SCIENTIFIC ABSTRACT KHACHOYAN, G. - KHADZARAGOV, A.P.

- - -7a, 1 119 A I .  XHACHOYAN, G.; SUCHKOV. I. Organizational work. of the city committee. Toen.znan. 36 no.5:21-22 14.v 160. '(MIU 13:4) 1. Zamestitel' pradnedatelya Taahkentskogo oblastnogo konitets Dobrovollnogo obahchestva oodeyetviya armii. aviatsil A flotu (for ]Chachoyan). 2. Starchiy instruktor oblastnogo koTAtsta Dobrovollnogn obahchostva sodeyetviya armit, aviatali i flotu (g.TashkentI.Qor Suchkov). shkent Province-Ailitary education)  MM, B.Kh.; TARANOVp Ye.D.; prinimali uchastiye: ALEKSANDROVICH, L.B.; GITARTS, G.M.; KLIBW, Yu,V.; NOSOVA., Ye.M.; REZE113IAT.,-I.M.; UACHT)' A. 1. Doexidati=-Apd alloying of acid electric steels in the ladle. IZVO VY8,& UAeb. zav.; chern. met. 6 no-4:50-55 163. (,1-1IRA 16*5) (Steel-Eloctrometallurgy) I a i H, g Ix 1-; 9 1. nj tj"S Piliz, oil is Ji Z@l C  A Is a W I b, A Is v so A IF 11 A a L ,A I jL- As, C-Cl r@oq **A Theory of reaystallLution proc~v. I Indeence of the r4=06 Stractiato traoxformatiolls in SON pham. .2- "It. ph". M-w i j PAYS. 04M. (KAFVR. I al. Russitiant, .--TIW eattipa. of the Cu plusoic effects the utts"o(re. 0 0 4clicistel"itak", 11. Influence of the CGS plia" go struc. ture trao0sorroadems at chromic exisle. %L A - Khach- 11"" -n rkl H. Orinsurst. Ibid. A'A MI(M M-71-Iti- M-Al-111werhous Crt(N to hesolIVI i's it furnotiv the lefnlv@ 4 wills Is riti-Ml 3 4' rr Injil., I IW trusts. I's .-I Clo h 00 ItIal to that A of the 1111110AV until In*ry-In. j %lativo WIWI) F# ovittlak" Yt, 'the hish"i 1.1.1p. I- Al 0 whk-b ri - 17# wax RM-AN) In it high ViAeutins,A)s 415* in 01, NXI-Mil" in IICI SM4. &50-lwlo@ in NO, .010 610- 11.10* in OAN oil I skins. A mixt. of nine No dn.1 little *h ago witil as liner Qllh@ After rivi-r"Iti. Vr,(Ils unit evil had it a 00 6.37-A.314 A.. M' :it)', The -1. front tlw unit vli st aspecUlpyeriamr(rp. It dependson the water content of see the CtYStA6. After W brit. heating at 12(01' the water ii at"Ity glunin.11d4l. anti Al. A.21 Ji re4clust A(tvT2 firstling ill (WIFI' the %411114c till N.IjAiu"l @`; 11,41 Suit "1 -1, 4 SM wee &66,11LA tl&LLU4FGKAL Liffaii4al CILASUPICATtaft wee A I i IF .1-1-ir ito i I 1 04 a a 0 1 N 14 S is a 3 a PLO Ti U AV -0 as of ad *11 offfit I(INK16A Ilia do Ii 0 0 0 Ill 0 0 a 0 116 111 0 0 0 0 0 0 0 0 * a 0 0 0 4111 Wo 0 0 0 0 0 1: 6 00 go 0 0 0 0 0 0 0 0 0 0 0 0 Ole 0 0 0 ift 0 0 0 0 0 0  0 0 0 0 0 a 0 a 0 0 0 a 0 a * 0 0 9 110 a W a 9 a 0 - i Is It #1 W I) too of k a to V 0 M a Is I/ a IN 0 of 48 0 4d ate 114 wit A I 1 4-8-1 -9 J-4-A-0 - 040 A coo 0000d 401 drring "pin must*. m. -00 A.- Kheekolookywor-A. G. R". and P. 11. 1 Oatill'thtnkip. 12. 4-4(19U). - llydrAtiom 4 NASA ofitifing trwooportAtiou W"i 6tocalt (X-tuts I)ft-*UIC of abamptivin al atm. wo6tan. durbitt this ptiocc". the 001 Material become citylerood witloi a lourfwo crust witich hin- .1fra further hydr%ttion. Hydratioul fly at)uwptwn 44 trookilture from the &tni. proceWs t4owly. DryinSL4NAr.@ **A 'A)o under slowly stul depmlson irrap. and depth cof layer of mAttrial. The dried ml@t SO& .00 layw bladers thir transfer W heul to the inner layffs an4 00.1 see ndtks an e1lotilmled In the countercurratt nitchad 64 2*0 god drying in which the Inciamias and outgoing tetaps. of dor 00.7 00.3 material need not he ground; lumpi hAving a max. tire up a6e Iinmediato tepn. of tbv macerate Into 2 layers. 7he lower la@er was too J I SON discarded ,LrA the upper ls)ur wit Med with 11. CM the sept. see CHC13 ext. was cioned. to dnueds in V3CU3 the reaiduJ reflzed twice with 500 c prtions of peroxide free Et 0 filtered the pulverized dry residue :300 ff dissolved in 500 cc of 95% AGH t4ated with a supension of 2W of freshly gee I@1 pptd. Fe(C4i)3 in 5W cc H U the mixt atirred 1 hr filtered snd the go* :1 jfiltrato treated ag tin with re(CH)) filtered and condd. to drvneve In 11141411 1101 vacuo at I& low tamp to yimld the active CaMiAc glycoside. to &.114. A 811141.1.4146KAL 1.11184710dr! CLAISWCAINN old-, t-1.1111 81 slaw sillosiva gee 4st -12*0 P to noon to * I r N 2 a a 3 U it if IQ An A I 0 11, R 1114"Aan lima Z@ 0 0 0 0 010 0 0 0 0 0 0 0 0 0 0 6 0 * 0 0 9 0 Ibis * 0 0 0 0 0 0 0 0 0 0 0 * 0 0 0 0 ISO * 0 0 0 0 * 0 00 * a 006 # * so 0 0 * 6 0 0 0 0 gee 0 0 S, 0 0 0  C4, The godemb "Noi" adnffb*d fis' wft"IM Oposefoletwerd M. P N walei fraqie the whiqviti waters of Kvithalts, me Isatter *om tho Itlark aft at ftAl. below front a drybetip book saw The we (lako Rod 11116110,19 WMIW OPM 4 6M I 'untiall dep.41. viere w1aw Oub "Ib"646. 