Cxj~~-rYfJKVV, ~u.V. IPRMOLOV, B.A.; UBOIOTSKATA, N.A., MOROZOV, L.A.; QUaTT KOKOV, S.I., redaktor; juMyAMIVA, I.K., tokhnicheekly redaktor. (Operation of the 3-80 tractw] Amploatatslia traktora 5-80. Moskva, Goslesbunisdat. 1951. 226 p. (Km 8:1) (Tractors)  CHISTLAKOV, Yu. V. "A Numerical Method for Determining a Function V."hich (sic) Tomsk U, Tomsk, 1954. ;,ZW-lat, Nov 54) 6 Survey of Scientific and Technical Dissertations Defended at USSR Hi&her Educational Institutions (3-1) SO: Sm. No. 521, 2 Jun 55  MOROZOV, L.A,', inzb.; PRASOIDV,, B.A.,,.inzb.; C 0 11. V. t insh.; PEREERG, B.S.,, red.;,STRMM 0 red. ' - " ' -~_ :I -_ (Album of fixtures and tools for the assembly and disas- sembly of the Mtalinsts-&P tractor) Allbom prispoaoblenii i instruments dlia aborki i.rasborki traktora "Stalinets-SO." Moskva, Goslesbumisdat, 1951. 86 p. (MIR& 16:7) 1. TSentrallnyy nauchno-Issledovatel'skly Institut makhant- sataii i onergetiki lesozagotoft. (Tractor~-Maintenance and reptir)  ARAKELYAN, O.I.4_CHISIIA~OVA, A.A._-- Synthetio boohmits. Zhur.prikl.khim. 35 no-711448-1451+ Jl 162. . . .(~ffRA 15:8) (Boohnite)  SOV/136-59-6-12/24 AUTHORS: Arakelyan, 0.1. and Chistyakova,_ A.,A. TITLE: Peculiarities of the Microstructure of Aluminium Hydroxide Obtained by Various Methods (Osobennosti mikrostruktury SidrDokisi alyLuliniya, T-)Oluchayemoy razlichnymi sposobami) PERIODICAL:Tsvetnyye metally, 1959, Nr 6, pp 62-70 (USSR) ABSTRACT: The authors of this work have carriod out investigations of production probes of aluminium hydroxide at the UAZ, DAZ and the Bayer Branch of BAZ as well as of the hydroxide obtained by the carbonizaZion method at BAZ and TGZ. Crystallographic invetitigations have shown that the crystal structiu?es oil these probes differ considerably from each.other. This is shown first of all in the appearance of separate crystals and, even more clearly, by the nature of their aggregation and the size of the-deposit obtained. Alwriiniurn hydroxides are made. by two methods: "centrifuging" (Bayer process) and carbonization of aluminate sollitiont; (in establishments where sintering is used). Alwiiniini hydroxide is obtained Card 1/4 from aluminate solutions by the two abovementioned methods  SOV/136-59-6-12/24 Peculiarities of the Microstructure of Aluminium Hydroxide Obtained by Various Methods as gibbsite (A1203-3H20). Under production conditions the crystallization of gibbsite is aggregational by nature and only occasionally are monocrystals encountere(l. At the surface of the latter traces of a layer growth in the form of continuous spiral layers can be seen (Fig 1). With the Bayer process it is impossible to obtain crystals >30 11 ~Ref 1). As regards the basic masses of the hydroxide, the latter is represented by the polycrystalline aggregates. The crystals aggregate in the form of thin plates (Fig 2). In Fig 3 an idiomorphic hexagonal crystal with a zonal fading away is shown (hydroxide of,UAZ). The particle size of the hydroxide varies fundamentally with the method of production, as can be seen from the Table, p 69. Rectangular, coarse, drawn out, wedge-like crystals are Card 2/4 obtained by the carbonization process. In contrast  SOV/136-59-6-12/24 Peculiarities of the Microstructure of Aluminium Hydroxide Obtained by Various Methods to that obtained by the Bayer process the nature of aggregation of such crystals is radiai (see Fig 4). Bayerite ?in contrast to gippsite (monoclinic), crystallizes in the hexagonal