SCIENTIFIC ABSTRACT BLOK, G. - BLOKH, A. A.

1. BLOKI G. 2. USSR (600) .4. Dairying 7. Raising production level is the most important condition for improving production quality, Mol. prom., 13, No. 11, 1952. 9. Monthly List of Russian Accessions, Library of Congress, Februar 1953. Unclassified.  BLOK, Georgiy Fate of Black Mold Ogonek 30 no. 27, (19#52)   BLON, G.; GEIMBERG, S. Use of yeast culture in making of butter. Molochnays. Prom. 14, No,6, 17-21 153. (MLRA 60) (CA 47 no.16:8278 1531 i~Dairr Inst., Vologda.  ,--~ ~OKG - C., DriTen Sci - (clisr) "Study of --crstsin fthe use of spc-ical spccics of thvm t1t) incrczt%: the stallill+-: of l-,litter," "Oscow I (JI., r, try ) . 1960,, 46 pp (laoscow Tecizo-logical lnstlt~,Ae or ,he Food 11) M~ 40-60, 122)  FAYNBOYM, I.B.,, red.; RUITIN, I.T. f -,BLOK,-.Goqrg~X_Er tekhn. red. [Glass crystals] Sital3,v. Mo8kva,, Izd-vo "Znanie," 1963. 40 p. (Novoe.v zhizni, nauke., tekhnike. IX Seriia: Fizika i 'khtdia., no.,24) (MIRA 17: 1) (Glass research) Ceramic materials)  BLdKH G. , kand # telkhn. nauk; LITVINOV p A. . inzh. Bow to build an asbestos cement roof.. Stroitelt, no.7.*29- 30 JI f.61, (MIU 14: 8) Zstos cement)  G.P.. sontavitell; EMMOVA. N.Y.. sontavitell; BCNCHKOVSKrY,.V.P. [redak- T�r i GORSHKOV# G.P# Treduktor]. [Manuscripts ofBoBsGolltoyn In the oxoblveo of the AcademV of Saiences of t~e U.S.S.Rj* RbkopiefB.B.Goiltsyne. v arkhive Akademii nauk SSSR. SoBta- vill, G.P.Blok I M.VjDmtikova. Pbd red. Y.F.Bonchkovskogo I G.P.Gorshkova. Xoskva, lsd-vo Akm4emil nauk SGSR, 1952. 139 p. OWA 6: 7) 1. Arkbiv Akademii nuuk SSSR. (Golitsynt Boris Borisovioh, 1862-1916) (Bibliography-ftysics) (Phynioa--Bibliogr44)  L LOMONOSOV, H.V.; UVILOV, S.I., akademik, redaktor; KUVITS. T.P., redak- tor; VINOMUDOV, V.-76' a"daimik, redaktor;TOPCHIYXV, A.V., akulemik. redairtor-, AARKEUMOV, S.G.,.raaaktor'; ANDYMM, A.I., redaktor; BLOK p radaictor; MMSEY3V,* A.A., redaktor; MAZEY, G.A.. re- AXAL,-ViL..; PBVZM, R.S., tekhnicheskiy-relcaktor Coomplete-Colleatad works] Polnos sobranie sochinenli. Moskva, lsd- vo Akadamll:nauk SSSE. Vol*4.[Worke on physics, astronomy. and in- strument construction .1744-17651 Trudy po fisike,.astronomii I pri- borostroanitu 1744-1795 gg-1955- 830 P. (MLU 8:6) .1. Chleni-korre ondent Akademii nauk SSSR (for Kraysts, 3arkbudarov). '(Pbysic'33 a (Astronamy) (Instruments)  Good-people are-the life of a plant, Izobr. i rats. no. 4:12-14 Ap 161, (MIRA 14:4) 1e Preduedatell soveta Voesoyuznogo obahcheotva izobretateley i ratoionalizatorov zavoda avtomaticheakikh liniy., 14nak. I(Minok-Machinery industry)  0-6 0-0 V-7. 0 to 1, 11 It m 1$ 16 11 a it 8 14 33 it k v is lo a 41 a &1 .6 at mII--4A-I-.I.-V-,ILLf-i 7 -&vCt601 A -4 go : I i - w. ez TM sftd of lowered abno, .00 e Pressure an the PH 00, lot 0 bbW mid chmqW of dda index dW bkW bims- 1-00 tudw. A. 0. KALmvmw and 1. B. Slok. Uld. owe) 1939. No. I Vmp~~-)Weral At IsInnW. NoAl. 41.-Af4t ~Q tMuf;i&Q tbl, 0: 411, rabbits we e able to better withstand a mrified atm. the PH of blood shifted In the elk. -00 =0 -I. 18=1 anhILRIS (WithIDUt tMnSFU33003) a Imer atm. prtmn caused a change of U in the acid -00 W R. Ilmn dhvetion. 00 00 COO 00 roo 00 X 900 04 :;o 0 ,*,~ j two* zoo. 0, CS9 0 .... ..... 11j4 it Dv 46t NILAziowz lit I . . I . . , U U AW -0 15. 0 " D it . . 't . 600,0000000*600600:: 149,19004090000090OPeo0or so 0 0 0 O~v 0 0 # C 0 0 V 0 e 0 0 o 00,16 0*0 go** 0 0 0 0 0 0 * 0000  2. 1JISR t(600) 4. Mtraviolet Rays 7. Disinfection of the seed of the oak silkworm with ultra-violet light. Visnyk AN UMR, 23, No. 3, 1951. 9. Monthly List of Russian Accessions, Library of Congress, May -1953. Unclassified  I*B -kand.,biologicheakM nauk Parasitolog .ical confirmation of congenital tcocoplaamwis. Vrach. delo no.9slO9-3-U S 1600 (MIRA 13-90 1. Bakteriologicbeskaya laboratoriya ;[iyevskoy peikhonevrologichookoy- bollnitsy im.- Oad..I.P. Pavlovao (TCKOPLASMOSIS)  IAKHTUNOVA., L.V.; BWKI I.B* case of severe oligophronia in oonnoction with oongonital toxoplumods, Zhur,.,ne*ro i paikh. 61 no.7:1063-1064 161, WIRA 15:6) 1. Kiyevskaya paikhonevrologichookaya bollnitsa imeni Pavlova.(glavnyy vrach'P.H. Lepekhov, nauchnyy rukovoditell prof. I.A. Polishchuk). (TOXOPIASMOSIS)  qp;eooo 0-000 04 *see** **of- T-14vw*WIIWT2bM 771 Is TAILI-I&A go #DMwmWmUW al QMW b AftabAsm AM Mamaism AHm IlY LAW" 1. 1. Pj2k.W. A. Mhualklva. mA N. A tk*Aaya (Imml. Lob., *0 f Itumutal. A uwtW W twen "W oul it* the .0s Ow Alm oftibilthmanw-N. A. ,.'Of 0*0 see see U04 _i A b u 1l AT .0 at,; n or 00% ; 0 0 go 0 r 0 0 0 0 0 0 W 0 00 oleo o o I OIT44 0 of 0 0 0 00 0 04 00 00.00 000 * 0 - I 00  Bum, J. Carrying out the slogan of saving a million trees for People's Poland. p. 1 LAS POLShI. (Ministerstwo Lesnictwa oraz Stowarzyazenie Naukowo-Techniczne-~~n- Inzynierow i Technikow Lesnictwa i Drzewnictwa) Warszawa, Poland. Vol. 29 no. 1, Jan. 1955 Monthly list of East European Accessiom (BEAI) LG, Vol. 9, no. 2, Feb. 1960 Uncl.  BIDK,J. Tasks of this yearfa campaign "Hatiocal Forest and Afforestation Day.,, p.3 IAS POUXI, (Ministerstwo Laeuied *ran Stowarxyeseuie Naukavo-Tachiezue Inzynierow i Thchnikow lAsnictwa L Drsownietwa) Warszawa. Poland Vol.29, no.4 Apr.1955 Monthly list of Bast European Accessions (BRAI) LC, Vol.9, no.2 Feb, 1960 Uncl,  MDOROVI I.N. [Todorov,, I..M.); BLOK., L.M. (Blolcl ~.M.] Effect of ribonucleic acid from the bovine hypophysis on some aspects of,hormDne production in the adenobypophysis of white rats., Dop. AN URSR no.10.-1331-1334 164.- (MM 17:12) 1. Inatitut radiofiziki i elektroniki AN UkrSSR i Kharlkovskly institut meditsinskoy radiologil. Predstavleno akademikox AN UkrSSR'R.Ye.-Kavetskim [Kavets'tkyi, R.IE.).   'or USSR/Human and Animal Physiology. Neuromuscular Physiology. T Abs Jour: Ref Zhur-Biol., No 8, 1956, 36614. Author Nikitin, V.N., Golubitskaya, R.I., Silin, O.P. Likhushina, L.G., Blok, L.N. Inst Kharkov UniversitY. Title Changes in Biochemistry of Denervated Organs Occuring During Growth Periods. 1. Changes of Some Biochemical Indices of Striated Muscles Following Denervation. and Tenotomy Daring Growth. Orig Pub: Uch. Zap. Kharkovsk un-t. 1956, 68~ 79-99. Abstract: Experiments were carried out on rats aged 1.4 months to 1.4 years. On the,21st day following removal of the Achilles tendon a decrease was noted in the muenles of the foot of the ATP, creatinephosphate, glycogen, acid soluble P, Lipoid P.P. PNC and DNC Card 1/  EXITIN, Y.N.; B101, Nat !! !I so on the ontogenetic pbysiologr of the Chinese tussah moth (Antberaea periwi G.-M.) Report No.lt Changes in the amount of pbospibrits fractions. U6b.zap.XHGU 68:117-136 '56 (KIRA 11:11) Kafedra fislologil cheloveks. i zbivotrql;b Naucbno-issledovatell- skog'o Institute, blologli i biologicheekogo fakulltsta Kharlkovskogo ordena trudovogo krasnogn anameni gosudarstvennogo universiteta, imeni A. N. Gor I kogo. (SILKWORMS) (PHOSPHORUS IN THE BODT) (INSECTS--DB7=PKW  USS9/ffmi~n and Ahiml 17~yiioioay (Norml wid -Pathological). TA bloods; 90hatogbilteles Abs jour Ref Zh,~r v- biol... No ill 19580 50658 Author Rikitin,ViN., Blokj LaN., ~hukova, SoVey Suvarova, Golk. ----------- Inst Mari ko-i Vnivdr Ori g Pub Iae~ Deid.rmined'Cham-e::of the Raticulocyte Content and of a0 the' BrythrocA,e'-,08mtio~Rosistability,,- Orig Ptib U&S: zap nbx Ik6vski uw-t),: 1956, 681 215-220. Abstract The- &artds -'of -erythrocyte hemtogenesis in the onto6one- sis of white-k6ts were studied by establishitr, the reticu- locyto contant of blood and the oamtic resistability of erythrocytes (S)o With advancing aae the amount of roti- culocytea decreases, at first rapidly and then slower (reticulocytes amouut to 46.16 percent in newborn rats, to 11.4 percent in one-month old rats, to 3.93 percent in Card 1/2  MAMNIKOp V.I..; BLOK, L.N. Materials on the physiology of embryonic development of dcqostio fowl. Report NO.72 Chwigeo' the phoophorust pentose ratib of ribonuoloia aoid in the liver.,of a-duck embryo during Incubation# Uoh. zap KHGU 1081337-343 160. (MM 1413) 1. Kafedra fiziologii chaloveka i zh:Lvotnykh Khar1kovskogo gosudaretyamogo univeraiteta. (EMBRYOLOGY-BIRDS) (NUCLEIC.ACIDS) (PPOSPHORYTATION)  BLOK, L. N., WMINEO, V. I. (US-SR) "Nucleotide Composition of the RNA of Certain Organs during the Fhibryonic Development of Birds." Report presented at the 5th International Biochemi~try Cdngress, Moscow, 10-16 August 1961  IMIUMHO, Vj.; BLOK, L.P.. Nucleotide, ~7cm-po~-i-tion of ribont,,-.Ieic ecid of the Juver during. the embi-yogenesls o-C,the duck, Biokhimilia 26 E-D 61,, 1516.1 1. Chair of Human aitd alim-al nysiolov, Stftto llri-verslty.