1. 710selitt-wa otlerial dally Until the Ce, conirnt of Ow mOtMUNt ONAd use ro"t., lodbMilell vTtil. Then this MPWWAti&&t MOM was saitlysird for P11. No. K. Md. Co. Cl. bulk NW "Cos. The clays thas trfttnl we" subjected to leivieneft to WWI bw earr" at 4. win. This was k4lowid by leaching *TUNoI..NIW. Atilwatinetione ,be tiny with . the muietan of %be p I clay irtut detil. 17 dry6w at too- i lot. To obtain The true value 01 the al l 090414 ftume k w agevesitry to dot. the vvi. of The cothas IN the oqu*. .an. betol tier clay twiticks. To pt this vaho 11114 Vol. of the physically belti, will" which is wit a @W - t W to be sottirartM hum 1160 total Vol. at 1100. sit" on phrole"y b*M twitior depwa& am the vowit. at the WPIL a.. own %no of wthwal water bad to be AN this libys. water boy d4mil. the Cl tHer. Allow:41"thok- .,III clay wet treat"I with 12, lot. of the 094. ask. OW i41vrv4 her 310-41) WAU . c"4191,404, OW &I the Uh, t1ld 4-1 r4lars. was %kid. 'I%@ quantity of physically cow Meet! 140 was raW. by the folloorbid squotboal C4 lou r( r. : + I a Z"i x - Phtideaft inelablaw U4 14 I-Aw 6. of wr 46" c"Cla, of Cl lifief The elpt.; or - The 11#0 content of the clsyt lix1_110, per IW=tA dry clay. The gypsum water conigiged 12,ld Q, A P Co"Wril 'i'llier Per )LOIS-Asir; the Block Oft willor 7.13 sn), the Sosirk-avjb 1 a7 MI.; deep b,,W wittler 19.76 in]. With them figures it we% poooW jq C&k. tb* COMS'ks" of *4x*bW callous an the clay hkb cor. tvtPftd to The *quit, conditions, Jib The talkout of the 4 of water s"Allraod. The* 4at4 our tre need In detc (allrOOF Of IN481. in WhiCh lbir dA78 fOrMft 1. .1. felt  ait-coon Iteft"s "votig so" and mad M A. K hm7 It - -vankJAN. "V10,110 I xffdm. 7, No. 6. 01 1641.. a NJOII U"J Wh. I" the ritins of 211. 1/1. 111 a. 112. 1/31. and 114.3 for Nt%#O/SW@ weir hrld Fur,fillvirn, time Intrrvals lot M) and 7(Wl*, thrn djunivrd in fratcr. 11ti-I the 41tul,Ltmol was &td. to ell. the rale ni silicate fornution. T"ble ITACtIM stopped after WYVMI Min, without vompirlinti. Ft-rn for N'&,O/%0j - 1/1, a portion of the vand atul in arn' lid not rrAd, The fate inctrawd IT .11 h t I j 4" hNI'102 It Increased with truip.. but even &I Q(Ol. 1 4 rea, 1. . not ctnuplete. The extect of sil"te fairmstion was ten than the theoretical atnt. czwpt for sand finer th" 0074 mm.; as the proportion of sand was In. @rr4wd, the dWretim frt*trn the Iltrivrtiml and arinAl k ifurs, IttrAme waaller, With suits) finer Min 111174 nint, 1'"' 0, om"on " P I" (or NavO/N% - 1/1,23, the theoretical and actiul curints were attout The same. TIw diffcnree Iteltv"n actual and I' throreliml results was dur to The formation of a growing film of N&,NOs m the amd which blu(Scird and ficully dopped the diffusion oftbe N*011. Appm.eak-ris.shosrd that Ibe Alm on quarts sand was rnA ovtr 0," mm, In m*r to Wain IM% silkate formsIM, sand with train* not over twice (he thickness of the Alm should be us--d. or admists. (so-called acmirraton) shmid he added to cm. vrrl The solid Alm into a low-ralling tuttrile. Addn, t4 X&OH to the batch sboul,l Octritrutr mrlt [its 4 1 V I " K.  4 000 6 000*00*00600044 #000 il @W 10 1 $Ali 1 @ 1 1111111illodfJ411 a 0 a 11 U 0 34 a b 9 a of 0 @ YAJ LL t it 41 0 a AR A 4114111 AA, I 1 it- ev 4 4 0 11'. A v# 1 - . @ I -- -1 - . .- - . -00 A K"am., d 111 3-7 (1961).-Butk desv%ity (J.). vactliciornt of Voluffortric contsom-ion (0). Romf polovity (rd were determit". wins 70 1 12A x 2MILMM. lviqtwttn of Rmrmla and uWa-multate ' 6 1 ll to about 311) Its '!CV1. rharvt@ I , The bulk 41flutity IncreAwd 00 - 1@.,Ahrjv Piowlamurr(mvit lknof oils 00 a citualsont equal to 0. 11. Ahovv :011 kit ,rm 1. the inrrrAw in 00 S " bulk drnolty was levot mind a berasne " than 1) 11. Valurv of .00 0 of.. Lt. sful ri 0. T calculated (or prrmum up to jUl kff /CMA l - 01110 Up to about 2XI Ittf./mO, d. increagoord ahmplv. but alutyr thoo 00 jj lore ofte the Issorr"oe W" mallory; lhe curvr for pooffmily Wout . anAlornm It"tance to cornprrssion (1/0) inerrm"I dirrelly 400 0*4 with pfe"Um 14ovisoll 7 was aho dettfinin"I toy esswiling aft 1:111,110 Irmn the pom with C0s &M jth@rtjinir the IM In K01f. Cal- 4114111. 