SCIENTIFIC ABSTRACT Z. CHUKHARKO - V.G. CHUKHLANTSEV

CHUKHMIKO, Z.; SHEFER, G.; PEMOVA, N. I I F Ways for reducing expenditures in receiving,, processing., and-storing corn. Muk."elev. prom. 29 n0-9:13-15 S 163. (MIRA 17:1) 1. Vseooyuzrj5ry nauclmo-isoledovatellskiy institut zerna i produktov yego pererabotki.  DEMIN, G., kand.tekhn.nauk; DZHOROGYM, G., ~and.tekhnoauk; MEVNIK, B.t kwW. takhn.naukl QHUKHARIKO, Z., kand.ekonomi.nauk. ImproVement of the technology 'of postharvest proaassing of grain. Muke- elev. prom. 28 no.8t6-8 Ag 162. (MIRA 17t2) 1. Vassoy"W -A4au&hno-issledovataltmkiy institut zerna. i produktov yego Pererabotki.  CHUKHARI-KOP Z.; USHAKOV, T.; SIIEKHTMAN, Kh. Using linea .r programming in planning the conveying of grain loads. Muk.-elev. prom. 29 no.12:14-15 D 163. (MIRA 17:3) 1. Vsesoyuznyy nauchno-issledovateliskiy institut zerna i produktov yego pererabotki.  VORONTSOV, O.S.; (19LIK, M.G.; LMDOVICH, V.N.; KLKIV, I.A,.; KOZO- mm, M.P., doktor biologiohaskikh nau . professor; SOSIDOV, I.I. .YBSTA, N.Ta.; CHUKHARIKO ; GILIKAN, D.Ta., redaktor; IL- Z J. BUS, G.A., teitt-oh;=A~'re&or. [Grain storage; management and equipment] Orgsmizatsiia i tekhnike khraneniIA,zerna.-Moskwa, Izd-vo tekbn. i skonomichesk4i lit-ry, 1954..358 P. [,Microfilm] (MLHk 7:10) (Orain--storage)  CHUKWIKO~ ZOTIK TMONOVICH N15 72h.1 .C5 Organizatsiya I Planirovaniye Raboty Zagotovitellnogo Punkta Zagotzerno (Organization and Planning of Work in Warehouses for Storing Grain) Moskva, Zagotizdat, 1955, 23h p. Diagre., TableB. Bibliography: p. (232)  CHUKHARIKO,Z.; NELON7/.B.-. SILINA,S. Ways of reducing the at of mechanical ventilation of grain. Muk.-elev.prom. 21 no9.4-7-8 AP 155. (KIRA 8:7) 1. Vaesoyuznyy nauchno-isoledovatellskiy institut serna i produktov yego pererabotki (Grain--Storage)  4AMI ;-SHBERIM, Kh. I - - -Xake effective use of machinery In grain procurement stations. M*.-elev,prom. 22 no.5:3-5 Ky 156. 1 Wak 9:9). l.TeesoyusM asuchas-issledevatelskiy institut seras I pro- dul~tov ego pererabetki. - (Grain elevators) (Grata-handling machinery)  _J% I . I . , 'c C~, -) CHUKHALRIKO, Z.T.9 L kand. ekon. nauk. Sconomic problems of the drying of grain. Trudy MTIFF no.7:163- 183 '57. (Grain--Drying) (KIRA lOrl2)  T CHUKMIKO, Z.- KOPTNV, I.; SUNKHTKM, Kh.; SEMPM, G.; BRMAKOVA, N. For an effective network of permanent grain prorurement stations. Muk.-elov.Drom.23 no;8;18-21 Ag '57. (kIRA 10:11) 1. VaesoyuzW nauchno-issladovatal'sXy institut zerna i produktov yego pereraboth. . (Grain trade)  ZRIGALOT, A.N..,.kELnd. ekon. nsuk; GHUKW~R'.KO,,A Imnde ekon* i2auk# t~Gn. nauk, spetored.; rstse'nzent~ LYUBUMM . v IM. V.K., red.; KISM, Ye.l,, tekhn. red* [Utilization of the capital assA-its of state-owned rural mills] Ispollsovanie o8novuykh foudov gosudarstvennykh sel'skokhoziaistyen- nykh mellnits. Noskva, Piahchepraalzdat, 1958. 122 p. (MA 11-08) (Flour mills)  I 111 ~7 AUTHO,iS. Chukharlko, Z.T., Candi-date cjf Economic Sciences, -and Stroyevat V . P. 9 Mn -gi n e e r TITLE., Mechanization and Automation of Productional Prices3es at Mills (Yekhanizataiya i avtomatizatciya praizvcdstvcnnykh protsessov na mellnitbakh) PERIODICAL. Nekhanizatsiya Trudcyemkikh i Ty_-zhLWk-h Rabot, 1958, Nr 5 PP 37-39 (USSR) ABSTRACT: The automation of the flour industry is one of the foremost problems. The fact that over 4,000 of the more than 80,000 mills are roll millsfacilitatas matters. However, not all the mills are equally prepared for autom--tilon. The elevators have complex mechanization. The ~'Ioscow elevator of the Mell kombinat Nr 4 (Flour Combine Nr 4) is the first flour eleva- tor with a completely centralized automatic control. Its ca- pacity-is 72,000 t of grain. ~,t most of the milleg the oewing- up and weighing of'the bags is done by manual laborg and the removal of the bAgs to the stora.-e places is accomplished on hand carts. This makes necessary tho introduction of a com- Card 1/3 bined apparatus fully mechanizing the operations. For the  1181.58-5-13/18 Mechanization and Automation of Productional Processes at Mills grain storage rooms, piling machines and machines for breaking .up the stacks should be brought into use. At other mills the production process has attained the highest stage of me- chanization. Experience has shown that pneumatic transport at the mills is easier to regulatq with the help of automatic de- vices and improves work conditions. According to data from Fromzernproyekt, the conversion of' the mills to pneumatic transport decreases the iiacessary area by 25-3T,~jreducincr the cost of building by 15-20'. The article contains a flow sheet of the pneumatic installation's work as elaborated by the Vaesoyuznyy naucbno-issledovatellskiy institut zerna (All-Union Scientific-Research Institute of Grain). The author describes the technological process of milling in the USSR9 and mentions the advantages automation will bring to the mills. The All-Union beientific-Researcb Institute of Grain has de- signed a sensitive cell of a membrane type serving as an in- dicator of clogging-up and failures arising in the milling machines. The device signals to the control desk, and auto- Card 2/3 matically stops and starts the rolling machines. Therc is  118-58-5-13/18 Mechanization and Automation of Productional Processes at Mills one photo. AVAILABLE: Library of Congress . Card 3/3 1. Flour mills-Operation Automation-USSR 2. Foods-Processing 3. Flour mills;-  CHUKHARIKO. Z. -, SHAMTRAN, Kh.; RADOV, A. Introducing a nwd system of management at the Orenburg Grain Receiving Station W6.2. Muk-olev.prom. 62 no.1:12-14 Ja, 159. (MIRA 12.3) 1. Vaesoyusnyy naiuchno-iss'Ledovatellskiy institut zerna i produktov yego perarabotki. (Orenburg--Grain elevators)  PUTMOV, A.;,. MUKUR'KO, Z-, Imnd.ekou.nauk; SHEKHMAN, Kh., kand.ekon,aauk ev.prom. Iff icient distribution of gmin procurement otations. NuIr.-al 26 no.1:8-9 4 '60. ML 1316) 1. Goeudarstvenzyy komitat Soveta Ministrov SSSR po kbleboproduktam (for Platonov). 2. Vessoyuzrqy nauchno-ionledovatellskiy institut zerna (for Chukbarlko, Shekbtman). (Grain elevators)  BXWZIIROV, G.; BORODIV, A.; KAW, A.; PTATMOT. A.; CRUKMOKO, Ze Nothods of determining theconovic efflotiveness of investments in th6gmin storing and milling luftstry.' Yak.-siev. pros. 26 no, 10 s 21-23 01600' (KIR& 13110) (Grain-StorW) (Grain milling)  RADOV, A.; CRUKHARIKO, Z.;.--SHEKHTMikN, Kh. --------- Simplifying the system of management in,grain receiving stationso Biul. nauch.