~ Kharkmn  BIDN L. N. Content of the adranocroticotrophip b6imone in the hypophysis of rats of'different ages.. Biul.ekep.biol.i mod. 54 no.3-lt26-29 N 162. (NIRA 15:12) L Is kafedry riziologii, cheloveka i thivotnykh Kharlkovskogo gosudarstvennogo uniArsiteta.-Predstavlena doystvitellnym chlenom AMN SSSR A*V.Labodinskim.. (ACTH) (PITUITARY BODY)  Sf DILIMANO V.H,; WM., LP, Anahormones. Report No,2: Hormonal.1y nonactive pitult427 gonda- tropins on the frequency of appearance of Ixyperplasia of ovarian tissue transplanted into the spleen. Vop.onk. 8 no.6sll5-116 162. (KM 15211) I* Iz kabineta endakrinologii laboratorii eksporimentallnoy onko- logii (zavo laboratori7ey - zaol,. deyate nauki, prof. N.V. lazarev) Instituta onkologii ANN SSSR (dir* - deystv, ablen AHN SSSR., prof. A.I. Serebrov). Adroo avtorovs lexingradv F-129p 2-ya Beresovaya al, 3,, Institut onkologii ANN SSSRi (CONADOTROPIN) (OVARMM-MUNSPLAWTATION) (SPLM;--SURGERY)  o~y 00 A of, **0 of a 008 3 lewd icit: rds. M. I..J", &ell WN.A. &3d N. F. corsup, ZWJ$Aaya L4b. A) W IRV vf~ Ik Dwdomim $yPe. Obs" 11, d the sUW In W. of 3D% N&OH sWa-, add IfX) .1. N =12 JIMEM.1' masom* W tfiman Iftb. p-p"t'67U S~ =11=111ta to, 200 "1.0 - I bed (.tm&) W an At k,.* r.=)"4= Old" aw The Cu is '7d; le am the in 2 bro. !Ipk"= the ebcbv&s, wash with dimil. water and discONOWL, W44 the pt pan with ak., ether. dry wltb warm sk mod wrilb. (2) Sitassixt.-Ditoulve a I-g. In 40 ad, at a No* tuht, of IAO ml. coned. H.%0,, IWPbd. of amcd. HNOs. 1IDO nd. comd. HCI and 01 ml, water. Evap. the soln. to fmm of HSO., odd too tul. Of2NHj9%.bmtt*dWd- the amirstes, filter off NO,. hot tk filtrate to 00-0', Imm. ve the dectrade% and n, mup the Cu at W-661 in 2 Isrs, (3) Afj sJUys.-Dimmolve 1 00 ml. 2 N:~= I nd. 7.5 N HIVO,, 41. M'1140' 03.. Items iramem the elec. 90 talutoln all cum the solo. C be Wed dot. Fe In the ustal meaver. amm stats. of Fe wWb way appear In Mtn. dwW Ow &Wvhq of tAwAI awde M" no efift4 an the remalts. 71liametbadissoodforMs.upt" 4.6% Ca In At A "TALLuncit. L't Owl CUUNIC01" I It, - - -t It slum Vv"941- IVOI $63000 %A? a.. Got o q I If IV -1 a- -f7 It 11 ZA on I a fW a u X, NA a AV it, . aloud us. .6411 409 roo "6110 4*0 16 ip XOO 2001 no* $*Is* *fee o*qosqoqoojo$:0=f*o 0 O1::::ooofoooo* * * 0 0 6 0 0.6-0 a a 009  BWK, N.I. (author]:-3UDNRV, N.A. [reviewer]. About N.I.Blok's book "Qualitativo chemical anolysin." M.I.Blok. Re- viewed by N.A.Radnev. Zhur.anal.khim. 8 no.4:238-239 Jl-Ag 153. (mm 6:8) (Chemistry, Analytical--Qualitative) (Blok, N.I.)    32-9~-3/61 The Phase Analysis of Chromium-Niokel-Titanium Steels with Intermetallio Binding. temperature in the tank has to be kept at 00 C. In the given case it was found out that in the above-mentioned steel sample the followingis to recommended for the phase analysis: an electrolyte of 50 9 CuSO , 80 g triply substituted am- monium, citrate, 100 mi methinol per 1 liter water, current density D = 0,05 % a/cm2, PH - 4-4,5, temperature of the tank 0-500, duration of the electrolysis 2-3 hours. For the chemical analysis the anode deposits are quantitatively separated. Their X-ray structure analysis is performed according to the method by Pulver in Ka-radiation. In the case of most steel alloys the phase P-NI Ti remains metastable and upon alloy formation it ii converted into the a-Ni Ti stable modification. In the aging process the phase mai partially alter. The high quality properties of the steel alloy are due to the dispersive ability of the P-Ni Ti phases Due to aging within the temperature inter- val 950-8750C P-Ni-3 Ti phase is separated and converted into melt. (5 illustrations and 2 tables) ASSOCIATION: None given. AVAILABLE: Library of Congress. CAn 2/2  AUTHORs -3160KqW.1.9 X0ZL0VksX.No, LABIM091oF.9 and SHPUNTqKoYA9 PA 2745 TITLSo On the N13B Coapo und in WISkel-Soron Alloys* (0 soyediasaii It I v splavakh nikel-borl, Russlan)e PMUODIULe Daklady Aksd*aLt Nui SSSR, 19579 Vol 113, Ir 4* PP Oil - 819 Receiv0da 6 / 1957 Royloweds 6./ 1957 AWRACTe The double diagram of the state Ni-B'(ap to 20 % 3) us constructed for the first tint by GISB=HkUS1Xq who found that the compound with the highest content of nickel in N12Bo KIESSLIKsoAtionew.also the high content of nickel of the allay Ni B withoot.giVing'Its-chaft6ter- 3 .istioso The authors investioted the structure aid the pUse compositii of li-Balloyst, which contain 0901 - 295 % B9 XftallograPhicallY they found that a uniformly stobable zone in separated at the boiwd- ies of granulation which fom an *utectlc with mlebao The allo with 295 B is pro-*utectico this phase was insulated chemically in well as electrolytically In aqueous (10 8 (NE 4)2004 &n4,130 g Aydroobloric hydrmWlasin per.1200 al water) and noa-sqitieftx~-(50 ad HCl Per 1150 al methanol) *100trolyta From the data contained li~Aalplss I - 3 it my be seen that on the ooo"lon of the electrolytic a*pafttion of pbases a considerable ]?art of nickel Is dissolved boricallya The major part is conserved when the alloy to treated with sulphurlo a4do In W Card 1/2 casepreolpitation ahown one and the same phaseq i,*,, Ni 3B0  On the 113B ftspound in Nickel-3oron Alloys., FA - 2743 It Is & bl&okp solid,substsncep Insoluble in sulphario &aid (1a2 solut lion) and SOIT"le after Prolonged heating In oonoeAtr&ted Sul. phuric &old (1980o'bus It my be said that In the'double slates NI-B there exists & chemical compound NI2B which forks an autectio with a solid solution on & nickel beelso (2 illustratlow''aad 3 tables) A3BOCrAT10Ns All-Union Scientific Research Iniatitute for Aitoraft Material PMWED M B.I.VOLPXOVICB9 Member of the A"d*W ATAILOLIs Library of Congress C"4 2/2 minim  SOV/24-58-12-15/27 AUTHORS: -Blok. N.I., Glazova, A.I., Lashko, N.P. and Ya0ff_m_ova_,_,_A.M, . (moscow) TITLE: Influence of Hydrogenon Structural Transformations in Tituanium.~Alloys (Vliyaniye vodoroda na strakturnyye pre-vrashcheniya v titanov-ykh splavakh) PERIODICAL.-Izvestiya Akademii Naukv Otdeleni e Tekhnicheskikh Nauk, 1958, 9r 12, pp 96-99 (USSR~ ABSTRACT; The influence of hydrogen on the plastic properties of titanium alloys, which has recently been widely studied, varies with the form of the titanium in the alloy. The object of the work described was to itvestigate the influence of-hydrogen on stractural transformations in alloys with an + 0 solid solution structure. Alloys VT3 and VT3--I, were studied, their respective compositions being: 0.04, 0.04%o 0; 2.?8~ 11-93% Cr; 4.9;, 4.6% Al; - , 1-5% Mo; 0.209 0.21V% Fe; 0.04; 0.02?% Si; 0 10, 0.11% 0; 0.028, 0.04.2% N. The method used cLs'isted of the non-aqueous electrolytic separation of phases, vghose structures were then investigated with X-rays. The alloys were also studied metallographically. Card 1/3 Saturation with hydrogen was effected by sealing the  SOV/24-58-12-15/27 Influence of Hydrogen on Structural Transformations in Titanium Alloys cylindrioal specimen and titanium hydride in an evacuated quartz tube and heating to ?OOOC for-10 hours. Specimens with 0.005, 0.015, 0.025; 0.0352 0.05 and 0.12 vwt.