure 7 shows a photograph of this instrument. There are 6 diagrams and 1 photograph,. ASSOCIATION: Kiyevskiy politekhnicheskiy institut -,Kiyev Polytech- nic Institute) Kiyevskiy zavod "Toche-lektropribor" (Kiyev Plant "Tochelektropribor") SUBMITTED: June 18, 1958 Card 5/5  jjftl 1 1 11 A V.P. ("L-ii2a) I '. " - f Je Ema n c,wl cz Is problem for Pythagorean numbers. mat. n,)*,,,:52-.56 '(5o OKIRA '18!10)  USSR / Soil Scienoo. Otganip- Farti]Azqrs. .;.bs Jour: Ref Zhur-Biol., No 21, 1958, 95758. X-tuthor : Kuzlko, F, So, Yarchuk, I. I.) DemlyanEinko, V. D.---- Inst : Kharkov University. Title : Experiment in the USEI of Humic Fertilizers in Khersonakaya Oblast. Orig Pub: V. sb.: Guminovye udobreniya, Khar1kov, Kharlkovsk. un-t, 1957, 277-261. .i.lbstract: In 1954 anel 1955 in Khersonskaya Oblast, under production conditions, broad tests (enrried out on chestnut, sandy and calyey soils) of the ef- fect of huriophos during local appliention under potatoes, cabbage seedlings and other ve,-etabl(-.s from a calculation of 40-50 g per Datch ?8-10 c/ha) showed its high effectivoness under conditions of good agricultural engineering. -- 0. P. Mikhaylova. Card 1/1  USL;,~,/Suil ScLmco. Or,,-~unic Fortilizoro -.7-C 1.I.Is jour i1of Zhur - No 20, 1958, No 91483 "'Uthor rlz!,~i I y-mr.-ahv V.D. Inst 'a tlo- On th-, Uso of llrshy cat as F,~rtilizor in tho S,.-oathcrn USSR. Ori , !:V,, V sL,.: GLL,--,injN-yyc 1957, 371-374 .i.st::--ct abstract