-inform.: trud. i zar. plata 4 no.9:16-18 '61. (MIA 15:1) (Donets Basin--Coal mines and mining--Production standards)  RAWV, A.; CHUKHARIKO, Z.; SHEKHTMAN, Kh. --------- Simplifying the system of management in grain receiving stations. Biul. nauch. inform.: trud i zar. plata 4 no.9:18-22 '61. (MIRA 15:1) (Grain--Storage)  CRUKHARIKO Z. kand.ekonomicheskikh naukj DRAIN, G., kand.tekhn.nauk Problems of extablishing contJious grain receivingand procesapg lines. Muko-eleve prom. 27 nc,8:14-15'Ag 161, 04MA AV?) 1. Voesoyuznyy nauchno-issledovateltakiy institut zerna i produktov yeago perarabctki. (Grain elevators) (Grain-handling machinery)  -XAHUKUR-IM Z.; SWZMMN, Kh.; RADOV, A.; MKAZNOY, I ., starshiy inzh.; AKIFIYEVI-V. (Gorlkovokaya obi.) Improve the organization of work in different sections of the grain receiving enterprises. Muk.-elev. prom. 27 no.9:11-16 s 161. OKM 15:2) 1. Vsesoyuznyy nauchno-issledOatellskiy institut zerna i produktov yego pererabotki. 2. Normativno-issledovatel'skaya stantsiya Ministirstva zagc~tovok Kazakhokoy SSR (for Nakaznoy). (Granaries) (Grain elevators)"  PIATONOV., A.; CHUMARMO., Z. Improve the management of grain receiving enterprises. M*.-elev. prom. 27 no.10:23-25 0 161. NIM 14:12) 1. Gooudarstvennyy komitet zagotovok Soveta Ministrov SWR (for Platonov). 2. Vsesoyu=yy nauchno-issledovatellskiy institut, zerna i produktov yego pererabotki (for Chukha--Iko). (Grain e2evators)  SILICHENKO, 0.; CHUMRIXOp I.-, .Economic accountability at industrial sections. Muk-41ey. prom. 29 no.lsll-12 Ja '63. (KIRA-16:4) 1. Armavirskiy mellnichnyy kombinat (for Silichenko). 2, Vsesoyuznyy nauctmo-issledovateltakiy institut zerna i produktov ye pererabotki (for Chukharlko). rArmavir-Xlour and feed trade-4ccounting)  CHUM"OV, V.A. inzhener. " Calculation of the adiabatic nrocesfl in gaseous mixtures according to the tables for thermodynamic properties of gases. TeDloenergetika 4 no.8:82-83 Ag '57. (Gases, Kinetic theor7 of) (MI.RA jo:9)  CHMOHIN, N. F. "Study of Aging Processes in Crankcase 0:11 During Operation of D-35 Motors (Serial# and with Cylinders of Larger Diameter)." Min Higher Education USSR, Moscow Inst of Mechanization and Electrification of Agriculture imeni V. M. Molotov, Chair "Fuels and Lubricantsill Moscow, 1955. (Dissertation for the Degree of Candidate in TechAical Sciences) SO: M-955i 16 Feb 56  XU THOR: Chukhohin D* TITLE: Pelagic Rapana Larva in the Black Sea (0 pelagicheskoy lichinke rapany v Chernom more). PERIODICAL: Doklady AN SSSR, 1957, Vol- 117, Nr 31 PP- 533-534 (USSR) ABSTRACT: The Rapana bezoar L. larva has been traced in the Black Sea only in 1947. Now it has spread from the Bay of Novorossiyek. and from the coast of gruziya westward to the Crimea (Yalta, Sevastopolf). It isa greedy robber and a great danger for the oyster- and sea mus3el-banks as well in the Par East as in the Black Sea. From the spinning package of the Rapana typical I'Veliger'l-larvae (Fig.1) hatch, which live at least one month pelagic. This is contra- dictory to the statements by Drapkin (Ref.1), which says that they burrow themselves immediately into the sand. Their development and the structure of the velum as well as of the shall are disoribed. The larvae are met at all horizons, from 0 up to 14 M (on the ground). Two more Rapana species in Asia also have a pelagic-living larva. In the Bay of Sevastopol Rapana-larvae have been caught from July to October. In the aquarium they started propagating in June Card 0 and finished at the beginning of October. According to  2A-X-ho/52. Pelagic Rapana Larva in the Black Sea 71 __T_7j , . Thorson (Ref.7) the plankton-larvae of the animals settling on the ground are divided into three groups: 1. and 2. planktotrophic larvae; group 1. with a short pelagic lifet group 2. with a long pelagic life. 3. group: lecitotrophic larvaet which dispose of enough vitellus to be independent of plankton nutrition. Newly hatched larvae have only little vitellue. Their leoito- trophio period lasts 6 to 7 days, afterwards they depend on plankton and detritus nutrition. Thus the older Rapana larvae are to be placed under the second group. The phenomenon of a free-floating pelagic stage together with a high feounditiy obviously favors their rapid and wide propagation in the Black Sea. There are I figure, and 7 references) 3 of which are Slavic. ASSOCIATION: Biologic Station imeni A. 0. Kovalevskiyj AN USSRt Sevastopol' (Sevastopol' skaya biolocioheskays, stantsiya im. A. 0. Kovalevskogo Akademii nauk SSSR) Card 2/3  ?Q-3-49/52 - On the Pelagic Rapana Larva in the Black Sea PRESENTED: July 19v 1957, by Ye. N. Favlovskiyj Academician SUBMITTED: December 14, 1956 AVAILABLE: Library of Congress Card 3/3  ~V~ Order Saccoglossa (Gastropodap Opistobranchia) in the Black Sea. Trudy S13S 33'.-8�-91 260. (MIRA, 34:3) (Black Sea---Opisthobranchiata) -  (.CHUKHCHINq V.D. Pelagic gaBtropod larvae in the *ack Sea., Trudy SBS 13192-123 160. (MIR& 14-3) (Black Sea- Ga6tropoda) (L&rvae--Mo3-Iusks) 4  CHUKHCHIN$ V.D. Reproduction of Rapana bezoar L. in the black Sea. Trudy SBS 14tl63-168 161. .(MRA 15:4), (Black Sea-Gastropoda)  CHUKHCHIN, V.D.  GHUKHCHIN, V.D. Rapana bezoar.L. in th6 Gudauty oyster*beds. Trudy SBS 14: 178-187' 161. (MRA 15:4) (Gudauty region--Gastropoda)  CHUMCHIN, V.D. Quantitative distribution of benthos in the bastern part of the Mediterranean Sea. Trudy SBS 16r215-223 163. (MIRA 17:6)   BOSKIN, I.Ya.; BMKOVICH, N.Yh.; LHLKjH IA~Jj~ Introducing machinery in the blending process. Takste Prom. 18 no. 7:31-33 J1 '58. (MIRA 11:7) 1. Zamestitall Predsedatalys Yllyanovskogo sovnarkhoza(for Soonin).! 2.-Glavnyy inzhene.r upravlaniya legkoy promiyahlennosti Ullyanovskog4 sovnarkhoca(for Barkovich).-3.,Gl&vnyy malchanik Iforshanskoy sukonnoy fabriki(for Chukhin). (Textile ma china ry)  _1494-66: EM( EWPU _ACC-NR'~ A SOURCE CODE: UR/0286/65/000/022/0053/0054: AUTHORS: Chilkhin, A, -LP Ao d2Y4koY,_1, V9; DI'bin.-M. Go; Napustin, Go V ORG: none TITIZ A press for njeagdz rubber,products, Class 39p No. 176182 lanmunced.. by All-Union Scientific-Research Institute -of Rubber-Induatrial gbarjol FmIae Me ~Vsesoyuzny7 nagobno-issledovatel'skly institut rezino-tekhnicheskogo mas*nostroyeniya)2 SOURCEt Byulleteni-izobroten4.i.tovarijorkh znakovp no. 220 1965p 53-54: TOPIC TAGS: drive,, rubber taichnol rubber vulcanization,, pressure apparatus,, qW# nanufacturing:facilityp manufa6turinff:mathod ABSTRACT:',This Author.Certificate a t --press for vulcanizing rubber.productst g en a a for example, rubber-metal jaskets* 6 press includes devices for the withdrawal a And opening of,the dies ~~ (see FU,, 1). These.devices are made in the form of -hori- zontally positioned guides fastened to theplates of the press. The guides carry a sliding die which travels,with the help of avylinder. The upper rotating'part of~ .the die is connected to the base of the press by hinged arms. The design is intended to increase the-productivity of1abor. Thd-press contains mechanisms for-loading the stock material and removing the finished products. These mechanisms are in the form of a.vacuum cartridge connected by a hinge joint to the cylinder and are Card -1/3 UDG: (Y78.058.39    