% hydrogen were obtained.' They were subjected to differing heat tiNeatments. It was found that in the VT3 alloy containing 0-015-0-035% hydrogen the eutectoidal reaction 0-1~ o~ + TiCY2 is faster than in~ the hydrogen-free alloy; with 0.05-0,06% hydrogen the .0-phase forms titanium nydxide on heating, with 0.12% hydrogen the residual P-phase is stabilized.and there is noeutectoidal x--aotion either on cooling after annealing or on heating for 100 hours at 400-4500G. in the.VT3-1 alloy containing molybdenum the residual P-phase did not decompose after annealing and heating at 400 and 4.5000 for 100 hoiLrs irrespective of the hydrogen content in the range stiAlled. In bothtypes of alloy the P-phase unit cell para-~Pter in--reases with hydrogen content(Fig.l shows this effect for the VT3-1 Card 2/3 alloy heat-treated in various ways). During the heating  SOIr/24-58-12-15/27 Influence of Hydrogen on Structural Transformations in Titanium Alloys of both alloys at 400-45000 the residual 0--phase is enriched in chromium and molybde-num and, rpossib17, loses hydrogen. There are 3 figures, 3 tables and 6 references of which 5 are English and 1 Soviet. SUBMITTED: 8th August 19"'?, Card 3/3  2Ojt(.'Y_ AY1.7, AUTHORS: Blok, N. I., Glazova, A. I., Kokhova, G. M. 32-2-6/60 --ra-sHro-T-F.- F. TITLE: The Phase Analysis of Complex Titanium Alloys (Fazovyy anal.iz Blozhnolegirovannykh titanovykh splavov) PERIODICAL.t Zavodskaya Laboratoriya, 195st Vol. 24, Nr 2, pp. 141-145 (USSR) ABSTRACT: In an earlier work various technical titanium alloys containing aluminium, chromium, molybdenum and changing amounts of hydrogen were already investiCated, as was the phase composition of azoticized titanium. For the separation of phasee a method of the anodic decomposition of alloys was developed. The authors worked with potassium rhodanide, citric acid, 51yeerin and methanol, at a current density of 0,013 A/cm'~ a terminal voltage of 30 V, at from -70 -1000. After the electrclysis the anode precipitates were investigated chemically as well a3 radicgra-phically. In earlier works the Ti-alloya had been smelted in graphite cruciblest the carbon disturbing further investigations; Card 1/3 therefore the authors smelted two.-to threetimes in are  The Phase Analysis of Complex Titanium Alloys 32-2-06/60 furnaces (till homogenization occured). The radiograms of heat after-treated (1, 10, 50 hours at 50000) anode deposits showed the metal stable a-phase while the OL) -phase was not observed. The changes in the aging process of the P-phase of two technical alloys (5,08% Al; 3,06~ Cr and 4.7% Alt 1.86% cr, 1-55 % MO) were put down in a table and the authorf noted that after an a,~'--ing at 45000 only the P-phase is observed while the euteotoid reaction P - a + Cr2 Ti did not take place. Titanium hydride was Isolated for the first time and the authors found that hydrogen dissolves mainly in the P-phase (this was found in collaboration with A. T. Yakimova: if, however, there is no such phase the excess hydrogen then forms the titanium hydrides. According to radiographio structural analyses the Ti-hydride was of crystalline structure af the NaCl-type, while the neutron-diffraction showed a tetragonal structure. The analyses of the anode precipitates treated in a nitrogen current at high temperatu showed that they consiGt of one or two phases, the wellknown finely grained TO and in lower layers the second nitride Card 2/3 TinN. The latter is of tetragonal structure. The investigati  The Phase Analysis of Complex.Titanium Alloys 32-2-6/60 of Palty, Margolin and.Nielson concerning the Ti-N system in the $_ -phase showed a similar structure, the difference however, between the radiograms found by them and the radiograms of the present work, is considerable. There are 5 tables, and 3 references, 1 of which is Slavic AVAILABLE: Library of Congriess~ 1, Titaniun alloys-Phase studies  180), 5W AUTHORS: Blok, N. I., Kozlova, M. N., Lashko, N. F.1 SOV/32-24-11-4/3't G. TITLE: Phase Analysis of Nitrided Steels (Fazovyy analiz azo- tirovannykh Btaley) PERIODICAL: Zavodskaya Laboratoriya, 1958, Vol 24v Nr 11, PP 13115 - 1319 (USSR) AtS'TRACT: To study the many kinds of corrosion resistance of nitrided surfaces of rust-resistant steels an ana- lytical method was developed, and the phases and the distribution of the alloyed elements were investi~3ated. The experiments were carried out on 25IM18N�V2 steelj with the participation of N.M.Rudneva, chief engineer. .X-ray structural analysis showed two phases on the surface of the nitrided layers: the Fe 2N type with a hexagonal crystal lattice and the CrIl tv-je with a cubic lattice. The phases could bes-t- be.,separa4,e& -with an electrolyte consisting of 50 ml. HC1 (d. 1.19) and 2 1150 ml methanol, at a current density of 0,025 Ampere/cm Card 1/3 a temperature of -50 to -100, and over a duration  Phase Analysis of Nitrided Steels SOV/32-24-11-4/31 of 20-30 minutes. The anodic deposition consisted of iron carbon nitride, chromium nitride, and chromium carbide. The separation of the chromium nitride from the iron carbon nitride was carried out using the method of N.M.Popova (Ref 2). ThL amples dissolved in the anodic dissolution up to, 0,*0315*JM46epjUp to a depth of 0,17 mm the nitrided layer consisted of three phases; the carbon nitride of the iron and chromium (Fe,Cr )2(N'C)l the chromium nitride CrN, and the solid solution enriched with nitrogen and nickel. This layer possessed a positive electrode potential and was highly resistant to corrosion. The nitrides occurred at a depth of 0,17 to 0,22 mm and the layer consisted of Fe N,CrN, Cr 23C6, and the solid solution. The nitrogen ion- centration was 0,3 - 0,4%, the electrode potential negative, and the corrosion resistance decreased. In the still deeper layers the chromium content was 15% with only 3% present as the Cr 23 C6* It showed a Card 2/3 positive electrode potential and a high resistance to  Phase Analysis of Nitri4ed Steels SOV/32-24-1'11'-4/37 corrosion. Investigations on nitrided Armco iron showed that the nitride phase up to a depth of OpO25 = consists of Fo X and up to a depth of 0,06 mm of Pe N. The neral coitent in the nitride phase was 4 low 36 # while the rest was a solid solution. There are I figure, 5 tables, and 1 reference, which in Soviet, Card 3/3  18(7) AUTHORS; TITLE; SOV/32-25-6-5/53 Sorokina, K. P., Blok, N. I.t Lashkog N. F. --------------- Phase Analysis of Chromium-Nickel-Titanium Steele With Inter- metallide Hardening (razovyy analiz khromonikelttitandvykh' Staley s intermetallidnym uprochneniyem) PERIODICAL: Zavodskaya Laboratoriya, 1959t Vol 25, Nr 6, pp 659 - 661 (USS] ABSTRACT: It had already been shown (Ref 1) that the hardening phase in the steel type EI-696 is the phase P -in 3Ti which. exhibits. a~face-oentered crystal lattice. Further phase analyses of thil ateel.revealed that the two intermetallide phases Fe2Ti and ok-Ni Ti with a hexagonal crystal lattice occur after heating . 3 up to 800-9500- Since also titanium carbide and titanium boride are-present as primary phases, this steel exhibits as mugh as 6 phases. An electrolytic phase separation in the electrolyte Nr 5 (50 g copper sulphate, 80 g tr' 'ammonium citrate and 100 ml methanol per I I of water) was carried.outg and a,-quantitative separation of the phases IS-Ki Ti and TiC *as obtained. The content of elements in the phas4 A -Ni Ti Card 1/2 IwAs.obtained from the difference after a second dissolution  Phase Analysis of Chromium Nickel-Titanium Steels SOY/32-25-6-5/53 With Intermetallide Harde;Zg in the electrolyte 81 (50 ml HOlt 100 ml 91YOOrin and 1050 ml methanol).