00, cmIAted somAtitporrhmmisivuluessict" wilhln3 lob". ChArting i? C*s 0 004 0 d forloluett" into the glammmorlt cmu@,l "m4lemllir rNmAution of 1 16 RIIOR 0 @ RA. evastaloving Pouch COR. TIte pmwore of C(h pmcvftl4 In"" ' ' 4,09 % jsCf)s-vlfv0 + Ckh - 2NWIC(h 4- (a - 101yo. o1w Cog twins . 1 * 04 d 4 At"mW firum the stmospherv. Thi% frOortion k jur@ihlr imly in ': e 0 the lworiorme of moiiture. and the rair of reaction clettemls ulum intio* the slurmlinn olespomulvol MmeCh-oll'o I-) 1he AIM41q)hrm 00 00 Is z K 41 Alto %ta .11AMN&KAt m(EMM CLAWKATION 0 a;7 too., 11.00 Ar A., Ac, R; Wi, Ad, A 11 . " - 1 71 Al 11 IF jj a ' , * , . ; " !- 0 * 0 9 0 0 All 0 0 0 0 6 . . . . . . 0 0 0 0 0 411 0 111 0 a 0 0 0 9 . . * a 4 A 00 0 0 0 0 si 0 411t 4 0 0 4 41 0 0 0 0 0 0 4 0 0!  Thermal ;@AM;@Y FIX ".T.'d f,% 11 e., 11t15 IM oda batch briqttette.4 stored In the sit, crystallization of NaHC09 it 0, from the Lit tAkm place. Such briquettes cause kaming on a But the same briquettes do not cause fo. aming If they have n st@rtdofor 1-2 days after preparatiun before being tested- To clear this up, @xpts. were cirriedl out with briquatted and Incas Kda batches of the save comp. n pots. No accoletation of the melting process with brkluettes was observed. The fining time of glass melted from briquettes that W been stored in the air (i.e. leariLdning Nal(Coj was 1-1.5 hr (Ls 130% of the time required for melting). It is concluded from this that briquoites j@@ at c. 1.420 lb/sq. tn. do not accelersta melting. This wat confirmed by other Russian authom MIA on the changes4a pormity dating ineesing show that at 1.420 lb/sq. In. the porosity is reduced only by 30% In comparison to the loom batch. Probably such a small reduction Is not sufficient. for any noticeable increaft of contAct surface of the nacting components. In addition, during bcating of the glass batch the carbonates docomrvea and eMve. COjwhkh leads to a porosity increase. Temps. In the briquetted and loose batches, am distributed In exactly the tame way, so that the rates of "action will also be the' same@ Thetbermal7ropetticsoftheglass .y melt do Dot differ from those of the batch. It is Concluded that briquettes of tx shape of small sins (I or I of the ncrinal brick) am most suitable for blancht-Marging, since they give the highest p"ng density. (2 Op., I table.) unra I/ I U ACC NRi-XV7006020 JaCE-CODRi- 1/0203A6/006/005/0923/0922 AUTHOR: Kaminer, N. S.; Khadakl=ova- T. ORG: Institute of Torrost=ri'Yjko-ftu-m,-tho Ionouphoro and Radio Wave ProliiCatio'l,- iAN SSSR (Institut zomnoCo magnotizma, ionoufory i rasprostranoniya radiovoln All SSSR) TITIZ: Annual variations of the Cosmic ray neutron Component and the temperature effect SOURCE: Goomagnetizm i aeronomiya, v.*6, no- 5, 1966, 921-922 !TOPIC TAGS: solar activity, Cosmic radiation, atmospheric temperature iABSTRACT: In a recent study (N. P. Chirkov, Geomagnetizm i Aeronomiya, 6 ,.No. 5, 920, 1966) it is stated that the annual intensity Wave detected - @Vr !in the neutron component Of Cbs@.IC r , can 'no caused by anisotropy of -1 prinary radiation and not by a coiltribution of the atmospheric tempera- turo effect. It also is noted that the difforence between the experi- imental and theoretical values of the I-emperaLuro effect in the neutron ;co.-nponent decroascd fro -.a 1957 to 1962, that ia, with a decrease of solar@ ;activity. Accordingly, Chirkov Cites argwicnL3 to the effect that the annual wave can ariso due to the presence in interplanetary space of a :Cos,-nc ray density gradient relative to the plane of the solar equator**, .7he purpose of the communication c3,ted below is to emphasize that Chir-. ,kov's arguments do not exclude the po33ibility of a temperature effect inthe neutron component. Facts are presented confirming the presence 'of such a temperature effect. The s.)asonal chango of intensity in the ilaiddle latitudes is @-v 0-3%- The GCa3onal change of..intenoity caused i 1by the humidity effect attains vO@15%, that is on@iy half the abovo value. [JPRS: 38,9371 ISUB CODE: 03, 04- / SUBM DATE: 14May66 ORIG REF: 006 / OTIf REF: 002 Card JA UDC: 52 .165  WINER, N.S.; ILGACH, S.F.; MADAKIIANOVA? T.S. Temperature effoot of the neutron component of cosmic rays in a period of high solar aetivity. Goomag. i aer. 4 no.5t946-947 3-0 164. (MIRA 17M) 1. Institut seinnogo magnetizme, ionoafery i rasprostraneniya radio- voLn All SSSR i Irkutskiy gosudarstvennyy universitet imeni Zhdanova.  