system. With the aim of examining optical properties, which are very important for the correct diagnosis of aluminium hydroxide,, the authors produced ba-yerite from a dilute alkaline aluminate solution (135 g/litre total alkali) whichwas kept in a stoppered bottle for a long time at room temperature. After 7 to 10 days a spontaneous decomposition of the solution commenced with precipitation of a flocculent white deposit. X-ray structure and crystallo-optical investigations have shown that it was bayerite. Thermal analysis does not show any difference between gippsite and bayerite. The microstructure of the specimen obtained is character:!-zed by a fine crystalline aggregation of the anisotropic grains, a grey interference colour and a definite Card 3/4 refractive index.  SOV/136-59-6-12/2A Peculiarities of the Microstructure of Aluminium Hydroxide Obtained by Various-Methods There are 4 figures, 1 table and 5 Soviet referenced-. Card 4/4  s/-i*56/6o/ooo/oll/OO7/O13 E021/E4o6 AUTHORS: Arakelyan, 0.1., Lyapunov, A.N., Chistyakova, A.A. and Kavina~ V.A. TITLE& Study of Phase Transformations of the Hydroxide in Different Conditions of Decomposition of Aluminate Solutions PERIODICAL: Tsvetnyye metally, 1960, No.11, PP-54-58 TEXTs Eperiments were carried out on the phase transformations occurring during the decomposition of aluminate solutionslin the presence of two types of nuclei (hydrargillite or bohmite) at 65 and 95 C. At 650C, the experiments lasted 79 days. A solution- containing 125.6 g/1 Na2O and 119 g/I.A1203 was used. The degree of decomposition after seven days was 38.21% using a bohmite nucleus and 50.2% using a hydrargillite nucleus. After 79 days only hydrargillite was found with very small inclusions of bohmite where bohmite nuclei were used, thus showing that bohmite is not sta-b-1- at 65*C. At 95% with a solution containing 117 g/1 Na2O and 166 9/1 A12031 using bohmite nuclei 40 to 58% decomposition occurred aft. er seven days according to the source of the bohmite. It was shown that the precipitate contained 87% bohmite and 13% hydrargillite. When hydrargillite nuclei were used, Card 1/2  S/136/60/000/011/007/013 E021/.E4o6 Study of Phase Transformations of the Hydroxide in Different Conditions of Decomposition of Aluminate Solutions decomposition reached 16.6% after seven days and 23.3% after fourteen days. Crystal-.optical studies showed that the precipitate was completely hydrargillite. There are I figure and 16 references sll Soviet and 5 German. Card 2/2  -~CHISTYAKOVA, A.A.; KAVINAP V.A. Refractometry of alicali-aluminate solutions. TSvet. met. 34 no.3:67-70 W 161. (IMA 14:3) 1. Vi3esoyaznyy alyuminiyevo-magniyevyy Institut. (Aluminates) (Refraetometry)  ARAKELUN, 0.1.; CHISTYAKOVA, A.A. Role and characteristics of water in the investigation of the phase and mineralogical composition of sodium hydroaluminosilicate. TSvet. met. 34 no. 4:42-44 AP 161. (MIRA 14:4) (Sodium aluminosilicates-Analysis)  ARAKELYAN, 0.1.; CHISTYAKOVAj A.Ao --- L- Investigating alumina phase conatitatLon in electrolyteb. TSvet.moto 34,,uo.1o.