(Ref 2). Satisfactory results were also obtained with th Ie method TsN1IChM,(Ref 3) (Table It results from both methods~ The electrolytic dissolution of the steel BI-696 'heated'for 100 hours over 8000, yielded titanium carbide and -diboride and the intormstallide phases Pe Ti and K -Hi Ti * (Tabl- 3 at the anode e 2). A prolongation of the duration of treatment of the anode precipitate with the electrolyte.81 showed no influence on the result of the X-ray structural ana- lysis (Table 3),and the phases Fe Ti and X-Ni Ti could not be separated ohemically. The steel H-696 thus represents a six- phase system: the hardening fundamental phasej'~-Ni 3Tit the phases Fe Ti and %-Ni Tiq. the two primary phases TiC and - 2 3. TiB2 , and.the solid solution. There are I figure, 3 tables and 3 Soviet references. Card 2/2  ISM AUTHORS: TITLE: PERIODICAL: ABSTRACTs Card 1/2 AOV/32-25-9-00/53 Blok,- *No Iog* Kozlovat No'Nol Lashko# No Po, Sorokina, K. P Boride 'Phases i.n -Alloys on the Nickel Chromium Basis' Zavodskaya laboratoriya, 19599, Vol 25, Nr 9, pp 1059-1064 (USSR) It was ascertained by experiment that the heat-resistivity of the alloys (A) on-nickel-chromium basis increases greatly with a small content of boron. Metallographio investigations showed that atO.01.- 0.5% of M, eutectio deponita of theboride phase occur at the grain boundaries, A.method for the phase awlysia of such (A) was elaboratedg in which the boride phases are.separaied electrolytically. The phases separated were subjected to X-ray structural investigationsand chemical analyses. N.,M,, RudneVap Ye. A. Vinogra6val and-Zo Ve Smirnova took part In the experi-_ mental part of the work, (A).of the tYY6'E1473`(uP to 11' 23~ B)- cast alloys ZhSZ (up to 0.22% B 11), E1617 (up to 0-50) II , and the o mbine M19) 0 d (A) ZhSZ (IVMable 1). were used. For the quantitative separation of the boride phases the following anhydrous electrolyte was the most suitablel 50 ml Rol (1.19)0 100 ml glycerin and 1050 ml methanol (Ref 2). Electrolysis took  Boride Phases in.Alloys on the Nickel. Chromium Basis BOV/32-25-9-10/53 place for 60-90 minutes at a current density of 0,06 a/cm2under ice-ooolings The'ehemioal.and X-ray structural analyses of the anode precipitates showed (Table 2).that practically the entire B occurs in the (A) as a compound. Besidesp the boride phase# titanium nitride was found in (I), and senarated from chromium boride (Table 3)(according to the method TRef 4). Formula (cro Ki)5BVor Cr, Ni)4B3 oorrespbnds.approximatel y to the boxide phase (phase X) from (I)# which shows a tetragonal crystalline structure. A combined boride (Phase Y) of.the incidental formula (Mo#CrlWvNi) Bor (kojCrqW' formed 4 39 N)5B4 is by an increase of the borium content in (II), (III), and (IV).. The crystalline structure of this phase could not be ascertained, It is assumed-that this phase Is a ternary, or more complicated compound. Data of X-ray structural analysis according to the powder method for the two phases X and Y are given.(Table 4)-' There-are 2 figures, 4 tables, and 3 referenceep 2 of whioh,are Soviet. Card 2/2  3t 14 "Notlas at ,VIC it fir' Vill kip a UH Ir  S/593/60/000/000/005/007 D204/D302 AUTHORS: &Lg_k. h.p 1 0and Lashko I N. P. TITLE: Phase analysis of cer tain multicomponent alloys SOURCE: Soveshchaniye-po khimicheskomu kontrolyu. proizvodetva v metallurgicheskoy i metalloobrabatyvayushchey promyshlen_L nosti. Dnepropetrovskv 1958 #L Khimicheskiy kontroll proiz-~ vodstva i metallurgicheskoy i metalloobrabatyvayushchey promyshlennosti; (doklady soveshchan,yaj ODnepropetrovski: '1960t 246 - 250 TEXT: A description of phase analysis of a number of refractory ai- loys based on Ni-Crj among them aM-437 (BI-437)t BI-617o WC3 kzhS3)t Ei-6981 NI"598 and RI-765, The highly dispersed a' phase was separated electrolyticallyt using electrolyte no. 18 (10 9 (NH 10 g citric acidp 1200 ml 0 4)2SO4' H20); the carbide and b ride-1 phases with electrolyte 81*(50 ml cone# HOlp 10 ml glyceriney,1050 ml methanol), 0hemicalf X-ray and metallographic methods were used;- to-atudy the oompositiong structure and extent of the various pha-!'~ L Card -1/2 .... .... ......  S/593/60/000/000/005/007 Phase analysis of certain D204/D302 ses, in .relation to the alloying elements and to the thermal treat-: ment to which the alloys were subjected. Distribution of the alloy-~ ing elements between the separate phases and the solid solution was also determined. The a hase was formed in all the alloys studied and approximated to Ni N1, Ti), with admixtures of other elements. which diffused.out at high temperatures. The data are presented-in'---', tabular form. Three types of carbides were foundq depending on thei _,,.45 ...'alloy composition and the thermal treatment: Me 23 C6 kMe = metal) stable up to 105000, and Me nMe' MC and MeO stable at higher tempera-4 tures (130000),-Tetragonal Or,B formed when W and Mo were absent; 1 3 2 otherwise a complex boride'(Mot V)n arm B2 (nm = 3)y of unknown stn;6- ex- turep was observed. No Ni boride was found* B dissolves to the tent of 0 05 - OoO6 % in alloys of the BI-437 and ZhS3 types at 0 11200 - 1;50 09 but separates out as-a boride,phase on ageing at 0 700 - 800 C..There are 3 tables. ASSOOIATION: Vaesoyuznyy institut aviatsionnykh materialov (All Union Institute of Aviation Materials) 'Card 2/2  ILI I t)(1-Y 9 Z4 0' 0__~ 32 61 027/003/04/0251~-,' S/O B 18/M~ _'~xmIORS: tlok, N.~ I., Lashko, N. F., ahd Khromova 0. A. Phase a-~alysis of nickel beryllium alloys 52 "P.MIODIGAL: Zavodskaya. laboratoriyal v. 27s no. 3, 1961g 251-2 TEkT _'Ni-Be alloys with 2~ of j3e-are agins~systems- Aging is conducted .-sunder essential changes distorting the original crystal lattice and deter m n ng' the mechanical pro perties of the alloy. It is the purpose of the present paper to clarify'this relationship as far as possible. Investiga- ..:.-tions werb made on three alloys of thetfolloWin compositions: 1) 1-93~_ Be, residue Ni; .2) 2.2Vj~a' Be, 5-Vio 1,11o, residue Ni; 3~ 2.66~. Be, 1.1k,'* W, residue The alloys were heated to 1,08000 f and hardened in water. The indiddual specimens were aged at certain temperatures between 300 and BOOOC for 6 hr. The phases of the pretreated alloys were separated by electrolysis (electro- lyte: 10 g of triammonium citrate dissolved in 1200 ml of 12~1. Nil OH; cur- 4 2 rent density 0.06~a/cm I room.temperature). The resulting anodic precipi tates were.subjected to chemical and X-ray structural analyses. One NiBe nd one solid solution poor in Be each were obtained from al phase a loys (1)  V001/025 3/032/61/027/00, Phase analysis ... B118/3203 and (3) (f rom 0 ) at in a,,inL; temperature of 3000C, from (3) at 5000C and over). Only one NiBe pha-se was isolated'from allo,,, (2). The content of 1.1 iBe in the alloy changes-with the aging temperature (in (1), increase of t 3000C to 2,831,ra at 800001 in (3), increase of 3-361;' at 3000C to a 5 4 ZS at 60000; in (2)jdecrease from 5.101~13' at 3000C to 4.13%,' at 8000C). -alar cubic crystal lattice of the CsC1 type. The The HiBe compound has a re& stoichiom6tric ratio is not strictly maintained. NiBe particles which are ..Coarse after hardening become very fine in aging at 3000C, and are enlarged again at -higher aging temperatures. The strongly blurred lines of X-ray Patt6rns of Ppecimens treated at 300-5000C indicate an intense distortion of the crystal lattice of two solid solutions. On-the basis of these, pendent findint-s, the authors consider the interaction of the followint, inde, processes to'be decisive for the mechanical characteristics of the alloys studied: block formation within the solid solution; distortion of crystal :.lattices of solid solutions; separation of a NiBe phase of different dis-, _persion-degrees (according to aging conditions). Maximum strength of the _Ni-B,e-TJo--,dlloy was attained at an aging temperature between 400 and 500OC- A. A.: Burmistrova, Ye. A. Vinogradovaj and K. V. Smirnova assisted in the experiments. There are 3 tables. Card 2  27832 S/0.3.2 61/027/010 /002/92,2 B YBIOI AUTHORSt Blok, N. I., Kishkin, S. TO'O'Kozlova, M. N., and Lashko, N. F. TITLEs Phase analysis of surfave-layers of heat-resistant nickel alloys PERIODICALt Zavodskaya laboratoApLo. vi_ 27t no- IOP 1961t 1185-iiB9, The methods based on'&-lotal-, ditekkinktion of -.the 6hemioal com- TLPXTs position of the test layer iised io far~~fdr'in'*estigiting surface layers of alloys heated in air are iri6iiffi6iiiit.