I Z!32 I I., @ @. I . . I @ -1 -. '. @ I 1 1, *--- - I - - - - - I - --- . --l I ,-iN -% 1 @ v @- I , @ ft- r r rm in- c t . . I . . @. I @, I . I .   MJMYANTMff, G.K., redaktar.; BMISM, M-4 redaktor; XffAFZUY1U-,--M-, redm*tor; KROTOV, YbA.. redaktor; RAZUKOT, I.M., redaktar; XHADALOT P.I,,, redaktor; SHNIPIM, R.I., redektor; AKUNOT, o':h-oskly radaktor. (Studies an the production forces of the Bur7at-Mongolian Haterialy po Isuchanilu proisvoditellnykh all Burlat Mongollskoi AM. Ul"-Uds, Buriat-Mongallskee kn-vo. nowl. 1954. 425 p. ()(WA 9:5) (Buryst-HongolljL-1conomic geography)  USSR/Farm Animals - &=11 Horned Cattle. f1-3 Abs Jour MX Zhur - Biol., No 18, 1953, 03407 Author Inrt All-Union Scientific Roccarch Institute of Sheep and Goat Husbandry. Title Effects of Various FcccUnG Levels in Pregnant Rves upon Wool Yields,and Sheep IN-o[;ony. OriG Pub : Byul. nauchno-tekhn. inforu, Vses, n.-i. in-t ovtsovodstva i kozovodstva., 1956 (1957), 110 3 (25), 138-146. Abstract : The first group of pro@@nant Soviet nerino owes receivcd 0.07 ko of feed units, 107.2 GT of albtmiin, 136.3 gr of protein, 10%16 (,T of Ca, 2.95 Cx of P; the second C;rotip received, respectively: 1,05, 134,9, 17i*g, 12.9, and 3.71; and the third GToup received, respectively: 1.17, 148.f), 186.o, 13-09, anal 4.1. In the first group 12 twins Card 1/2 USSR Farm Animals. Smail Horned Stobki Abs Xour: Ref Zhur-Biol., No 23, 1958, 105715. Author Khadanovioh. I,- V. rV, Inst Vor 6 en. Title Fattening of Sheep in the Kol-khozes of Stravo- pollye by Pasturing and 14intortimo Feeding. Orig Pub: Ovtsevodstvo, 1956, No 9, 36-39- Abstract: The article deals viith the utilization of past- ures and veys of grazing the sheop and v;ith the oxpodiont organization of wintertime fattening.  ZAMALIN, Vladimir Samsonovich; EYDELIMM, B.I., red.;-EW 4SEVICH, Yu.G mlad. red.; GERASIMOVA, Ye.S. y tekhn. (Planning standardization and normaliza'Lion] Planirovenie standartizataii i normalizataii. Moskva, Izd-vo "Ekonomikay" 1964. 197 p. (MIRA 17:3)  GREDITOR, M.A.; HXIFENKIN, V.I.; IOFFT-:, 1.S.; red.; XBOASEWIC11, Yu.G., miad. red. [Mechanization and automation tion of work] Mekhanizatsila vodntva; organi%atsiia rabot. 214 P. of peoduction; organiza- avtorLatizatjjla proiz- Ekonomlka, 1964. 18:1)  HOMER,, Karl-Peter Spectra of' normal operators. DrkI, A3 157 no. 2j2R/,-287 JI 164. (1@111A 17:7) 1. Predstavleno alademikom P.S.flcviko,,Ym.  K'HADR,Y,,-l'iy 17. A. Talipov, Sh. T. @-d @` Je-,@ev, V. A. "Phynico-chemic@tl arluly.:1.3 of lir"llytic..1 iriportancb. llhe sy-Aer BaF2-KF-ll.,O at 25 nau;. U@,@,'R, n1,8, 110. '15-102, (Ileourie'.Iri llzfs.@k), - BIbli%i': I' J SO: U-30/,2, 11- I'arch 53, (Letopis Iny",".h Statey, No. 10, 1':,/j9).  TALIPOV, Sh.T.; IMMIN. V.A. Physicochemical analysis of ternary aqueous solutions consisting of alkaline earth and magnesium fluorides and alkali metal fluo- rides. Ternary systems Mg? - 17 - ko and Kd2 ITaF -- T -0. KLRA 9 :5 at 200. Trudy SLGU no.15:8 -100 15 (Fluorides) (Solution (Chemistry)) MM  Pilydochom" #Adyak af@twwy aqvow symem ot _11h. T.-T= arA V. A, Khaderv (Ctutnd AAm st4t, vair T tP Zkiv (*Ahd'Kh-- 0 Cars Chem ) jo. ifi-VAlosin'.. J. CAM. U-@i.s.k 20: swil (Nallf. Im"llon),-The trnwn- system were inv"II. led %asialrdwx %Aid. I". ftod act residues 4crard. f 45chreinvowlim method all lit :31 No,kmtk solis at OAW WW. arv homd III tither my%tesn'. The vAv. of We In KV and in W wu 4cid. III amocus. of vi"h foodcle up to 0.3 Af. Thr espd. rvmll- Aim wclJ with thom prrdk-wd by the 11thyr-Ittickel th"wy in its'.Iml Ap. mp". (AM I mv. r"P.: 11.0, V-TJ X 10 L(07 X 11) 4.30 X 111-'; 6.1111 X ill -0 1 OU X IIV 1; 0. 11101. 7.5 X III-#; U.MO),2.JIX 10-4. 