CHUKktR, B.A.; DAVYDOV, V.I. -C:=-~ Advantage of I'D" co.Uar threaded joint.4.7 Razved. i okh. nedr i 27 no.6:1+2 Je 16.1. (MIRA 14:9) 1. Vorkutinslmya komplekf~paya.geologorazvedochnaya ekspeditsi- ya (for Chukhin). (9o*Hn& machinery) .1  AID P - 2oo6 hubject' USSR/Electricity Card 1/1 Pub. 27 - 10/31 Author : Chukhin, N. K., Kand. of Tech. Sci., Moscow Title : Graphic and analytical method of building static characteristics of synchronous machinery Periodical ; Elektrichestvo, 4, 46-49, AP 1955 Abstract : The method is based on the replacement of non-linear relations of physical magnitudes by proportional ones and on the use of parametric equations of non-saturated synchronous machinery. This method is applicable to. machines.'with salient and non-salient poles. The author gives.numerical examples and finds that the magnitude of error of the simplified method does not exceed 8-per cent of the result obtained by the exact method. The author recommends wide use of the simplified method in engineering practice, Two rarfs..* numerical examples, 4 diag Institution: Muscow Power Engineering Institute im. Molotov Submitted No date  AUTHORs Chukhin N'K.. Candidate of Technical Sciences. 105-9-22/32 i:o! s = t ~ TITLE: On the Incorrectness of Making Use of Potier Is Vector Diagram for the Investigation of Exterior Pole Synchronous Machines. (Ob oshibochnosti primeneniya, vektornoy diagrammy Potlye dlya issledovaniyayavnopolyusnykh sinkhronnykh mashin) PERIODICAL: Elektrichestvo, 1957, Nr 9, PP. 73-73 (USSR) ABSTRACTt The methods by Blondel and Potier are given in textbooks for the construction of vector diagrams for electrical machines; Blondel's vector diagram applies in those cases in which the various re- actances exist in the longitudinal- and lateral axis machines, i.e. it is suited for exterior pole machines. For internal pole machines Potier's diagram is applied, which represents a special case of Blondel's diagram in the case of equality of the reactances in both axial directions. In some textbooks, however, neverthe- less Potier's diagram is rooommended'also for exterior pole machines as results obtained are very near reality. Here the reason for this chance agreement is shown and it is proved that the angles 9 and Q b will differtessentially in both diagrams. Calculation of a cor- Card 1/2 responding example is carried out. There are 7 Slavic references.  105-9-22/32 On the Incorrectness of Making Use of Potier's Vector Diagram for the ,Tnvestigation of Exterior Pole Synchronous Machines. 4ASSOCIATION: Moscow Institute for Energetics. (KOskovsIdy energeticheskiy- Instittt). AVAILABLEt Library of Congress Card 2/2  CHMIN, N.YO.-W The concept of the cylindricality of the human body and its practical application in heli6therapy. Vop.kur.fisioter. i lech.fis.kullt. 21 no.3:28-33 Jl-S 156. (MLBA 9:10) 1. Saveduyushchiy otdelenlyem sanatortya Ministerstva vyeshego obrasovaniya, Sochi. (SUN BATHS)  CHUMN.A.U.- Prganization of vork-on-~eaohes-.used.for- therapeutic PurPOOSO bY sanatoriu= and in solarium. Yop. kiii. fizioter. i leeb. fiz. kul't 25 no. 3,z211~215-my-je. '(K= 14:4) L Iz seaftoriya."Nauka" v Sochie (SUN BAM)  Shadow screens attached to cots rotatable by the patients during sun baths. Vop.kur., fizioter. i lech. fiz. kul't 30 no-5t451-455 S-0 165, (MIRA 18:12)  CHMN, 0. 1- Some problems in the improvmsnt of the productive work of pupils In the teacher's work practIces.Z%uk~.xap* lauk,-doelo.Inste psykhol. (MIRA 13:11) Is Pedagogichaskly Institut, Simferopol's (Mental discipline)  /07 0 PHASE I BOOK UMMUTIM SOV/573.7 Moscow. luzhanarno-4fixiaboakiy Institut, Pribory I motody nualizd i%luchaniy; abornik nauchnykh rabot, vyp. 2. (Appa- ratus and Methods for,the Analysis of Radiation; Collection of Scientific Papers, no. 2) Moscow, Atomizdat, 1960. 166 p. 4000 copies printed. Sponsoring Agencyt Ministerstva vyashego i arednego spatsiallnogo obra2ovanip RSnR. Moakovakiy Inzhenerno-fizicheskir Imatitut. Ed. (Titlar page)t Ye'..L. Stolyarova, Candidate of Physics and k~tha~atics; Tach. Ed'.s S. M. Popova, PURPOSEs Thip collection of articles in Intended for specialists in nuclear physics, dosimAtry of nuclear radiationotand shielding. COVERAGE: The articles were prepared by scientists of 141PI (Moscow Pb.*aicv and Engineering Institute) and presented at the-1957 conference qf the Institute. Brief annotatioas to the articles have been included in the Table of Contents. No personalities an zentionod. References follow "ch article. card I/* ------- ---------  Apparatus and Methods fbr t~he Analysis (Cont.) SOV/5717 Stolyarova, Ye. L., azkd,~. _Ch In. Determination of the Sensitivity Functions of a Single-Crystal Gamma-Ray Spectrometer With Gsl(Tl) and NaI (T1) Crystals 126 Function of energy losses was calculated in NaI(Tl) and CsI(Tl) crystals at equal si.les and at energy of incident photons E = 662 kev. The theoretical calculations are in good agreement with the experi- mental data. -/Stolyarova, Ye. L., G. M. Suchkov, and L. S. Nesterova. Effect of the Temperature of the Medium on the Amplification Factor of Photoelectron Multipliers M-,, - t 137 It is shown that the amplification factor of photoelectron multipliers changes with the temperature of the medium. This phenomenon is as- sumed to be related to the change of the coefficient of secondary emission of the dynodes effected by the temperature. Card 6,6   Investigatio gular-spectrum S/79616Z/000/063/ 02/019 _P_ n of, the an distAbutions..'i. 0~ boundary plane of a barrier.: .C660.sourc6e were-used with Alt Fe, and Pb media. Angular i-ntensity distributions of th,6'scattereci-,,y~~-'ractiation were obtained# anda comparison was made between'the differential --y-ray energy spectra obtained with an Al barrier of a thickness Vod= I and 1-.8--and those obtained theoretically for an infinite geometry. The desired funct -16n N'depends on the barrier thickne3s, the angle 0 between.the-direction.of the.1primary y quanta and the direction of the scattered -y quanta near. the given poitit. ~ and on the energy E of the scattered y quanta_ -The-experimental equipment~ used, consisting of a fixed Nal(Tl) er ystal, ___5n arr 70x48 mm, and~a.lrotatibld-s~ ~i-~ able sour, ier riV, Is-described- _T~he_spejz_tr o ~raaoIutIbri;-4nd_detailsL the photoamplifier and, the 100'. -A ~ a R e7t~O-To~r t-dd-.- channel pu s-6-4mplitude The:: -C-o6o*-source was. simu a e ions were 75x'75_cm. '.-The_.