-foi~'--oludying the processes taking place. For this purp 6se, - th6- iuthotb : blibibr4t rid " a- method of phase analysis in layersy ah&'were able to ditiaimiine-the. aiitiib~Ltibn of alloying elements among, the individual 'phases, Ih4ii-. niktiwe~~and '66ntent In each layer. 8 '10 an6de deposits taken'by layers aid-ths-.corresponding portions of elsotrolytd were anal.Yzed'dhsmidillj*t'-7?fti ahOthet sample anode deposits are -iepixited in liyird f6i'-X'-ii*-struaturil'aniily4ise ' By'micrometer and of, thi'metal: dilso 9'd 8 si~ 1V I thi * li Lyir-dbpth was balculatibn'by weight determined as being ~0.005'tb 0.05-0o.06.mm.-- Uniform dissolution on the entire emple surface is neceieary., A oryet- allizer holding ~350 ml Card 1/5  27832 8/032761/027/010/002/022 Phase analysis of surface layers of B110/Biol sbrv6d'46 eleotrblyt6'V6s`4el'. Thi':45-5-9'mi-long 'o~lindribal sample (diiketer_M~12 mm) from stainless dteel't6idhed -like -the an6d6'-t6-th6'b-oA.tbm'bf the-VIbasel.- The level of the-Olootrolyte wao'hot higher-th4h the-Mode-height; The following materials werq. investigated& -.Alloys. of the- type ~W 437 (M1437) af ter 8 hr heating at!10800ct 16 hr aging at 700 0O,Iand oooling in air; and of the type)"617 (E1617) after 2Lhr heating at 119000# 4 hr heating at 1050009 16-hr aging---at 8000C, and cooling in air. Oxidation of surface layers 00 occurs frontally. In deeper layers (B)i~oxygen diffusion takes place along,- grain boundaries. Dissolution on the~surfaoe is sufficient for Ai dissolution-must penetrate deeper tor.B.-in order to obtain satisfactory results of analysis. The diseblutio 'n.was performed with electrolytes is and 10 g c, acid in"1200 (10 9 ("' aitri 4)2-S04 ml,H20),&ud a' (5% solution of hydrochloric acid in OR 6H).0 In'189 thes(I-phase, oxides and oarbides, Y in 81 oxides and oarbides aria' separat.ed'i Phase separation in layer I takes 2 plac.9 by means of 0-05 a/am* and 18o,., Layer II (oxii t des and solid solu ion 0 ard 2it  27832 8/032/61/02-7/010/002/022 Phase analysis of surface layers of Bilb/B101 poor in-illoying elements) is not dissolved At EW7, and only selectively at B14 37-0 - When operating with 18, the boundary between layers II and III may be determined owing to* 'the appearinbe of -the o(I-phase in the anode deposit. Layer II of B1617 is dissolveUin 81 under continuous control of Ze solubility in 18. For this purposei the analytically weighed sample is immersed in 18 and, unless it dissolves here, it is dissolved for ~10 min in 81, the deposit is removed, dried, weighed, and the cycle is repeated up to dissolution and separation of the W-phase 'in 18. Layer III - - consisting of solid solution (poor in alloying elements) and ol-1-phase on the basis of Ni (Al,Ti), as well as layer IV of initial alloying composi- 3 tion, are dissolved in 18. The anode deposit separated in 18 and 61. (lay~r_II, B1617).is filtered off and washed out with 0.2% 'electrolyte 2+ solution up to negative Ni reaction. Electrolyte and rinsing water are -uniti6,,'evaporated, filled up to 200-250 ml; 50 ml of it is mixed with 10 ml H2SO4 (1-84) and heated. H202 is added to the dark-brown liquid. obtained. It is heated up to destruction of B2 02' filled up to 100 ml, and the'elements are determined. Anode deposit I is molten with KHSO the Card 3/5 40  78 01 310,37) B! /0Z7/010/002/022 Phase analysis of surface layers of.... B110 B101 5% H so and fikled up to 200-250 ml. According to melt is dissolved in 2 V ' X-ray structural and chemical analyses, layer I '(UP to 0-005 mm depth) is strongly enriched with Ort Alp and Ti. It consists of Me 203 (or203, Al 20Y NiOsTiOd with trigonal orystal,struoturs, the param~eters of which are similar to those of Cr 20 3* In layer II (inr-0902.7 mm depth of.EI 07 and in ~0-40 mm depth of E1617), as in layer 1, d,'- and carbide phases are destroyed through Cr-, Al-, Ti and'O diffusion to the periphery, and t'he oxides are formed. Layer III ieo.io mm depth in B1437 and,0.15 mm in E1617. In E1437~ the Me 0 are enriched with Cr in peripheral layers, and 2 3 with Al in deeper ones. In B1617, Al 0 already exists at small depth, 2 3 which suggests a missing equilibrium state. Gas turbine blades of R437A W437A) operating at 4700oct where uniform dissolution was difficult, were tested in this way. Layer I was missing (mech 'anical wear). Impoverishment in chronium was found down to 0,075 mm. The T1 content of the surface layer was constant. The Al enrichment at a certain depth cannot be explained. Destruction processes on the surface starting at the grai" Card 4/5  27832 S/032/61/027/010/002/022, Phase analysis of surface lavers. of BIIO/B1OI boundaries are explained by deep oxygen.diffusion along the grain boundaries. N. M. itudneva, N. A Shumilina,.X. V.~ Smirnova, and A. H. Sokolov~assisted in the experiments.- There are figures, 2 tables, and 4 referencess 3 Soviet 'and.1 non-sowiet. Card 5/5  M 91392 S/032/61/027/012/002/015 B119/B147 AUTHORS: Blok K. I., Glazova, A. I., Laahko, N. F., Kurayeva, V. P. Molchanova, Ye. K. TITLE: Phase analysis of alloys on titanium basis PERIODICALt Zavodskaya laboratoriya, v. 27, no. 12, 1961, 1470 - 1472 TEXT: a+p.alloys with stabilized 0-phaaet and a-alloys with intermetallic hardening were examined. The individual phases were isolated by anodic solution of the alloy in anhydrous electrolyte (3 9 of KCNS or 2 g of LiCl, 10 g of citric acid, and 1200 milliliters of methanol). There- after, they were subjected to X-ray structural and chemical analysis. Ygc~V,Nb,and Ta were identified as stabilizers for the P-phase, the effect of which decreases in the sequence mentioned (In the presence of 4% Mo the content of the P-phase in the alloy in 1i%; at 4% Vt it is K and at 4% Nb or Ta, only 3%). After forging, the anodic deposit of these alloys consists entirely of P-phase. In the presence of 4% Ta, alloys a ed for 100 hr at 500 C show only small quantities of P-phase, whereas 49 Mo or V completely prevent the P-phase from decomposing. Ti-Cu alloys containing up to 5% Cu have one phase of the composition Ti 3 Cu Card 1/2  21392 S/032/61/027/012/002/015 Phase analysis of alloys on ... B119/B147 with tetragonal face-centered lattice, A phase of the type Ti 3CU of different com osition was also observed in Ti-Al-Cu-Sn alloys (containing up to 3.5% Cu~. An increase of the Cu content of these alloys from 2 to 3,5% results in a rise-of the content of (T i,A1,Sn)3Cu phase from 5.75 - 6.25 to 8.02 - 8,34%. Thus, strength increases from 95 - 100 to 104 - 110 kg/mm2. In this case, specific elongation decreases from 35 to 30 - 22%. Ye. A. Vinogradoval Ye. V. Zvontsova, and L. V. Polyakova assisted in the experiments. There are I figure, 3 tables, and 5 references: 2 Soviet and 3 non-Soviet. The two references to English- language publications read as follows: N. Karlsson, J. of the Institute of Metals, 79, 391 (1951); A. Gaukainen, N. J. Grant, C.-F. Floe, J. of Metals, 4, no 7, 766 (1952). Card 2/2 -  5/032/62/028/007/011/011 B117/B101 AUTFiORS: Blok, N.~ I., Lasbko,,N. F. TITLE: Conference on the phase analysis of metals and alloys PERIODICAL: Zavodskaya laboratoriya, v. 28, no-' 7, 1962, 893 TP"XT- A, conference on methods of phase analysis and the application of 'this to metallography was held in Moscow from November 261to December 1, 1961 attended by 350 representatives of institutes and industrial laboratories in various fields. 