-oV#,-68 (AL-4 ium-InectrometallurgY) (Phase rule and aluminum bath 0 161. (MIRA 14-:10) equilibrium)  AEAETIMP 0.1.; CH33TYAKOVA, A.A.; PAVLOV., Tu.I.; PCDZORMA,,L.1-4 Formation of hydrogarnoto in muds from alumina production. TSvet.met. 35 no-8:54-58 Ag 162. (IMI 15:8) (Alumina) (Hydrogarnet)  CHISTYAKOVA, A.A.; KAVINA, V.A. WAPWP7, Investigating transformations of aluminum hydroxide in alkali-alumi nate solutions. TSvet. met. 36 no-11:46-53 N 163. (MIRA 17.1)  CHISTYANVA, A.A. Data on the system Na2O - A1203 - H20, TSvet. met. 37 n0-9154-60 S-164. (NBA 180)  CHISTVAKOVA -, ispoln)rayusheMy obi-azannosti metodista From the exhibition into industrial production. Inform. blul. VDNKH no.10:12-14 163. (MIRA 18:5) 1. Fazdel "Zbeleznodorozhnyy transport" pavillona "Transport SSSR" nn Vvst-avke dostizhenly naro~nogo khozyaystva SSSR.  -A.A. Wnaralogicql phase characteri5tics of Industrial alumina. T-5vet. met. 38 no.gt50-57 Ag 165. (141FA 18:9)   CHIST41OVA. A.M. : URM. K.V. Organization of laboratory control over public nutrition. Trudy IAW4I 25:65-78 '55. (Kim 12-.8) Is Rafedra gigiyany pitaniya Laningradskofo nanitarno- gigiyenichemkogo, meditsinskogo instituts kzav. kafearoy - doteent Z.M.Agranovskiy) i Pishchevoys otdeleniye Leningradskoy gorodskoy annitarno-spidemiologichookoy stantsit (starsbiy sanitarno- piahchevoy wrach A.P.Molkumova). (NUTRITION, in Ruesia. laboratory control (Rue))  GISSEN, A.I.; KLYGA, L.P.; RHAUKHOREM, K.D.; CHISTYA]COVA. A.m. mmmwmmmpwl- Hygienic characteristics of nutritioxi at trade schools. Trudy LSGMI 31:129-144 156. (HIM 12:8) .Xadskogo sanitarno- 1. Kafedra, gigiyeny pitaniya Leninr gigiyenicheskogo meditsinskogo instituta. (zavomfedroy dots. Z.H.A6 anovskiy). MHWLS' trade schools, nutrition (Rug)) (11MITIO11. in trade schools (Hue))  CHISTYAKQYA, M., kand.med.nauk, VORTK91. H.G.. stnrahiv laborant, THETIYANNA, Y*.I., labornnt Protein content of diets in pulmonary tuberuclosis (with summary in 7ranch]. Probl.tub. 36 no*5r49-58 158 (min 11:8) 1, Is kafedry giglyeny pitaniya Stalinskogo meditainakogo instituta I is knfedry gigiyeny pitaniyR Lsningradal~ogo sanitarno-gigiyenicheakw-o meditsinakogo Institutne (TUBERCULOSIS. PULMONARY, ther, diets, protein composition (RUG)) (DIN, in ,var. die., pulm. tubere., protein composition (Rus)) (PROTBIN, setabl.' requirements in pulm. tubere. (Rus))  A A.M., kand.med.nauk ,9HNTYAkPVA Assimilation of fats in pulmonary tuberculosis. Vrach.delo no.2:158-3.59 IP '59. (MICU 12: 6) Io lafedra giglyeny pitaniya Stalivskogo meditflinskogo inatituta. (PAT XMBOLISM) (TURMUIOSIS)  CHISTYAXGVA~ A.M., kand.med.nauk,- VANIMNIM, V.D., kand.med.nauk; MARCHENKOv ekonomist Basic methods for hygienic improvement of public eating facilities for minors. GigA san. 25 no-1107-42- N 160. (MIM 14:1) skogo m9ditainskogo instituta. 1. 1z kafedry giglyeny pitaniya Stalin. i Stalinskogo oblastnogo statisticheskogo Upr leni;m. Iqv (COLL MINERS-DISHASE AND HYG E)  CHISTYAKOVA, A.M.; VANKHANEN, V.D. "Laboratory manual on the hygiene of.~nutrition" by A.I.Sl-ternberg, W.I.Plotnikova, K.VALkhovizia. -Reviewed by A.M.Chistial-.ova, V.D.Vankhanen. Reviewed by A'.M.Chistiakova, V.D.Vankhanen. Vop. spit. 21 no.3:91-93 My-Je 162. (MIRA 15:10) (FOOD) (SHTEFUIBERGl A.I.) (PLOTNIKOVA, IU.I.) (MUKHOVINA, K.V.)  A.M.; GOLUPSNNOVA, M.D. Hvv,'~,,nir investigation of the nutrition of the Donets coal ba5in mAners underground. Vop. pit. 24 no.li28-31 Ja-F 165. (Mlin 18~~9) 1. Kafedra g-igiyeny p~taniya (zav,- doi-sent P.M. Chistyakova) Done'skogo meditsirislrogo instituta i Gorlcvskqv gc,7-odskcy  BARCHENKO, Ivan Petrovich, prof.; Ck:LSUJAM,-AloktuLudra-YAtvayevna, dots.; VANELUM, Villyam Davidovich., kand, med. nauk; MZHANOVSKAYA, Yelona, Stanislavovna.. dots.; Prinimell ucha- stiye: PETROVSKIT, K.S.,, prof.; ALEKSANDROVA., N., nauchn. sotr., prepodavatell; BEDULEVICH, T.j, naucim. Botr.p prepo- davatelf; TURUK-PCHELINA, Z.., nauchn. sotr., prepDdavatell; SMINA) Te.p nauchn, satr,,, prepodavatell; BURSHrM, A.I.p prof.; SHEVCHENKC, M.G.; STO1MWVA;=kAjX#s*& [Manual on the vocational training of students in nutritional bygiene] Rukovoclstvo k proizvodstvemnomLL obucheniiu studentov pc gigiene pitaniia. 