-_pIan.ek, single -dire ctional W t -by- a punctuated source located"a:t ~all..fairly great distance, (to obtain nearly uniform radia-.. tion intensity on the barrier) ;-` -Experimental results and data-processing methods. The amplitude distribution of the impuises was measured for a finite number of .scattering angles. Corrections were introduced to obtain a true y-ray spectrum: 1, The "dead" time of the spectrometer, which was a specific defect of the 100-chaniTel amplifier employed,,. in which the !'dead" time was a function of the amplitude of the input impulse.,.. Z., The;background, obtained by subtracting the impulse spectrum - Ilim tor with a lead rod from the impulse spect found by- closing the detector- co a rum Card 2 /4  -Investigatioln-6f,the ahgula're-spectruml distributions... S/796 /6Z /000/0013 /002/019 measured with ihe. collimator open4 3a TheArue y-quantum spectrum asobtained from the mea's'ured impulse - amplitude distribution. The solution of the integral eiluation involved in this problem has been accomplished variously (LidA_n I K. 0et al., Arkiv Mi 7-ye., no.7. 1954~ 5; Whyte& G. N. # NBS Report no. 1003, 195Z) and Is hero perfor;ned by transforming the integral equation into a system of interrelated linear equations. The method of this analysis of the spectrum, inclucling the determ- ination of the--matrix elements require'd therefor and the construction of the matrix, -is explained.-in detail. ' 4. The spectrometer- effectiveness correction, *including the effectiveness of the spectrometer at the photopeake i. e.s the ratio of the number of jrnpulses at the photopeak by the number of -y-quanta that impinge on the crotal, and the corg~ction'for the effective solid angle of the collimator. 5.: The ienergy- k6sult-s-of -the measure ents are set for --,"A'was resolution do" ection~- -Thel rn i.stributions of the scattered y-r on,-r"gardless found that alt-aingular energy d adiati e of the atomic number Z and the angle 0. have a maximum that corresponds to the energy of single scatter over. a minimal angle. The shape of the angular energy distrib-ation indicatqs that the energy-dissipating role of multiple scatter increases with increasing angle, 4 and O.ecr*asing atomic number Z of the medium. Substan- tial differences between experimental and. theoretical spectra occurred for low energies only; this is attributed to the lack of backscatter with real barrier geo- metry. In the low-energy range an atomic-number -dependent multiple- scatter Card 3 A J  ASSOCIATION: None'given.  S/196/6Z/000/003/018/1DM" ,AUTH0RS-._ Stolyatova.-Ye-OL-at C_h2kWA.&Q.,,Larichev,A.V. measureme nt.Iof.complex low-intensityy -Ltra TITLE:: Equipment for-t6:_ -ape, ~SOURCE: Moscow. Inzhenerno4izicheskiy Institut. Pribory i metody analiza -iz-lucheniv -=nq~3_4964_481 t TEXT: iAjinjl~-.crYstal-,s.C1wt1lla ion y-,spec rometer was.assembled:fdr1the--:-:: experunental:investigatiori,of. the passage of y-rays through matter. A block diagram is shewn. The-rernoie 'portion~of the' spectrometer consists of a NaI(TI) crystal, 8 Gx80 mm, and a photoele c-tronic multiplier (PhM) 03Y - 1 B - (F-7,U- IB) ,with a 70-mm. diam cathode, all enclosed in a Pb housing. The side shield of the housing, assembled of interlocking Pb Vricks, is no less than 150 mm, that of the frontal wall (the collimator)n.o less. than 300 mm. thick. Collimators of 10, ZO, 30, and 50-mm diam can be inserted for work with sources of various intensities (cross- section shown). The pulses pass from the anode load of the PhM to a zero-overload preamplifier and then onto the. linear amplifier of the "Kashtan" equipment. A 100- channel analyzer is utilized. A. special voltage divider serves to feed the electrode of the PhM with independent potential regulation on several electrodes (focusing system) to enhance the 'energy resolu.tion.,. For example, for (-rays of C8137 (0.661 mev) a 9.501a.energy resolution is attained, which is comparable to that Card 1/Z,  _~5 'Equipment for the of complex,'... measureme S/796/67./000/003/018,/019 re ported by J.'Kockum (Mict. Instr U-M. v.4 F no. 3,lw 1959, 171). The use of a large Nal(TI) crystal ensures an elevated registration effectiveness (807a for 1-mev Y_ rays, no less than 5616 for 10- m ev- y- raIys); the heavy shielding reduces the background to about 15 Pulses/sec.. The stability of the equipment is good: 1.5-219 variation per day on the.energy scale.-, The, energy peak to also highly, load-stable; a change in integral count:from 500 to 5,00O.pul.ses/sec engenders a shift in the peak of less.than:Vjo. The instrument thus offers good promise fo Ir the measure- -spectra, over a broad range of energies and intensities, the ment of complex y measurement of the spectra'of scattered y-rays, and the performance of quantita- tive and qualitative isotope analysis. etc. .. A comparison is made between the elaboration of the amplitude: spectrum of.the -y-rays of equilibrium radium for Compton distribution as measured on the present equipment and D. Peirson, s measurements (Nature.-V. 173..1954. 990); the individual lines obtained with the present equipment are found to be defined more sharply. Spectra of the intensity -of y-rays from a -Cobo sourc'el' scattered at angles of 20, 50. and 700 in a 16-cm, arrier are a - -_ - -_ h- --- - There- are 7-figures and the Z above-cited English- thick Fe b loo a own. language U. S* -references ASSOCIATION: 'None -given. Card 2,/Z  KJM 3SI4 N t  . . I , , r ~ I -  L 43079,66 - T,1T(m)/3rr10TV) ZTEWP-(t-)/ZT1-/EWP(k-)-- - LTP(c) - 4D/151 SOURCE COIE: UR/0137/65/ooo/on/DO05/DO06 Acc NR: AR6014375 AUTHORS: Pavlovp Ae Me; Zuarevj, B. M.; Chu.14no V. V.; Trifonovaj R. Go; Kashkinagi L. N. TITLE: Formation of elastic=plastic operzie K-re-teel cables SOURCE: Ref. zh. Metallurgiya, Abs. 11D39 REF SOURCE: Sb. Stalin. kanaty. Vyp.-2. Kiyev, Tekhnika, 1965, 355-359 TOPIC TAGSt wire, wire product, rupture strong~"',, flow stress ABSTRACT: Increasing the degree of deformationlof surface*layers during straight-~ ening leads to a decrease of the elastic and flou limits, howevers the overall I effect achieved by this method is negligiblea. The increase in the degree of de- i, formation during straightening has a negative effect on the time dependence of rupture strength. Straightening of cable drastically reduces the magnitude of I- residual tensions in the surface layers of the cable. This explains the observe.'I lowering of the eWtio and r1ow limits, 3 illustrations. L. Kochenove, ffrans- lation of abstracy SUB CODE: 3.1 J~z jzo MC z 621.771.001 1  TRUNINI I.I., SOLONOUTS., N.I.; ~Mu - L L Dwaluation of the struets-tupture strength or materials for long service Ursa Zara labo 29 no.62752-753 163. (MIRA 16t6) 1. Tsentralli#y nAud-bno-issledovatello'kiy institut tekbnologii i mashinostroyaniya. '" ' (Strength of materials)  A UKH try& Of 2, No. 4, 81 (170).-Albleb1hol K C. A. 16. W201 608 Dip. tral adv two Met khthyul, In Place ul which it fee =. It is tM"g:z:=O altnost cololkts* has a Oftevich, Is esAy oi. in &k., knolln. petrolatum, and vrgr Tib-it, and mineral oils, am forma a fine tmuliqbm with Water. ItSthMPeUtiC&CtiMISSrCattftbAnthAtU(iCIl- 400 During refixing It is treated with chlorinated lime bedom. contalm about 2-3% of Cl. The content of Sis 915L. S mW Cl we deid. secordins to the 0 torthod uW Suoss (C. A. 27, ZM). 