1@;'vaJuv*fjbt*Iued1trIbeW),. lo#PbV IoNalraft"fla. U. TorawyapolongticF, KF@iA' Md W0941-1W. 1W. --WA-S. dbit mlu or OdW Was. are famW in either system. The dia- garms being q"Histlittly bleal"I with thm. for the com, opwdingfMcompda. My.a1SrF,wassIudkAstco(Ku*. I.Nap tMIKIPUPIU0.01.11. And SWoody. (All Are. ewsp.: mm, WtU X to-; 1.9uS 11), 0. 4.61 X Ill"; 3.91K) X 10-1. 2.(Nl X 10 '1; G.tm x 10 '1, 9.3 X 11) 0; I.OW X III 1. 5 1) X 10 -1. I)aIA (J@ filifIeff Wilk XF Are WmAir. Anh) %fdkr  IN IMM a 4f@oZrw immi aswi Said -d MW IN" Timm, - swift Jew L@1=1 @ qM"wwljfw d w. A V..A,4( r. C". VUR. 100. laoth"M at XS* an XF at KV coacn. up to d"bormis"d for the 11 Fewas srvm- 0-00", aed lkpg-N&F-HOQ at -NaF up to 0,01M. No cceapounds at wIxed crystals aft Ibrowd. The solubility of SIF u*aq.KF*rN&Fis&ccurzt*lynpi led by the Lsrb)v-llikJ formula for IM activity coefL Tho a-Awbdityo@(L.SrFl in H,O at 25 is 0 62 x 10 -4 #,=a&. pa L SALrIMARSX.  I.M. .1-M.   d.LL-  MEN @-y A v with t dvippirg r @@rctlr y I te., 'bismuth cathG(lic currcot@ or ,it oli)V J- "5 V, ropmjhAy (jigIme alludw wrt'n1j, wal! 0.6 ea O'j,v KI )it at c mcn. 41-1 Al H Ili- I. Oity in i)igi, 11, vr@@ k 7.11, t @, N.. I and SISI III LA I I jll@ ,I, I IW,Tf@- @ 1"'t I,; 5 N If N, r m t, 'mi'l-wt,fily 111, p, , I OWSO. Cd CX. lit'lit t,@ @0,,.oq  7- V927. Am CW VA=. with Xhl, Valid shows Nti jx'tarngraphl@ The first is '"il drined ard 1134 A ILAV i6vL I)otcatial Vs. of 0,470 V in O'lAfv hun) n--t-t-tte. And tFulo v if, eq. M N11. %illu@ Tht. half-wavo Potentials of the Iliv amefrometric determination vi Cu with rnl@anic acid can tv carrifij out at 0@3 V, Utp amot;nts of SO.", NO,% acttAte' Zri. 111), A), Cd or hill have no effCci. on the titrafiwl. Large amounts of Ci' nterfere. Small ainow-u of Co, NI And Cr do not riterfert. lons of Fell And Fell' ate harmful, but -W "I M-Caa be-tolerated if jWt enough - - -e@ i I t m o s mlelr, To det,runint tr a in brim, 0-2 1; ts dissolved In I HNO,, 10 nil of water are added to lemove oxides of N, 2 N NaOH is lidded until the soln. is slightly acid, then the soln, is made up to 2M nil and 25 HII aM taken. To determine Cut in durflumin, I g iq disv&cd in 10 nil of 20 per cent. Na(jI 1, 30 M1 rif I fso, (I @ n) and 6 ml of Conc. JINO, arc added, aild t!, ulri. ;' N,drd to dim@,Jve tht C4, Sulijim _d,l,d until 3 ckudi- n,. iLo nil ;&nil .A Lhv win is Up W 1te taken a r,@O 5'diurn a"t'Itt 25 Ill. . soln. is 3(ld(A 141 give a O'l to 1 31 SOIll. and methyk-ne tllic al lna'x@ WWI d@'f7d- umin. .9@5 ml 0 tArtralk- (C"licri. not e'M-n) i'l added'@ ()Xyg@ I is lrolwved by Ow pa@".'ge (A It and the Cu 19 itfAted at O@3 V ksithl ful'c"ic 0" (couzn. nut ql@s vd) ilt acOw llnhYdM1c. in whi(rh it J,, frore Nil, And rnot@ qt,O)Ie t1lan in ctl1inut.   @4 Category: USSR/Analytical Chemistry - Analysis of inorganic G-2 substances. Abs Jour: Referat Zhur-Khimiya, No 9, 1957, 30979 Author Zhdanov A. K., Khadeyev V. A., YAkritakaya Ye. K. Inst not given Title Aitperometric Titration of Cadmium with Potassium Iodide in the Presence of Excess Pyramidon Orig Pub: Zarod. laboratoriya, 1956, 22, No 11, 12B6-1291 Abstract: Reaction of Cd@4' with pyTamidon (I) in the presence of I is utilized for direct amperometric titration of Cd-14 with a solu- tion of KI; optimal conditions of titration: concentration ob I exceeding that of Cd,;"'by 5-10 times. pH of analyzed solu--! tion prior to addition of I vithin 2-5 (aciclity of solution is conveniently ascertained with methyl orange), concentration of Cd at least 0.002 M; titration is not interferea vith by large + amounts of 74a Ma-'11 Ni."', Col@', WH#_,S04 NOj CH.?COO Card : 1/2 Card : 2/2 -19- rHA VA.; ZEWOV9 A.K., otvwt#tv*=yy red.; AMUFATWp A., red, RAMM, Aes takha, red, Cqja@tjone on the theory of vVeromtriol Nekotorys Yoprosy teoril a*erowtriohes1cogo wtoda t1trovaniiae *eTaD, 12d-TO XfGT&wk06O' univ. 1957. 