2. izd., ispr. i dop. Kiev# Zdorovlia, 1965. 221 p. (MIRA 18:7) 1. Zaveduyushchiy kafedroy gigiyeny pitani7a I Moskovskogo meditsinskogo iustitita im. I.M.Sechenova (for Petrovskiy). 2. Kafedra gigiyemy pitaniya I Moskovskogo meditsinskogo institute, im. I.M.Sechenova (for Aleksandrova,, Bedulevich, Turuk-Pehelina,, Sharina). 3. Zaveduyushchiy kafedroy gi- giyerq pitaniya Odevikogo meditsinskogo instituta (for Burshteyn). 4. Glavnyy inspektor po gigiyene pitaniya Mi- nisterstva.zdravookhrananiya SSSR (forShevehenko).  VOLOSHCHMOP Ye.A.; DVORYANCHIK, V.I.; ILICHENKO, Ya.I.; TOPOL'SKAYA, T.A.; CHISTMOVA, A.M. Organization of sanitary supervision by a province sanitary- epidemiological station to control the use of poisonous chemicals for the treatment of food crops and animals on farms. Vop.pit. 24 no.3t83-84 Yjy-Je 065, (MIRA Istiz) 1. Kafedra gigiyeny pitaniya Donetskogo meditsinskogo instituta. Donetskaya i Lyganskaya oblastnyye sanit&rn(>-epidemiologicherkiye stantaii. Submitted June 16, 1964.  S/184/60/000/004/003/021 IQ, A109/AO29 AUTHORS.* Shvarts, G.L., Candidate of Technical Sciences; _Chistyakova, A.N.&Zh)- Markova, L.S.; :: Graduate Engineers TITLE: The Manufacture of Apparatus From Titanium-1 PERIODICAL.., Khimidheskoye Mashinostroyeniya, 1960, No. 4, pp. 8 - 10 TEXT: This article, compiled in cooper&tlon with Graduate Engineers M.M. Abelev and A.V. Nosov, states that tqsts carried out by NIMIKKASb have eitab- lished the. high corrosion resistance0of ST1 ('al)VIrAtanitun. An unidentified plant produces single-roller fOAA DOM) dryers with cast iron, steel and t1ta- nium parts. The dryer is designed for highly aggressive concentrates used In non-ferrous metal production, containing sulfur compounds anft hydrochloric acid. Its only other non-corrosive component is tanta],um,-A Pulps of these concentrates are filtered through Ar-130T (IjG-130T) titanium 71-1ters designed by V.P. Abramov. In coke plants -VTl titanium proved absolutely corrosionproof ffl-id-superior to highly-alloyed steels. Based on these results a saturator pipe and a rectifier were designed. The importance of surface, clearainess of walls on ~!orrosion rp- sistance was tested on 6-mm VT1 titanium and OT4 (2T2)ALl-loy. It results fr,,:,m Card 1/2  s/184/6o/ooo/004/003/021 The. Manufacture of Apparatus From Titanium A109/AO_29 laboratory teets of N11_XhIMMASh and foreign papers (Ref s. I and 2.) that In mcEt media.the corrosion resistance of titanium is not higher than the resistance of acid-resistant steels. Chloride solutions contRining mcwjEt clilerine, carbamide solutions, and sulfur solutions containing S02, H2S and chlorine Ions, are an exception to this r"ale. ln these solutions tit-anium proved non-corrosible whereas highly-alloyed ateels wre subject to pitting, total corrosi-kn ol- trana- crystalline cracking. Welded titanium tubings produced by the Moskovskly trub- nyy zavod (Moscow Pipe Plant) and teested under similar conditlorL3 avowed no los5 Cf waight and no races of eorr-~slve cracking. 1X18H9T ant steel.Ehows pitting, corrosion in chloride solutions containing KC10 and X18H12M2T-(Khl8Nl2M2T)%stee1 shows var ccrr