0 'a W. R. Henn Of see ISO* wee 14" L1 0.1 4.9 U Is At 10 INA do L s a "lip 0 v a 1, or a at aat 't 1 94 IF It9Asa381 00* a 009004141:040000-00000 * 0 ,a 0,60 0 1p * f 0.0 71~ 0 00  ,Okl 00 A 1 1 T 7 r a it a 71 i a IN a a v " "9141 ~ - - *I pith Ov V. 161, Rtxlkmov 1 tlpw~ RLPAR.) 14. cc INIA (to 111,6104 9 7 i lbA viscous cam WAS dta AM amtkA. after tivallo 2 11 1 4 un sts, ~ iM it, lisire ww, - Unmu water). 4#00 -40, d"I 4186 U U is ~113 n ", "4 w gwOl w" 00. e 0 i lee SCW A" Its detiva- R, 1. Challbivia, J. Gm 4"U 1. Imumic --m W", "411im on a Strain bath: in Ag. NOAM6 filtOmi. W^b jkto*.~'WVGPQ. of the ' L211,1 V, i ~, ")t 11, aftef t it 'r l k l i iter tr"Ift W l ise l $U% milram dens. in. 175 0' -040 R 1:00 ago goto go* x4e ISO" WWI". We* 214441- 00  UY, UNWAft C, M-W 03); d. A. SO, i CHIC011 (1) derive. were P-.epd. for the chuactertzatlati oc I I 1 1(11-5 C1 huted with 28.7 g. SOCL~ 1. hr. to"* ad,. clmlod ea-m 3.77 g. I c/darici~ (U), dmomp. 123-41. 12 g.) redued 6 hm. with I ~8 g. urca Ctffa give I areW, 124-40, IdecarnVn.; frM StOH); thif; Iteated with cotled'! if'C] gave 1. 1 refluxed 4 hra. with a larv excess of AcwQ! giavt the ArAc d"iV. m - is", (from IRMO. I aduk 4 Chemdes! Abst. , . 4 hrs. in EtOH sod. with HCI gave 92.5% E9 etkr, trz. I.W. * f V6 48 20 (from EtO), whilch (2 C-) kcated 3 hrs. with 0.6 c. ui~a 4 . Apr. 10, 1954 In FtOH coaq. 0.23 g. Na gave 60% awUc, ru~ M21 , irad 15% ureidc, m. .129-40*. If the refluxitts (a proku t Only the amide h obtained; the latter larras to M% yield. ~~ Or~--,anlc n+-5' (from HtO), from 11 In cold C49o with d , Nffj the yield rha W711701n xytencor MePh. Rand- eM V to 8.4 c. Br and 18.22 C. KOH in 00 mi. HgG, and the Mixt- heated 30-40 min. WO-W, cliffled and addhiFed A , 1IC1 gave a yellow ppt. (5.3 C.), which, extd.-with Na Mid the tit. acidified 'L-ave a a. Mixed roduct3-. tftl~utou in%ol. portion of this (0.6 g-), m, W131. was Id"tifeA the, Mat-rial left after tr In cau.~ R-' ~2,,d imbstatfma obtained th,]~ Hofmann reaction above wtu 1 (2.05 g.)~' G. X r,.z; A~  USSR/Organic Chemistry - Synthetic Organic Chemlstry~ E-2 Abst Journal: Referat Zhur - Xhimiya, No 19, 1956, 61479 Abstract: conditions of formation of IV, whereas IV is converted to V in the presence of NH31 11 9 1, 11-73 9 11 and 20 ml 12$ alcoholic NH3 are heated 5 hours on water bath and treated with absolute ether; in'residue 1.85 9 VII MP 200-2010 (from alcohol); from solution are isolated 15-45 9 V, MP 89-900 (from aqueous alcohol). VI is converted by action of NaNO2 H2S04 to T. Condensation of 5 9 1 with 5-33 9 11 in 30 ml absolute alcohol + 6 dr-ops piperidine yields 3.2 g Yj ester 1. 25 g 1, 26.7 9 II-and 3 9 M are heuted 10 hours at 107-1150, yield of 1~r 30.1 9, MP 39-400- Heating of IV with al- coholic KOH or alcoholic C2~50M gives ;o_HO0CC6%CH = CHCOOH. IV is not changed on heating to 2000. 2 g IV heated 5 hours on water bath with alcoholic NH3 gives 1.35 9 V~ O'~"18 g I and 0-31 9 IV- 5-45 g methyl ester of 1, 5.32 g II and 0*5 g III are heated 10 hours at 107-1150 yielding 0.6 g methyl ester of IV, BP 235-2370/8 mm and 2.5 g IV. From 0.2 g methyl ester of IV with 10 ml 37% 14H after 2 months gives 0.1 g o-CONH2C6H4iCH Z C(CONH2) - COOC2H5 no~ melting at 3000. Card 2/2  CHUKHINA, Ye.I. 7. ~.- ~ .,,00'- Synthesis of o-carboxy and o-carboxydimethoxy-benzal-barbituric acids. Zhur.ob.khim. 28 no.9:2582-2585 S 0580 (MMA 11:11) 1. 2-y Kookovskiy maditsinaldy inatitut. (Barbituric acid)  5-3900,5-3610 AUT'HOR: TITLE: PERIODICAL: ABSTRACT: 77915 SOV/'[9-30-2-66/78 Chukhina, Ye. 1. Concerning the Isomerization of o-Carboxy- and o-Carboxydinethoxyben- zalbarbituric Acid Zhurnai obshcbey khimii, 1960, Vol 30, Nr 2, pp 662-665 (USSR) This is a continuation of previously published studies (tills Journal, 1958, Vol 28, p 2582) on Isomeric transformations of o-carboxybenzalbarbituric acid (1) and -o-carboxydimethoxybenat" barbituric acid (11) which represent acid benzal-forms of bar- bituric acid. ~O \CO-NH/ (POOH CO-N11 G H --Z ~O \GO-NH/ H3CO_ /\ 113COQ COOH Condensation of o-aldehydobenzoic acid with barbituric acid in Card 1/3 pyridine gave (I), and similar condensation of opidnic acid with  Concerning til Isomerization of o-Carboxy- 77915 and o-Ctrboxydiinethoxybenzalbarbituric Acid S011/79-30-2-66/78 barbituric acid gave (II), both in quantitative yield.. Spectral investigation showed that the structures of (I) and (II) were identical with that of the compounds obtained previously (op. cit.) by condensation in an aqueous medium. Heating the benzal- form (1) in ammQria-etbanol solution gave the lactone form (III) (plithalidylbarbituric acid), which on standin for 48 hr at room temperature in dilute HC1 reverted into form tl). Similarly, Isomerization of (II) gave (IV) (meconylbarbittIric acid), which in acid medium reverted to (II). C CO-NH C --Z Nn' 0 ,OIL \CO-NHI 11c1 COOH r "0-N11 CO-NIJ Nit, CH-6/1H ~O C111,011 \CO-t4 I,/ /Y \'O "IC, \Co-~11/ 113C0 COOH 113C0.- (IV) 9, >/ CO HSCO it, 0 Card 2/3  Concerning the Isomerization of o-Carboxy- 7791-5 and o-Carboxydimethoxybenzalbarbituric Acid SOV/79-30-2-66/78 ASSOCIATION: Sumfl=: Bromophthalide heated with barbituric acid and ethanolic sodium ethoxide gave compound (III) which gave no depression,bf melting point with (III) obtained as above. IR spectra were taken at the M. V. Lomonossov Moscow Institute of Fine Chemicals Technology using type IKS-11 spectrophotometer. There is I figure; and 5 references) 2 U.K.,.l German, 2 Soviet. The U.K. references are: A. F. Tittley, J. Chem. Soc., 2576 (1928); J. F. Grove, H. A. Willis, ibid., 877 (1951). 2nd Moscow N. I. Pirogov State Medical Institute (2-y Moskovskiy gosudarstvennyy meditsinskiy institut imeni N. I. Pirogova) February 2, 1959 Card 3/3  CHUKHINAI Ye.I. Alkylation of o-oarboxy- and o-carboxydinethoxybonsylbarbittirlo acids. Zliur.ob.khin. 33 no.6t2O33-2036 A 163. (KMA 160) 1. 