1@7 P. (Ushkaut.'Uni4ersitet, Tray Bredneasiat"!wn gonadarstye=ogo unlversitsta# no*92, Zhimicheakie naWdg uoulf (Oonduatometrio analysis) (KEU 1116)  Amparomstric, conductometric, photometric, and radiometric t1tratlon by- precipitation. Izv. All Uz. SSR. Ser. khim. nauk. no.3:29-43 '57. (MIRA 11:9) (TItration)  KRDEYEV, V.A. 1, - - - Dew means for determining from tho experimental titration curve the end point titration, solubility of the formed product, and other factors. Izv, AN. Uz. Ser. khim. nauk no.4-55-66 157. (14IRA 11:9) (Titration) (Chemistry, Physical and theoretical)  / f /-"@ A D E",7* @ /!V. Ij , AUTHOR: Zhdanovt A. K.p Khadeyev, V. A., @5-6-5/27@ Khalilova, V. Kh. TITLE: The Ammetric Titration of Bismuth With Potassium Iodide in the Presence of Pyrami don (Amperomo t riche skoy e titrovaniye vismuta yodidom kaliya v prisutstvii piramidona). ' PERIODICAL: Zhurnal Analiticheskoy Khimii, 1957, Vol. 12, 11r 6, pp. 695-69a (USSR) ABSTRACT: The possibility of an ammetric titration of bismuth in strong acid solutions in the presence of surplus pyramid,on with potassium iodide is shown. With this reaction a compound of bismuthito tetraiodide is formed. The titration was carried out by means of an ord.nary polaroLraph with a dropping mercury electrode. The presence of zinc-, manganese, nickel-, cobalt-,-Iron-, aluminum- and magnasium-ions in the bismuth- solution to be titrated does not disturb the determination of bismuth, even if their concentration exceeds 50 to 100 times the value of the bismuth concentration. Only lead-ions act disturbingly on the titration. Ecen 60 times higher concentrations of sulphates, nitrates, chlorides, phosphates Card 1/2 and acetates have no disturbing effect on the titration. Th,e Ammetric Titration of Bismuth With Potassium Iodide in the 76-6--J/2-' Presence of Pyramidon The method of titration of bismuth was also tried out with synthetic mixtures of cadmium and bismuth. There are I tables, and 3 references.. 3 of which are Slavic., ASSOCIATION: Central Asian University imeni V. 1. Lenin, Tashkent (Sredneaziatskiy universitet im. V. I. Lenina, Tashkent). SUBMITTED: October 18, 1956 AVAILABLE: Library of Congress 1. Bismuth-Ammetric titration 3. Pyramidon-Applications 2. Potassium iodide-Applications Card 2/2  SOV./l 37-- 58-11-2 38013 Translation from: Referativnyy zhurnal. Metallurgiya, 1958, Nr 11, p Z76 (USSR) AUTHORS: Zhddnov, A. K., Khadeyev, V. A, Kats, A. L. TITLE: Amperometric Titration of Trivdlent Iron With Ascorbic Acid and Sodium Versenate B (Amperometricheskoye titrovi;fiiye trelthvalent-- nogo zheleza askorbinovoy kislotoy i trilonom B) PERIODICAL: Uzb. khim. zh., 1958, Nr 1, pp ZT-34 ABSTRACT: More precise procedures are given for titrating Fe3+ with ascorbic acid (1) and sodium versenate B (II). The experiments were carried out on an ordinary visual polarographic apparatus with a revolving Pt microelectrode. It is shown that. the titration of Fe3+ with I can be carried out within a broad range of acidity up to pH @ 0. The optimum concentration of acid is 0.28 - I mole/liter. The lowest rate at which equilibrium is attained was observed close to the point of equivalence. The presence of air 02 has no effect on the results of titration of Fe3+ with 1. Small amounts oi Fe t.itrate better than large amounts, The optimum condition leading to the titration of Fe3+ with 11 is an acidity of 0. 1 mole/liter HCl, overraf,ed results are produced at a highex-'@,,.@ Card 1/2 acidity. Titration of small amounts of Fe is best done in the presencie' V6t'  SOV/137-58 -1 1 --3808 Amperometric Titration of Trivalent Iron With Ascorbic Acid and (cont.) cl dr, acetate buffer. A study of the effect of foreign ions showed that the rest;'P.i -,i *.@-e i'trat@on of Fe are affected by Ni and Cu and impeded by Zn and Cd only wher e-i- amount is 10-20 times higher than the Fe contents. A comparison is made It!:%veen the ascorbic acid and the chelatometric rne@hods of the titration cf Fe as 'o -.hcir precision, reproducibility, and selectivity, as well as speed and convenience. Y11. G-,,-d 212  KH&lxyzv, V.A.; NIKURASHINA, A.G. Amperometric titrations of lead in the met-up vith rotating platinum microolectrods. Usb. khim. shur. no.2:11-20 158. (MIR& 11:8) I.Sredneasiatskijr goo.universitat im. V.I. Lenina. (Lead) (Conductometric analysis)  KHADZYNV. V.A.; ZHDAHOV, A.K. Amperometic titrqktion method for determining copper and zinc In brass and bronze type alloys. Usb. khim. shur. no-3:57-63 158. (MIRA 11:9) 1.5redneaziatski.v gosuderstvennvy universitet im. V.I. Lenina. I (Copper) (Zinc)' (Conductometric analysis)  5W AUTHORS: Zhdanov, A. K., Khadeyev, V. A., SOV/75-13-6-7/21 Mirzabekov, F. M. TITLEt A Simplified Diaphragm Method of Internal Electrolysis (Uproshchennyy diafragmennyy metod vnutrennego elektroliza) PERIODICALt Zhurnal analiticheskoy khimi-L, 1958, Vol 13, Nr 6, pp 661-663 (USSR) ABSTRACT: In the internal electrolysis methods with diaphragm are used very rarely since there are many apparatus necessary and the process of electrolysis requires a long time because of the high electric resistance of the electrolyzer. The authors of the present paper have devised a method with diaphragm that permits a sufficiently quick separation of medium and. large quantities of metals, and thus eliminates the most consider- able disadvantage of this method. In order to accelerate the separation of the metal a coarady poro,;s glass diaphragm Nr I was used, the introduction of which into the electrolyzer doe@ not cause any considerablo incraase in the electric resistance. The penetration of the catholyte into the arode space is avoided by producing R slight-.flow of the aiiolyte Card 1/3 against the catholyte. Th-'s measure is only necessa--y during  A Simplified Diaphragm Method of Internal Electrolysis SOV/75-13-06-7/21 the first 10 - 15 minutes of the electrolysis, as long as the main quantity of the metal to be determined separates from the solution. After this period a possible mixing of the solutions is no more dangerous because in view of' the low ooncentration of the metal to be determined no cementla- tion takes place any longer. The apparatus used are illuBtra- ted in the paper and described in detail. The operational method of this apparatus is also described in detail. As an example, copper was separated at a platinum wire-gauze cathode. Solutions of KCI and KNO 3were used as anolytes. It was found that the method described permits the sl3paration of medium and even large amounts of copper. In the use of zinc or an iron anode, which is immersing into a saturated KC1 solution the dissolution of the anode took place slowly and wJthout noticeable gas formation. When using an aluminum anode, intense dissolution of the anode occurred under separa- tion of considerable hydrogen quantities. In order to prevent the anolyte from being expelled from the anode space by the escaping gas, which would cause an interruption of the current, Card 2/3 a spherical enlargement is provided for the reception of the  A Simplified Diaphragm Method of Internal Electrolysis SOV/175-13-6-7/21 developed gas. In further experiments it was proved that the presence of iron in the form of ferrous sulfate even in double quantity does not affect the results of copper determination. Instead of potassium chloride also other alkali metal salts can be used as anolyte. The applicability of this method was tested by analyses of copper alloys which yielded very satisfactory results. There are 1 figure, 2 tables, and 3 Soviet references. ASSOCIATION3 Sredneaziatskiy gosudarstven.Vy universitet im. V. :[. Lenina, Tashkent (Tashkent Centrul Asian State University imeni V. I. Lenin) SUBMITTEDi May 29, 1957 Card 3/3  AUTHORS: Zhdanov, A. K., Khadeyevy 11. 32-2-4/6o jm,oiseyeva, 33- P. TITLE: The Amperometric Titration of Cobalt With Potassium Ferric Cyanide with Rotatin.,-, flicro-Platiri@i_- Electrode (Ampero,metriclicakoye titrcvaniye lkoballta ferritsianido.-i kaliya na ustanovke s vrachchayushchit.-.sya platinovyn mikroelektrodon) PERIODICAL: Zavodskaya Laboratoriya, 1958, Vol. 24, Nr 2, PP. 137-140 U -j sm ABSTRACT: The experimental conditions of the method mentioned in the title were inve@itieat,@d and the authors found that lip to O'l - 0' 0615 mo of cob-.lt ca.. be titrated with sufficient exactness. The presence of other anions does not disturb titration, as can be seen from a table, even w'ien it is presentto the 50 - loo f@A! concentration of cobalt, Also the action of other metal ions was studied and it was found that by --,cans of the addition of tartaric acid as complex forner the parl.ir-1 precipitation of nic'-el irith ferric Card 1/ r2 cyanide (at nicl,:@.