36 reports were presented. Ip one on the importa'nce of phase analysis in metallography, I..I. Kornilov described the historical development of this method. 1. Ye. Lev, A. F. Platonova, N. G. Roslyakoval O.S. Spiridonova, and M. V. Obrazteova reported on carbide analysis of high-carbon iron alloys, transition and heat-renistant steels. Among other reports were the followingi L. V. Zaslavskaya, N. Ya. Karasik,'N. Ye. Shlepyanova, and E. I. Belikova on the analysis of intermetallic phases in steels. N. L. Belyakov.and V. S. Malltseva on the analysis of austenite-ferrite steels. 0. A * Khromova# K. P. Sorokinat M. N. Kozlbva, and M. M. Shapiro on the phase analysis of Card 1/2  S/032/62/028/007/011/011 Conference on the phase analysis ... B117/B101 nickel alloys. A. I. Glazova.and N. F. Lashko on the phase analysis of titanium alloys. 0. A. Khromova on the methods of phase separation in aluminum alloys. I. Ye. Lev and V. S. Malltseva on general problems of the electrochemical theory of phase separation in steels. K. r. Sorokina on experimental data on the study'of N'3(Al,Ti) and *carbide phases. Reports on analytic methods without phase separation included th6se by L. S. Palatnik on the electronogrAphic investigation of thin.14yers, by S. Z. Bokshteyp on radiographic~methods; by V. Ye. Budnichenko on locAl X-ray structural analyses; by L. L. Kunin on thermal extraction. It was resolved to organize and coordinate further studies on the phase analysis of various alloys. Card 2/2  S/76Z/61/000/000/013/OZ9 AFTHORS; N. I., Glazova, A. I., Yakimova, A. M., Lashko, N. F. T17LE: Investigation of the phase of the two-phase alloys BT3-1 (VT3- 1) and BT8 (VT8). SOURCE: TVcan V promyshlennosti; sbornik statey. Ed. by S. G. Glazunov. Moscow, 1961, 135-141. TfXT: The paper describes an experimental investigation of the mechanism of Htembrittlement of two-phase Ti alloys in which residual P-phase decomposition separation of chemical compounds does not occur.. Whereas in the Ti-Al-Cr a4oy BT3 (VT3) the residual P phase 'decomposes and segregates, TiCr z and TiH, a4d thus becomes embrittled, the Ti-Al-Cr-Mo alloy VT3-1 and the Ti-Al-Mo alloy VT8 do not incur such process. X-ray metallography of anode precipitates of these alloys reve4ls the existence of a P phase alone, in which the elementary- lattice parameter increases with increasing -H content in the alloy.' The particular objective of the present test is the investigation of the enrichment of the P phase with heavier elements, such as Cr and Mo, the atomic radii of which are smaller than,the atomic radius of Ti, during 100-hr aging at 450-5000C. The method 'em- ployed' comprise a the electrolytical phase separation (Blok, N.I., et al., Card 1/3  I~*estigation of the phase of the two-phase alloys ... S/762/61/000/000/013/029 Zayodskaya laboratoriya, no. 1. 1956) and X-ray metallography. The electrolytical phase separation was performed by an improved method of anodic dissolution of mqtals in a waterless electrolyte (2-3 g KSCN. 10 g citric acid, 100 ml glycerol, anA 1,ZOO ml methanol), a current density of 0.01 a/CM2, a terminal voltage of 30 v,?and a bath temperature of -7 to -100C. Maximum time 45 min. Introduction and withdrawal of the sylindrical specimen was performed under current; the speci- men was.then washed twice in methanol at -70 and was air-dried. The anodic pre- cipitate was scraped off the specimen and preserved at sub-OC temperature. The Ti, Cr, and Mo contents in the P phase were determined by the usual methods. The H content therein was determined in the universal equipment of A.M. Yakimova (In Trudy komissii po analiticheskoy khimii, "Analiz gazov v metaDe, " Akad. n. SSSK_, v.X, 1960) according to the method described by Yakimova in her paper on pp. 131- 134 of the present compendium (Abstract S/76Z/61/000/0001012/029); chemical ana- lysis is possible only when a single phase is present. Test results are summarized in a full-page table and are graphed. Results: (1) The Cr and Mo c.ontent in the phase of VT3-1 and the Mo content in the phase of VT8 are considerably greater than their mean content in the alloys. The Al content in the P phases is lower than its mean content in either alloy. For example, the P phase of VT3-1 alloy contains 9. Z47o Cr. 10.4476 Mo, and Z -05'16 Al. as against 1.93% Cr, 1.556 Mo. and 4.616 Al mean content in the alloy. The P phase of the VT8 alloy contains 25.3876 Mo and Card 2/3  Investigation of the P phase of the two-phase alloys... S/76Z/61/000/000/013/029 2.4411o Al, as against 3.4596 Mo and 6.331o Al mean content. (Z) Aging of VT3-1 and VT8 alloys entails P-phase enrichment with,alloying elements; this is an indication of the occurrence of transformations toward phase equilibrium . (3) The H content of the P phase depends on its total content in the alloy and on the allo~ring-elemeiit enrichment in the P phase. (4) The residual P-phase content of VT3-1 ahd VT8 alloys increases with increasing 1-1 content therein. 'There are a figures, 3 tables, and 4 Russian-language Soviet -references cited in the text. The participation of Ye. A. Vinogradova and Ye -I Zvontsova in the experimental work is acknowledged. ASSOCIATION: None given. Card 3/3  S/762161/0001000/0101OZ9 AUTHORS:ALlok, N. I., Glazova, A. I., Lashko, N. F., Solonina, 0. P. TITLE: Phase composition of the BT3- I (VT3- 1) titanium alloy as a function of the alurninurn, chromium, molybdenum, and iron content and of its heat treatment. SPURCE: Titan v promyshlennosti; sbornik statey. Ed. by S.G. Glazunov. Moscow, 1961, 112-120. TEXT: Ths is a report of an experimental investigation occasioned by a recent decrease in the strength of several Ti alloys, including the BT3-1 (VT3-1), as a result of the introduction of higher-quality sponge Ti. The investigation studied the effect of the basic alloying elements Al, Cr, and Mo on the phase composition and the properties of the resulting alloy. The additional consideration of Fe addition was intended primarily to explore the consequence of its introduction as an unavoidable part of cheaper alloying charges. Heat-treatment methods designed to attain maximum strength and adequate ductility (to replace current'ly used isother- mal anneal) were also explored. It was found that: (1) All of the alloying elements of the VT3-1 alloy stimulate the formation therein of a residual or retained P phase; Cr and Mo enter directly into the P phase; with an increase of their content in the Card 1/2  Phase composition of the BT3-1 (VT3-1) titanium alloy. S/762/61/000/000/010/029 alloy the amount of P phase and the concentration of these elements in it increases; Mo appears to be a more powerful P-phase stabilizer than Cr; (b) Al enters the P phase solely as an addition and affects the increase of the amount of that phase only indirectly by reducing the solubility of Cr and Mo in the a-Ti solid solution. (2) With increasing Al and Mo content in the VT3-1 alloy the stability of the P phase is enhanced after prolonged aging at 4500C. (3) Isothermal heat treatment leads to the formation of a relatively small amount of P phase; this explains its impaired 'Strength as compared with that of alloys subjected to a two-stage heat treatment consisting of a quenching and a tempering operation (details tabulated). (4) The difference in the mechanical properties of the two specimen rods of one and the same melt (brittle rupture of one, failure with distinctly plastic deformation of the other) can be explained by the state of the a phase, primarily its form and distribution, and also the size of the primary P-phase particles. There are 2 figures and 4 tables; no references: ASSOCIATION: None given. - -'-/ "--  S/76Z/6l/000/000/QZ1/0Z9- AUTHORS: - Blok, N. I., G14zova, A. I., Kurayeva, V. P., La shko, N. F. TITIJ~: Phase analysis of,the BTIO (VT10) titanium allo.y. SPURCE; Titan v promyshlennosti-, sbornik statey. Ed. by S. G. GlazurAov. Moscow, 1961, ZZ7-231. TEXT- This paper describes an experimental X-ray and chemical analysis of electrolytically pre- cipitated VT 10 alloy (after I-hr 8 OOOC anneal in vacuum), per- formed I?y a method described in Zavodskaya laboratoriya, no. 2. 