2-y Mookovskiy gosudarstyennvy moditainakiy institut imeni N.I.Pirogova. (Barbituric acid) (Alkylation)  // ,~ /7 /z/ 7- -S &F- /" 4 - q-. iUTHORS: Rudnyy, N.M., and Chukhla4ts6v, A.A. 115-5-25/44 TITLE: Increasing the Accuracy of Low Resistance Measurements (Povy sheniye tochnosti-mer malogo soprotivleniya) PERIODICAL: "Izmeritellnaya Tekhnika", No 5, SeP-Oct 1957, PP 56-59 (USSR) ABSTRACT: A method of measuring the resistance of low-resistance refer- ence coils is suggested in view of inadequacy of the present- ly practiced method of check-up on weak currents, since in work the coils are often used on strong currents. The magni- tude of error occurring in this way is calculated on an ex- ample of checking of 0.0001 ohm reference coils on a dual bridge and a 0.001 ohm coil with a 30 amp current, and the use of 0.0001 ohm coils with 500 amp current. Despite the need for precise measurements of strong direct currents of several thousand amp, the industry supplies only shunts of class 0-5, and even such accuracy is not always guaranteed. Such errors can reach the magnitude of several per cent. A mathematical analysis of these causes is made. The suggested method of checking low-resistance coils consists in connect- ing the reference coils into parallel groups. The authors derived an equation for evaluation of the systematic and of Card 1/2 the largest possible occasional error in measured resistance  Increasing the Accuracy of Low Resistance Measurements 115-5-25/44 of a parallel group at given resistances of single measuring coils. They conclude that the load characteristics of low- resistance reference measuring coils have to be determined on a nominal current with the use of a parallel'group of re- ference resistance coils, the potential-terminals of"which are connected by special "equalizing" resistance coils (con- ductors), the resistances of which have to be in proporticn with the resistance values of corresponding low-resistance measuring coils. For raising the accuracy of shunts for strong currents it is suggested to apply a pair of potential- terminals on every section of such a shunt and to connect them with conductors, the resistance of which is in pro- portion with the resistance of the corresponding shunt sections. The article contains 2 electrical circuit diagrams and one Russian reference. AVAILABLE: Library of Congress Card 2/2  EVLOITATION SOV/2215 VbtxoyuznYY nauChlic-i3sledovatellskly institut, matroloigll. iment D.I. Mendeleyeva . _r Reforaty nauchno-josledovatellakikh rabot; ornIk No.2 (Scientific :b R esearch Abstracts; Collection of Ar Ic 5. Dir 2) Moscow, t I StandartSix, 1958. 139 P . 1.000 copies printed. Additional Sponsoring Agencyt USSR. XomLtar. staodartov. mar I I=orltel-nykh priborov. 5d.-9 S. V. RashOtin&; Tech. Ed.z M. A. KondratlyevA. PURPOSEt These reports are Intended for scientists, researchers, and en inee s e d d I d l d d r n s, measures, an ngage eve ar opLng stan g gages for the various industries. COVSRAOR: The volume contains 12B reports on standards of sea :o- t d men an control. The reports were prepared by scientists Institutes of the KOOLItet standartov nor I lzmoritellnykh priborov PrI Sovate KInistrov SSSR (6oxcalasion on Standards' measures, and Measuring Instruments under the U."R Council of Kinistara). The Participating Institutes are, Vs*BOYuxnj*7 nauchno-lonledovacel-skly metrologLI Lftoni'V.I. Mandeloyeva (All-tinion Scientific Research institute of Ket- rQIOBY IftenI. D.T--Xend*2&yuv) In Uningrad; Sverdlovsk branch Of--this InstItut*; VMIXX - VGG5QYu=Yy1 rauchno-1.9cladovatel-akLy, lobtltUt Komiltota standartov, mar I izmoritel1nykh pr1borov (All-Unlon Scientific Research Institute of no Comalealon o n A Standards# measures, and Measuring Instruments), created from XGLKI? - XoakovskLy goaudarstvennyy InstItut mar I I=erltolwnykh priborov (Moscow State Institute of Measures and Measuring Instruments) October 1, 1955; VWIIFTRI V*030YUznYY nouchno-Isaledovatallakly Inatitut fLziko-talchn1- chenklJfh I radlotakhnicheakikh lzmerenly (All-Unica Scientific Research Institute or Phyalcotechntcal 3nd RadLo-onginearing Xe&Ourcmdntfi) Ift Moscow; KhQIXIP - Khar-kovskly Cosudarezvennyy 1nstItut nor I I=erltellnykh prlborov (Khar1kov 3tete lnstltmt* or measures and Measuring Instruments); and WGIMIP - Novofil- btrakly Scoudaratyenyy InstItut mer I Izmerjtel1nyWn priborov (Xovonibirsk State Institute of Measures and MoasurIng Instru- m*E14). go personalities are mentioned. There Are no references. aloatric and.ragnatic Measurements (Shrankows Ye~D~, Editor, Frofelsor) N.A. (MIMIF). Apparatus for Checking Standard Induct- ll Aagy _ ng the Time Constant A' and Capacitor3 and for Measurl &an.. tA of Nonroactive Realstors for 400-500-Ohm 91 jyrgoyA_2j_A~ (MGIMIP). Apparatus for Measuring the Time Constant or Your-torminal Nonreactive Resistorn for 0.001 to 3evOral Ohms 93 CLrghhol'Ty, 4.L. (Nalmu). Developing a Standard XcWtIring Unit a S t. of Standard Capacitance Measurea, And a Method for ChaoLng working Measures of Capacitance From 1 to ~O PC At Frequencies up to 100 Mee&cyclesv And Up to 450 PC At Frequencial up to 50 Megacycles 9, N M A.Z. Ve)uacr, A.jA. nuichl d M, Q_Abttl~ts Shunts and Low-re- i-tingle Brid-ge 0 cc In& sistanO; Gaz4a 96 _LA=ak._X_Sh. (MOXMIP). Apparatus for Checking Standard Ancestors Card 19/2-t and voitmeters -at Figh Frequencies 3 and* ina (VKIXX), and A ranch or,vvixx). Developing Mawmall tIng Direct-Current Transformars Type ;a I do;Vp,prating C:!n:N 0n& at 70 X110"Peres .102,  RUMTAHMEV, A.S.; DUBOVIX, Ye.P. Irrors In the shunts used for the measurement of large currents. Trudy VNIIM n0-38:76-85 159. (MIRA 13:4) (Blectric measurements)  S/058/62/000/003/005/092 A0611A101 AUTHOR: Chukhlantsev, A. A. TITLE: Calculatbn of the dimensions of small high-current resistors PERIODICAL: Referativnyy zhurnal, Fizika, no. 3, 1962, 11, abstract 3A124 ("Tr. in-tov Kom-ta standartov, mer i izmerit. priborov pri Sov. Min. SSSR", 1961, no. 52 (112), 56-67) TEXT: Formulae for calculating the minimum cross section of the manganin parts of resistors used in high-current circuits as well as their overheating temperature and the dependence of resistance on the current passed through are presented. Calculated results are compared with test data. [Abstracter's note: Complete translation] hr Card 1/1  CHUMAMSEV, A.A. "eating of 158 and 1505 measuring devices. Trudy instjKom. .8ta"A., mar i J-im. prib. no.52:128-137 161. (MMA 14:10) 1. Sverdlovskiy vilial Vsesoyuznogo nauchno-issladovatellskogo inatituta metrologii im. D.I. Mendeleyeva. (Electric meters)  77-7, CHUKHLANTSEV, V.G.; ALYAMOVSKAYA, K.V. Potassium zirconium ailicate, itis preparati.an and properties. Zhur. neorg.khim. 9 no.lt2l6-218 Ja 164. (MIRA l7s2) 1. Urallskiy politekhniehaakiy inatitut imeni S.M.Kirova.  (2 H /4 L VV 7-.,S--c- U USSR/Physical Chemistry Mor m.&,~~ard c a%bermocherdetry. B-8 E4uilibriur,. Myslcochwical Analysis, Phase Transitions Abs jour Referat Zhur Khimiya, No 2.. 1957) 3747 Author Chukh1antseyN.G.) Sh,-xova A,K. Inst :'IMM Mgto, University. Title ; Solubility Products of Uranyl Arsonates Orig Pub Zh. neorgan. khi-rdi, 1956, 1, No 1, 36-41. Abstract BY the isothermal method at 20P vere secured data on the solubility of uranyl arsenates UOPK-1604 ".M = H, Mf4) K, Li and Na) in dilute solutions of'nitric nnd sulfuric acid. By utilizinG previously derived oquations t.Babko A.K,, Nlaukovi zapiski KDU, 1935, 4) determination was Mdu of the-solubility r d cts of the arsenates und study 'CU02+ As Z_M 5 _7, ve-.ich are (at 200): 10-214 (M NHk); 2.52 10-23 (M K); 1135 Card 1/2 92  -- --- ------ ----- -- t~ H L ft A) T_ USSR/Fhysical Chemistry - Thermodynamics. Thermcheraistry. B-8 EquilibriW. MysicocheraicaL Analysis. Fhase Transitions Abs Jour-. Referat Zhur.