@l concentrations amountinl- to more than the The Amp(zroretric Titration Of Cob"'t rric, Cyan,it,.e Witt, Rotatin,- 1,11icro-plrLti.., ..'I Electrodo -2 - 4,,16 o 50-fold Of t'Mt Of cob-,it) is made iMP03sible a,,,d that it 21rMitS the presence of an amount of , r up to 10-times as jreat, an well as of an a:@()Unt of i o)) S + ron and chromium of u,') to "o t'..!03 'It :7111ch. Tho adlitiol,, Pos@;iblc a titration in t"c nrcoc,,C, Of citri, acid makes load (159-fOlLl) and bis-@jjtjj (00-f, _ Of Z;rcater amoutnts of Q cOn SO(lillm"11-foaalicylate proved t,) @e a ,O()u, l,j). @1OX formor for- iron an"d other metals, v7M10 chmjiu.,, With ammiionill-aperculf ate can be Oxidized to dichro;,-,ate, On *ch Occ,"Zion cobalt ca! not be oxidized. Chror,,:.tc_, an well as Zinc- an,! cadmin,-,j 'ion.@; - t.'-,@ cobalt titratioll. Theicare 1 fj,- `_O riot disturb rcfcrences, 3 Of which are Slavic. ure, 3 tables, and 6 ASSOCTATI0-:: Central Asian State University i@-,cni V. I. Lenin (Sradneaziatokiy,- Lerina) ,I'Osudarstvennyy tiniversitet irieni V. AVAILABLE: Library of ConL;ress 1. Cobalt-Det(J-@_71inatiO'i Card 2/2 3. Titration 2. Potassi= ferric cyanide-Appii cations  XMMV, V.A.; OKDIDVA, T&.I. Iffect of dissolved oxygen on the results of amperometric titrations. Trudy SAGU no.134:23-41 158. (MMA 12:4) (Conduotometric analysis) (Oxygen)  KffArZYNV, V.A. Methods for the determination of the ond point of amperometrie titration and the diffusion current conotant, applicable in some particular Instances. Uzb. khim. zhur. no.2:27-35 159. (MIRA 12:7) l.Sradnea21atakiy goo. universitat im. V.Io Lenina, (Conductometric analysis)  L.A. 1 k erometric titration of copper, palladium, and cobalt with 2 -nitroso- /5 -naphthol using of rotating tantalum electrode. Uzb. khim. zhur. no.3:24-33 '59. (MIRA 12:9) l.SrPdneaziatsk17 goB.univorsitet im. V.I. Lenina. (Conductomstric analysis) (Naphthol)  KWMV, V.A.; (BELICHBNKO. P.P. Possibility of using a tantalum ricroolectroda in ailperometr7. Dokl.AH Us.SSR.-no.6:31-32 '59. (Mia 12:9) 1. Sradneaziat ski7 osunivervitat im. V.I.Lanina. Prodstavlano akademikom Ali UtS S.YuJunusovy& (Electrodes) (Conductometric analysis) "J"  ZHDANOV. A.K.; KHADEYEV, V.A., SHMAMUMVA, T.B. Amperometric titration of microgram amounts of copper. Zav. lab. 25 no-9:1036-1039 159. (143A 13:1) 1. Bradneaslatskiy gosudaretvennyy universitet im. V.I.Lenina. (Copper--Anal.vais) P,  5 AUTHORSt Zhdanov, A. K., Khadeyev, V. A., SOV/75-14-3-23/29 Yakovenko, G. D-. TITLE: Ammetric Determination of Cobalt by Means of an Iodometric Method on a Rotating Platinum Micro Electrode (Amperometricheskoye opredeleniye kobal'ta yodometricheskim metodom a vrashchayushchimaya platinovym mikroelektrodom) PERIODICAL: Zhurnal analiticheakoy khimii, 1959, Vol 14, Nr 3, PP 367-369 (USSR) ABSTRACT: Recently (Ref 1) an iodometric method for the determination of cobalt In ammoniacal medium was suggested where no partial oxidation of cobalt by atmospheric oxygen takes-place. This suggestion was further developed by the authors on the basis of a device previously described with rotating micro electrode (Ref 2) in which connection the endpoint of the titration is determined ammetrically. Since the reaction proceeds too slowly when the excess iodine is missing, iodine is added In excess and titrated back with sodium arsenite. Table I shows the average values of an analysis series, table 2 the small influence exercised by foreign anions and cations, There are Card 1/2 2 tables and 2 references, 1 of which is Soviet.  Ammetric Determination of -Cobalt by Means of an SOY/75-14-3-23/29 Iodometric Method on a Rotating Platinum Micro Electrode ASSOCIATIONs Sredneaziatskiy gosudaretvennyy universitet im. V. 1. Lenina Tashkent @'CamUiLpAU-J StAte University imeni V. 1. Lenin, Tashkent) SUBMITTEDi March 18, 1958 Card 2/2  5(2) AUTHORS: Khadeyev, V. A., Nikarashina, A. G. OOV/32-25-.3-8/62 TITLEt Determinations of Lead According to the Anodic Ammetric Method (Opredeleniye avintsa anodnym amperometricheskim metodom) PLRIODICAL: Zavodskaja Laboratoriya, 1959, Vol 25, Nr 3, pp 283 - 285 (USSR) ABSTRACT: An anodic-ammetric method is described according to which lead is titrated with potassium bichromate. It i3 based on the formation of a polarographic current which forms due to the oxidation of the lead-ions to lead oxide cn the Pt-microanode. A titration at pH