1958, 14 1. The investigaition was motivated by a desire to determine whether the age hardening of this creep-resistant Ti-Al-Cu-Sn alloy is produced by the separation of some inter-' metallic- compound phase, since this alloy, like the two-phase Ti-Cu alloys, has no residual P phase that could be fixed by quenching. Reference is made to the phase diagram of A. Joukainen, et al. (J. Metals, v. 4, no.'7. 195Z, 7 66), according to which Ti?O is the intermetallic phase richest in Ti. The present investigation identified an intermetallic phase of variable composition with a tetragonal face-centered crystal lattice of the Ti Cu type, namely (Ti,A1,Sn)3Cu. The phase compositions of VT10 alloy with sligly variable Cu and Al contents and after coQling at various rates, as obtained by the X-ray and the chemical method, are tabulated. All find- ings support the conclusion that the (Ti,Al,Sn)-to-Cu ratio is eXtreW~elyjcloSe to 3. The Ti3Cu-tYPe phase thus identified is a solid solution in which, some nodea,,of the. Card I /Z  -9- r Phase analysis of the BT10 (VT10) titanium alloy. S/762/6110001000/021/029 crystalline lattice, ordinarily occupied by Ti, are occupied by Al and Sa atoms An increase in Cu content from 2 to A increases the quantity of (Ti.AI,Sn)3Cu continuously from 5.75 to 8.3576. No comparable change occurs upon increase of the Al content from 5 to 616. It is concluded that the VT10 alloy gives rise to highly dispersive products of a eutectoid reaction P-a + (Ti,Al, Sn) Cu. X-ray analysis indicates that the fundamental phase in VTl0 is an a phase, loth primary and trans- formational (a'). No residual P phase can be found in the alloy. It is Lknown that in Ti-Cu alloys the eutectoid decomposition upon cooling from elevated T occurs very rapidly. - It proceeds even more speedily in alloys of the Ti-Al-Cu-Sn system, and the P phase decomposes in toto into an, a phase aud an intermetallic compound. The effects of the temperature levels and rates of'cooling on the Ohase composition, are tabulated in detail. The structural changes in the VT 10 alloys apparently are ,deterrrAned by three factors: (1) Change in the size of thd primary grains; (Z) change in the shape of the particles of transformed P phase (cL' phase); and (3) change in the shape of the particles of the intermetallic phase (TiAlSn)3CU and the character of its distribution. There are 1 figure, 5 tables, and 4 rAfiv~aces. (I%Russian- language Soviet, 2 English' langaage. and I Gorman). The part.ickndow*f'Zb:-D. Afanas yvw,~ Ye.A. Vinogradova, Ye,L Zvontsova, and L. V. PolyiLkova in the ex-' perimentil portion of the investigation is acknowledged. n. ASSOCIATION: None ve Card 212  S/032/63/029/003/003/020 B117/B186 i ,.AUTHORS: Blok,-N. I., Kozlova, M. N., and Lashko, N.. F. ITITLE. Phase Analysis of chromium-plated nickel alloys 'PERIODICAL: Zavodskaya laboratoriya, v. 29, no. 3, 1963, 272-276 TEXT: The method of phase analysis by layers was used to study the phasell. - c eral-cbemical composition of-the surface layer o ompositi6n and the gen f heat-resistant chrome nickel alloys. It consists in the successive anodic; dissolution of thin layers whose composition-differs by.reason of t e. h weakening of diffusion processes with-increasing depth as well as in the chemical analysis of the anode'slime and the corresponding amount of electrolyte. An alloy of the ty-pe -4 0 43-76 (E1437B) (Ti-Al-Cr) and a lectrolytes composite alloy of higher aluminum content were studied. E 11 with ferrochrome or with metallic,chromium were used at OOOC for 10 hrs.1 The composition of the surface layer growing on the specimen depended -considerably on the composition of thd.electrolyte. In both cases the surface layer was enriched with bound nitrogen in the form of nitrides and :in solid:solution due to the.effect of atmospheric nitrogen, the chromium ~Card 1/2'  S/032/63/029/003/003/020 Phase analysis of chromium-plated B117/B186 acting as catalyst. An analysis of the thin layers showed In the C, chromium-plating of B1437B with ferrochrome, Fe 0 and Cr 0 are formed 2 5 2 3 in the thin top layer and nitrides, mainly titanium nitride, in those following.. The nitride shove a.high content of chromium in the layers near the surface. Using metallic chromium, Cr N and CrN are formed in the, 2 top layers and titanium nitrides,mixed with chromium in those below. The a romium content decrease h a with increasing depth; only pure titanium .,nitrides oo cur in the lower layers. The'oontient of nitrides decreases at-1 a depth of > 15011, and the initial composition and structure of the alloy t - 260p. In the chromium-plating of the composite alloy, appear a aluminum nitride is formed besides chromium and titanium nitrides. The original composition of.the alloy is only found at a considerable depth. There areI figure and 3tables, Card 2/2  TUM&NUVP A.T.; KISHKIN S T:; 'BOKSHTEINi S.Z.; BWK N.I.; FIATONOVAs A.F.; SOROKINA, K:P ; ZMLAVSKAYAO L.V:; GUZOM, A.I. Nina Mikhailoyna Popqva. Za*.'lab. 29 no.ltlO3-104 163. (MMK'16s2) (Pvpova., Nina Mikhailovna, 1914-1962)  AT!-1,1969-6-S FWT(m) -3-4 Pad ASD(n)--3/-4, =-R H-1910 D/ 1-2-1/JG/?M*K -,~-~777-7777777 -NR:~~AT40480 ACCOMN AUYHOR: -Biok-l 91mova.-A.T., Kozlova' M. N Lasbko, N.V., Morozova, G.I., LI- Sorokiaia, A-P-, Mjr ova, 0. A. 77TLF.. Z:omparleon of methods for the phase separation of -,dckel chromium z'-11'ovs SO~'RCE: ST)Pktral'nv*ve I khimicherklye metody* analiza matprialilv (Svoctnal and ~~ ';.. . -~ 1, L~ chemical mothods of materials analvt3is)-, sburnik rnetMik %1 1964, 78-83 TOPIC TAGS- nickel alloy, chromium alloy, phase L;eparation, AJ~lha !~~rnast~. phase, elecrmlysis ABSTRACTt ne irfopt-widely--used-maUwft. -of electrolytic phase separation for heat - stable NI-Cr alloys wore 1nvei`Uf~gk-Nbd and compared 7U baft Droposeed by different. organizations for Isolating the (A-pbase and carbide pbase are as fc;'I'lows! 2. 10 g so I u g citric acid, 1200 ml D' 2. 5 v (KH i1%-' 'HIN". 4- H ac-0' ~ 3. 3% F~SO 7H 3. 5 % N a CL -9~ 1000 H1)0; -flum' -ate. 0, nol vt,- cit! 5 MI H280 100~ ral,~',2 5. P 250 M1 c2fl5ofl. 1000 MI A'20; cao), g (,.Sf 4 C.rd 1/3  L 14969-65 ACCMION NR: AT40480,94 '000 Ml H20; 6. 100 ml H3P04, 1000 ml H20- 'no current density IP all cases was I 0. 05-0. T ampsi cm2, for 60 minutes at mom ternperatu re -he~,n ic-al an--!'~Sis A- ~ht' -phase and anode residues is described in detaAi. TNvo heat-st-abit Ni-L-r ail."vs used: E1437B (0. 037 % C, 20.57% Cr, 2.75% Ti, 0. 0 "~, AD an d E 16 1 C. 15. 17% Cr, 3.67% Mo. 2. 00% Tf, S. 30% W, 0. 21% V, 1. 7 0 % Al) under diff ereat conditiana of tempering. As shown by tWxilated data, the electrolytes used are suitable ior the separation of thdN -phase. The electrolyte with a smaller amount of ethyl falcohol gives a slightly decreased amount ofC~-ph2B9. VariaLalon in the pH from 0. 8 to 2. 6 does not affe-et the totpJ arnount of cy-phaf;e. The phaBe separation ;7rrnxct-~z no84k fa-v-nrabiv ir iaining 30 g of citri acid durtng 0 tart r-,j '7 z Je of the type Tj (C, *T'~ a_nd A I eW; -k:' -3bta- 23 b~u7d N in(W, Mo, Crxn'C are f&,~d the VTAM bath (50 ml,HCI 100 ml glycerol, 1000 ml CH30h, eurrent arnps"'CM2 I hr.) Orig. art. has: 4 tableB and I figure. ASSOCIATION: none  L 14969-65 ACCESSION NR: AT4048094 SUBMITTED: 12reb64 NO REF SOV: 0017 ENCL; 00 OTHER, 001 3/3 SUB CODE: MK IC  k t U*-r4: W A~ 8 lww, Pat IWISTF-FT-RIM; llmi-e- i ERPRO'Ka  T 45443- 5 T (: AT5011338 at gon-lfnBc ACCESSION N~ lov loading of a, Phenomenon of recOvOrY* rAt. Or on th~ th, ;e OY. th pprecjaL,11~ ~,,r~ ct on face layFr,, as has no Ma"! - an ac- Uil FI-4C'-  -, A ) Ar mw /' v- 4 t' R i, Ik( tfln -~2 v 2 n 6 T- A 2 MiT ( m E W P ( w ) / k ' - i % 71 ~A 4 IJP(c) j :) /,Ptj./ Fn~ j C. '3- 14 F, tind ufjgsten and moly~~den= SOURCE - -razorvy sostav, StruAtura avoys.'V6 (P~asr composition. structure. and propertivs of alloy st-Is arld alloval Mashi-nostrov,--ni've, .965, 48-54 nlifv ph?35e Composi- pllov hi-at alloy. ul-era-'i no zone t-lucidBte the charactetrist(cs of and --Ls--n sE elloving II I three meits unire s-,d, f-d o 1 ouri ng -93,~ Be, bal, (2) 2 , ~, V1 L C'(- P, Ni, Fnr-.