- Khimiya, No 2) 1957) 3750 Author Chukh1autsev V,G., Stepanov S.I. lust, Kiev_gt=eUniversity Title Solubility of PhospbAtes of UwM1 and Thorium, Orig Pub Zh. neorgan. khinii, 1956, 1) No 3) 478-484 Abstract ok.phosphoric.acid coupounds of uranyl -and thorium.-by the method of solubility of precipitates .-in dilutIeIsolutions at nitric and sulfuric acid and by the method of tagged atoms., at 19-200. From the solubi- lity data computed by iaeans.of the equations of A.K. Babko (Ilaukovi zapiski kiivsk. derzh. univ-, 1935, 4) the solubili 4_? roducts are- of phosphate of uranyl and ammo- nia fuoal/ CNHC7Z_F+_j4-36 . 10-27; phosphate of ura- p03- nyl and potassium IR-4-7 7.76 10-24; Z 2 7 " Card 1/2 97 -  i MJ.-Amnate dtD]ns.   CHUKHLANTSEL 'w " Solubility of malts of aresitous acid, Zhur. neorg. kbin. 2 no.5: 1190-1193 MY '57. 1 (MIPA 10:8) 1. Urallskiy politekhnichookiy inatitut imeni S.M. Kirova. (Solubility) (Arannites)  OMMMANSEV. V.G. Normal titanium sulfate. Zhur.neorg.khim. 2 no.9:2014-2017 S 157- (KM 10:12) l.Urallskly politekhnicheskiy inatitut im. S.M. Kirova. (Titanium sulfates)  ~SSR/Physical Chemistry - Therm~zn~mics, ermochemietry, B-8 Equilibria, Physical-Chemical Analysis, Phase Transitions. Abs Jour : Referat Zhur - Khimiya, No 1, 1958, 411 Author : V.G. Chukhlantsev, G.P. Tomashevskiy. Inst : Title : Solubility of Selenides of Some Metals. Orig Pub : Zh. analit. khimii, 1957, 12, No 3, 296-301 Abstract The solubility of selenides of Hg, Ni, Co, Mn, Yo. Fe and Ce in diluted solutions of HNO,, H S04 and HU vas studied 2 0 was computed. The me and their solubility product a thods of preparation and analysis of the initial selenides are discribed. The methods of carrying out measurements are stated. The solubility products are equal to the fol- loving: Card 1/2  USSR/Physical Chemistry - Thermodynamics, Thermochemistry, B-8 Equilibria, Physical-Chemical Analysis, Phase Transitions. Abs Jour Ref Zhur - Khimiya, No 1, 1958, 411 -2 2-~7 = (3-8 :t 2.2) . 10-19; Lpfjj-j25fSe 2 LpfHgAS_eO 3 03 (l x o.1).lo-5; Lpg-02~r fS-e 2 (1.6 t o.3). 1o-5. 03 L~?fM-n2~;r fS-e 2 = (1. 2 = o. 4). jo-7; Lpfp,)2~r ZS_eO~.~r 0;7 (3-4:t 1-3) .10-12; LpZF-e3!7 'CgeO2 _3 o-31; 313 ~-- (2 ::t 1 .7) 1 L - 2 (3-7 t 0.3). 10-29. pCCe3"7 fS-eO3:7 Card 2/2  r-- tAQ~  KRTLOV, Te.I.; CHU M ANTSEV. V.G.; CHUNIN, V.S. Studying solubility in t be system tantalum pentoxide - selenic acid- water. Izv,vys. ucbeb. zav.-, tevet- met- no-3'.97-101 158. (MIRA 11:11) 1. Urallskiy politakhnicbeekiy inatitut. Kafedra khimii i takhno- logii rodkikh metallov. (Systems (Chemistry)) (Solubility)  SOV/78-4-2-34/40 AUTHORS: Chukhlantsev Krylov, Ye. I., Chunin, V. S. TITLE: Investigation of the System Selenic Acid - Niobium Pentoxide - Water by the Solubility.Method (Issledovaniye sistemy seleno- vaya kislots, - pyatiukis' niobiya - voda metadom raatvorimosti) PERIODICAL., Zhurnal neorganiaheakoy khimii, 1959, Vol 4, Nr 2, PP 478-482..,.(USSR) ABSTRACT: The -solubility of.niobium pentoxide in solut1,_:.-%s of.selenic acid-of various concentrations was investigated at,temperatures of 25,.510, 75, and 1000C. Purest.Nb 205 (99-9 7%) s)-d selenic acid (99.-8%) were used as initial materials. The results show that the.sblubility of Nb 20 5 rises with the increase of the concentration-of H 2SeO 4* Upon doubling the concentration of selenic aoid the solubility of Nb 0 is increased 29 times 2 5 at 250 and.120.times at 1000. In the system Xb 0 -SeO -H 0 2 5 3 2 the solid phase in the concentration range of 14-33 N H2 SeO4 Card 1/2' consists of variously hydrated niobium pentoxide only. This  BOV/78-4-2-34/40 Investigation of the System Selenic Acid - Hiobium Pentoxide - Water by the Solubility Method 6o fact.was prbved by means of the radioactive indicator Co The roentgenograms of the solid phases confirm the amorphous characte.r of hyd-ra-tL-d niobium pentoxiae. Hiobium. pentoxide ,gel is hydrated in a 60% selenic acid solution while a hydrate is formed with a composition similar to that of ortho-niobic acid: H 3NbO 4* 0.5H20. Upon a further concentration increase of selenic acid this hydrate is dehydrated. There are 1 figurej 3 tables, and 16 references, 7 of which are Soviet. ASSOCIATION: Ural'skiy politekhnichaskiy institut im. S. M. Kirova - 0&1.~ I -~]P.olyteohnio Institute imeni S. M. Kirov) SUBMITTED: December 3t 1957 Card 2/2  5W SOV/76-33-1-1/45 AUTHOR: Chukhlantsev, V. G. TITLE: Determination of the Dissociation Constants of Arsenic Acid (Opredeleniye konstant dissotsiatsii myshlyakovoy kisloty) PERIODICAL: Zhurnal fizicheskoy khimii, 1959, Vol 33, Nr 1, PP 3-7 (USSR) ABSTRACT: Several values of the dissociation constants of arsenic acid, obtained by different methods, are mentioned in publications (Refs 1-6). In the present case these constants are calculated on the basis of data on the solubility of difficultly soluble arsenates in strong acids (with a certain concentration of the H+ ions), and the values of the solubility products (SP) found for the investigated arsenates. The SP values were determined 65 90 110 by means of the radioactive indicators Zn , Sr and Ag and.the H+ ion cancentration was measured potentiometrically with a pH meter UNIKhIM with a glass electrode. Strontium arsenate was obtained according to Blarez (Ref 8) and zinc arsenate according to Schulten (Shullten) (Ref 7). The dis- sociation constants for arsenic acid at 200 are given as Card 1/2 follows: K 1 = 2.2.10-3, K 2 = 1.3-10 -6 , K 3.10- 12 3 ~  SOV/76-33-1-1/45 Determination of the Dissociation Constants of Arsenic Acid The accuracy'af the pH determination shows a maximum error of 3-5~,- thus, a maximum deviation of 15-40% from the calculated data (Table 8) is possible. There are 8 tables and 10 references, 1 of which is Soviet. ASSOCIATION: Ural'skiy politekhnicheskiy institut im. S. Y. Kirov&., Sverdlovsk (Ura3sPolytechnical Institute imeni S. M. Kirov, Sverdlovsk) SUBMITTED: November 15, 1956 Card 2/2  CHUITL,12-1~L~.Gs; ALYA~W31',X; K V. Solubility produete of uranyl.. beryllim, and cerim phoorhates. Izv.vys.ucheb.zav.;khim.i khim.teh-h. 4 no.3:359-363 161. (1-[Mk 14'.10) 1. Urallskiy politeldmichealciy institut imeni S.M. Kirova, ka-Pedra radiolchimii, (Uranyl phosphate) (ce;ium phosphate) (Berynium phos-Phate) (Solubility)  CHUKIUANTSEV) V.G.; ALYAMOVSKAYA, K.V. Solubility of copperj, cobalt,, nickelp and cadmium phosphates. Izv.vys.ucheb.ziLv; khim.i khim.tekh. 4 no.5:706-709 161. (MIRA 14: 3-1) 1. Urallskiy politekhnicheakiy institut imeni S.M. Kirova,, kafedra radiokhimii. (Phosphates) (Solubility)  2'jO7 7 17, 1 -1, n S/078/61/006/006/003/013 B110/B2o6 AUTHORS: Chukhlantsev, V. G.. Shtollts, A, K. TITLE: Sodium zirconium silicates PERIODICALs Zhurnal neorganicheskoy khimii, v. 6, no, 6, 196i.. 1332-1337 TEXT: The first production experiment of a zirconium silicate (Ref. 21 Ye. Ye. Kostylevai Teirkonosilikaty, Izd-vo AN SSSR, 1936), the sodium zirconium silicate$ however unsucoessful, was made by Sheerer~ who established that zirconium with soda and caustic soda only produces sodium zirconate and sodium silicate. The authora of the present paper wanted to develop a simple and reliable production method for sodium zirconium silicate. 60% zirconium concentrate crushed to 0.05 mm size, with 0.47 hafnium oxide content, was treated with a mixture of concentrated H 2s04 and (NH 4)2S04 at 200-220 0C, washed out with sulfuric acid containing hydrogen peroxide, and heated for 8 hr with a mixture of sulfuric and hydrofluoric acid. Three methods were used for the synthesis of sodium zirconium silicatat 1) sintering of zirconium with soda; 2) melting of Card 1/10  23077 3/078j6i/oo6/oO6/003/013 Sodium zirconium silicates B110/B2o6 zirconium with caustic soda; 3) hydrothermal treatment with soda- or caus- tic soda solutions at increased temperature under pressure. For 1), the following reactions occurreds ZrSiO 4 + Na 2CO 3 'Na2ZrSiO5 CO2; ZrSiO4 + 2 Va2CO 3 " Na 2ZrO3+ Na 2SO3 + 2 00 21 Na2 Zr3105+ Na 2C03 Na 2ZTO 3 * Na2Sio 3+ CO 2* The rate of the last two reactions was determined by the sintering temperature and the zirconium/soda ratio. For 2), the reaction at 500-BOOOC proceeded as followst ZrSiO 4 + 4 NaOH = Na 2 ZrO3 + H 20. The authors then melted zirconium (8 parts) with caustic soda (1 part) at lowor temperatures under the exclusion of water and carbon dioxide. Unlike zirconium, Na 2Zro 3 and Na 2ZrSiO5 are soluble in conoen- trated HC1. No Na 2ZrSiO5 was determined during the chemical and roentgeno- graphic analysis of the phase condition of the reaction products. The reaction at 3400C took a quantitative course when 8-10~a by weight of water were added prior to melting. Then, 3) was applied; The reaction of zirconium with soda- or caustic soda solutions under hydrothermal Card 2/10  230 i 7 S/078/6!/006/006/003/013 Sodium zirconium silicates B110/B2o6 conditions at raised temperature and pressure: crushed zirconium was sealed hermetically in a silver container with soda- or caustic soda solution. The proportion by weight zirconium/solution was chosen in such a way that the Na 2C0 3 and NaOH concentration.. respectively, remained practically constant during the experiment, The silver container was placed Into a steel autoclave which was partially filled with steel pulp, The autoclave was shaken in an air thermostats The temperature was kept constant by means of an automatic electronic potentiometer with an accuracy of 1.50C. The XK (Kh K) thermocouples connected in series served as indicator device. The pulp was preheated for 2-2.5 hr- A device for changing the pressure was not provided. The substance was quantitatively dissolved in water in a beaker and separated from alkali by decanting, The residue washed out in a glass filter with water, acetone and ether was dried at 70 OC4 and the phase condition of the reaction products was determined che'mically and roentgenographically (Tables 3-6), Up to 3000C zirconium does not react with soda solution under hydrothermal conditions, with caustic soda, however, it reacts in a wide temperature- 250 00 and concentratii~,n range (- 50,,16), according tos ZrSiO4 ;- 2NaOH Ha2 ZrSiO5 Card V 10  -2 30 '1 7 S/078/61' /006/006/003/013 Sodium zirconium silicates B11O/B2o6 4 H 20, Thorough crushing and shaking is essential, Accordi.ng to Tables 3-6, sodium zirconium silicate is the reaction product at temperatures < 3600C and NaOll concentrations 3f 20-65%. The authors recommend for a temperature of 290 0C a caust 'io soda concentration of 60~44., a ratio solid t,liquid - I # 5j 4 granular size of M5 mm and a duration of the process of 15-30 hr. The reaction ZrSiO 4 i 4 NaOH = IIa,ZrO34-.Na2SiO + 2H20 which takes place with 80% caustic soda (Tables 4 and 51, at a meltin9 temperature of 500-60000, proceeds under hydrothermal conditions at 275 C,, ZrSiO + 2 NaOH - Na + 2NaOR ~ Na ZrSio t H ZrSIO ZrO 0; Na 2 2 2 2 4 5 3 5 -+ Na2sio3 + H20. From this, the effect of water on the beginning of caustic soda melting can be seen, Na 2 ZrSiO5 is stable in the wide tempera- ture-and caustic-soda concentration ranges and is a fine-crystalline white powder insoluble in water, The pycnometric density determination in H 20, CH 0 H and CC' produced 3.57t0.05 as a mean value at 200C. During 'L 3 6 5 4 heating, it is easily soluble in ENO 3? H2SO4 an d HCI at concentrations )61~~ Card 4/10  23077 S/07a/61/oo6/oo6/oO3/O13 B11O/B2O6 Sodiuaf zirconium silicates It is slowly broken down by* hot water. The measuring accuracy of the roentgenogram amounted to j 0.1 mm. The intensity of the lines was de- termined visually. According to the results ob.tained, Na2ZrSiO 5 has a. complicated crystal lattice. The authors thank Ye. I. Simonovp Yu. F. Gogolev, V. S. Chunin, and Yu.' M: Polezhayev.for their cooperation. There are 7 tables. and 10 refererices: 2 Soviet-bloc and 8 non-Soviet-bloo. The reference to the English-language publication reads as follows: Ref. 9: K. S. Rajan. J. Soi. Ind. Research (India)*, 12 B, 32 (1953); Chem.Abstr. Al,.7107i (1953); 1,31B 43,0954~); Chem. Abstr., 48.13178o (1954). ASSOCIATION:- Urall,skiy:politekhnicheskiy institut im. S. M. Kirova (Ural Politechnic Institute imeni S. M. Kirov) SUBMITTED: Apri-1 27, 1960 'TLxmverature, OC; to Tablp 3-6'---!) 'Legends 2) NaOH conjentrat1onj b, ., * weight;.3' dura on of experiment, hr; 4) degree of d omposition in %; , in resl mole;,6) phase condition of the ~ 5) found Jue roducts, a) very 4. weak, b) weak, dl medium, d) clear, e) very clear. Card 5/10  CHUDIUNTSEV, V.G. - Sparingly soluble armenates to the rule of series. Trudy (Arsenates) I and oelenites considered in relation dral.politekh.insteno*1210-8 062m (MM 160) (selazlites) (Solubility)  CHUKHLANTSE Design of a high-voltage electrodialyzer. Zav.lab. 28 no.5: 628-629 162. (MM 15:6) 1. Urallskiy politekhnicheskiy institut imeni S.M.Kirova. (Electrodialysis) I..  CIIUKHLANTSEV, V.G.j POLEZHAYEV, Yu.M. Reaction of tum,zirconium silicate with water under -1362 hydrothermal dit ons. Zhur. neorg. khim. 9 no,6:1358 A f63 (MIPJ~ 17:8) 1. Urallskiy politekhniaheskiy institut imeni Kirova.  CHUKHLANTSEV, V.G.; ILASfKOV,, Yu.' ' *, 1 Interaction of zircon wi-I caustic alkaliej under hydrothemal conditions. 2bur. neorg. khim. 9 no.6:1492-1493- Je'63 (MIRA 17:8) 1. Urallskly politekhnic,-teskoy institut imeni Kirova.  POLEZHAYEV, Yu.M.; CHUfaiLANTSEV, V.G. ~- ~ Interaction of sodium zirconsolicate with water. Zhur. neorg. khim. 9 no'.5:1123-1128 My 164. (MIRA 17:9) 1. Uraltskiy politekhnicheskiy institut.