~d bar!; c f r wr phase Comp tilt: caucf2z~ Oz- i,i the retardation and depression of the disccn,  L r-205e-6Z ACCESSION NR: AT5011339 c,b sten. The d i se u! I i jr~. tl~e 111joy containing tung '!lc --~d d r- V1 At, nigb ter-,p-tu, li ar, h~as: 4 f i,-:~:res n Ll AS'-~DCLAZION: norte ~TIUED~ 17Dec64 ENCL: 00 NO RW S(YV - W3 ODD za, 1.0  4543,,-65 /000/000/0170/1011~1 UR N-R: ATA5011350 I ACCESSION Y. F. lova -)Bj2k e r, ha s e ana! Z,-', ~U-llkturp ri A UD chrornl~'Ul 1-n mil Cora A.  5-65 L h5%h3 lid solut."n rich AT501MO ACCE and CrN, an~' zbe ""'C' phase-4 r om uTfI - tfu Ltod U, ~A rr, none O,T card  -V n rp A G C E S 13 5 2 Blqkj. N. 1. M.N.; LaahkD, N. F. AUTHOR: ->COS,, olirl diffusiOt, in m, prt T11- 31--Oiorl; ptudw d cord 1/2  L L~ 51,2 7 -65 ION IiR- AT51011352 I iw A CC F-S-S urr "'d tjI N,, h-rornizAr19 c' 9 M Oil  Tu N-rR: ATFA11355 n 00 0 0 /02A 6 fO 2 WOO Al,711!)R7 12RLadjv~, A.; Glazoval- A--.. (m the phaj; o c-ornpos It-lor. all en adrn i xt,,, a oy j) tun- -;:LS C.,d  1, h 51h30-65 TR "011355 AT5 ACCESSION N :;T 4~nZ moei of which is dissolved in the elumetrolyte. M20C, ~L i.hc s'rf_,4-th *o ~~t-,njtmi, in I-!it, so, contnirtini, 0. A! L,_6 I-amid lu be loss ~1)a_-) roplaced by h-ulpsten in V73-1 alloys, fnn diffimior-All 'I _-,-inks ripe tty a satisfactom th Orig, an ba-.3: .3 f igurep, TION S U- B Tyl 1 T 1 E 1 - e. c 6 4 EL4CL: 00 SUR 170DE: P,1~, I NO REF SOV: 005 000  BLOK, P.L.; FAMLMMV., VeV,; BMONOV, N.V.p inzh.-akonomist Conmatations. IzobrA ratse no*5;29-30 Yq 162, (KMA .15s3) 11 G:LavnV inzbo proyekta instituta "Gipropromtranastroy (for Bl0k). 2. Sovetnik predoodetelya-Gosstroya SSSR po v0prosam izobretatellstva. i ratsiowlizataii (for Pazteleyev). 3% Starshiy inzh.. Komiteta po delm izobreteniy i otl&-ytiy (for bezoonor). (Tecbnologima innovations)  -POLAND Ivated P2ants, - Fodder-.: m-6 Cult 5 -Tow "A3f Biol.j, No No 1631 Zhur 1j. 1958~ Author Papr 0 t a I d Inst Not Given Title Mixed Sovings as a Factor in Accelerating Yellow Fodder -uipine.-apening. Orig Pab Postepy nauk: roln..., 195,0.,_,- to l., 54-6D Abstract Experiments.'.' Wit# jaixing- hipine:with- oats and summer rye have .rmIed _in~*2-1954 at-tho.Posorta-Farming Test Stam- tion in oll's'~tiii;-(va~!i6ty.,,-t~q#n'g). (Poland). 7Ui-ty kilograms per hecta.me of.oats, and r~e'seedi wereadded to the lupine seeds. Th .etotal yield of lupine seeds with rj6lwas 2.41 lupine With oats 3.76 - 5.36'c/h greater than the yield of lupineseeds in pure sowing (14.95-20-74 a/h). In spite of the fact that the.lupine seed harvest itself decreased to 8.3- 13.43 a/h., ripe seeds suitable for sowing were) nevertheless,, obtained Iz the mixturos; whereas during the wet year of 1952$ no ripe lupine seeds were availablelfrom the pure lupine crop, C, In wet years the a ~of oats has accelerated the lupine Card.,  B-LOK, V - M-. "Selection of the Optimm Cross Sections of Cables Considering the Economic indexes," "Operation of Cable Networks" (Eksploatataiya kabeley i kabel'n-ykh setey), Gosenergoizdat, 1949, 384 PP-  SOMATKINA, Lidlya Aleksandrovm; BLOK, Y.M., redalctor: MWM1Tp LoThe, tekhni.abeekly redaktora'"--Wl~ .[Vle6tric power distribution In large cities of the U.C.A.] Slaktre- shabzbenle v krupnykh gorodakh SSbA. Moskva, Ooe.snerg~izd-vo. 1957. 45 pe (MLRA 10:4) (United Statss-5~lectrlc power distribution)  HLOK, V. K. Determining power losses in closed networks. Nauch. dokl. vys. shkoly: energ. no.1-.65-74 158. (MIRA 11-.10) 1*Rekomendovano kafedro7 alektrichookikh seteyi eistem Voesoyuznogo zaoohnogo onergatiohaukogo instituta. (Blectric network analyzers)  DMOKHOVSKAYA, L.F., kandtakhn.nauk; LARIONOV, V.P., )mnd.tekhn.nauk; BMGSDORP, V.V...prof., doktor takhn.nauk, red.; KM V 9 red.: VORONIN. K.P., tekhn.red. [Overvoltage protection and standarization of insulation in the U.S.A.] Yoprosy zashchity ot parenspriazhenii Lil koordinataii izolistaii v BShA, Red.V.V.Burgsdorf. Obzor sost.L.F.DmokhovskBIro i V.P.Larionov. Mosk,va. Gos.energ.isd-vo, 1960, 77 P- (HIU 13:11) 1. ORGRIS, trust, Moscow. (United States-Lightning protection) (United States-Electric insulators and insulation)  BLOK. V.M., RG9 R.E. (Riga); GUSEVAO S.A. (Riga) , -- Oiga); ZEBF Choice of optimm wire and cable sizes taking into account economic sizing intervals. Blektrichestvo no.5113-16 My 164. (MIRA 17:6)  BLOK, V.M....kand. tekhn. nauk, dotsent Some thaughta in connection with N.N.. Krachkovskli's report. Izvo vyse uchebo zave; energ. 7 no.2t208-109 r '64.- (MIM .17:3)  ECEST, Antoni; BLOIC, Wojciech; tIARMWSKI, Ryozard; SIlaWKI, Maciej Autopsy onse of cork pneumoooniosis. Polski tygod. lek. 14 no.29: 1347-1349 20 Jul3r 59- 1. (Z Osrodka Badawazo-Leczuiczego Chorob ZRwodowych Wewnetrznych A.M. v Pozuaniu; kierownik: prof. dr med. A Horst i z Zakladu Anatomii Patolo- gicznej A.M. V Poznantu; kierownik: prof. dr mea. J. Groniowski). II (WOMOCONIOSIS, pathol.) Or  ELOK, Ya. D. I'New Method in the Control of Peach Diseases,n Sad i Ogorod, no. 8, 190, PP. 306-38 80 Sal 3 So: SIRA Si 90-533 15 Dec. 1253  L 01 tH,-.pRAGIMOV, M.;. KMALOV, S.A.; KARAKHOOV, M.; PONOILWV, L.Z =.. ; PARA40SHKIN, I.M.; YUSUPOT, F.; USTIMNNKO, I.L. q red.-sootavitell; SULTANOV, G., red.; NADZHIMOV, G., red.; UMANSKIT, P.A., takhn,red. [Achievements.of Uzbekistan in forty years of Soviet rule; statistical collection] Uzbekistan za 40 lot Sovetakoi vlasti; statisticheskii sbornik. Tashkent, Gos.izd-vo Uzbekskoi SSR,.1958. 134 p. (MIRA 12:11) Mbekintan-Statistics)  BLOK, Yu. Yo.,,, Tissue cultdre-from the aorta of adult rabbits and man. Biul. ekap. biol. i mad. 57 no. 2t:LO2-104 F 164. (KEU 170) 1, Inatitut terapii (dir. - daystvitellnyy chlen ANN SSSR prof. A.4ttVaBnikov) ANN SSSR, Moskva. Predstavlena dayatvitellnym ohlenom Ag SSSR A.LoYlasnikovym.,   RLOKH, A. '. A generalization of the Lie algebra concept. Dokl. AN MR 1 165 no.3.-471-473 N 165. (MIRA 18:11) 1, Moskovskiy gosudarstvennyy pedagogicheskiy institut im. V.I. Lenina. Submitted April 10, 1965. 11,  AUTHORs. -A B11okhg .A., B Z;OY/117-58-11-14/36 TITLEi He.licoid'Punchers for Banding Parts (Gelikoidallny7e shtampy dlya.gibki detaley) PERIODICAL: -Mashinostr6itelf, 1958, Nr 11, pp 15 is (USSR) ABSTRACT: Details-Aike those in Figure 1 can be manufactured by specia helicoidal dies on usual eccentric presses in one operation. This method is.more expedient than present procedures. For bending a detail at a certain angle, it is fastened as is shown in,Figure 2. Figure 3 shows a screw surface which is, a ruled helicoid. It is formed by the screw movement of a line tangent,to a cylinder. For the manufacture of loop- shaped details, the-most rational variant of the die is shown in-Figure.5- The productivity of this device is very high, since cutting and bending is done simultaneously. A pattern used for the thermal processing of such details is given in Figure 7. It is a cylinder with a two-sided rule Card 1/2 attached to it. For milling a belicoidal surface, a univer;  j% L 821i.:M EWT(I 004/-037 3 ACC -MR-777MO13666 SOURCE CODE: UR/0360/65/002/004/037 111 57 5-- YY 0 5 ova AUTHOR:- Lthedev,--Ye. I.; Pi syna, *'Go; Sakharov, A. V. Blokh, A. A.; Ivan No I. Fedosevev Leningrad So'ciely of Optical: 1;quireent Ente rises (Leningradskoye oblfyedineni~ optiko-mekhanicbskikh predpriyatiy).-1'.. TITLE :New instriments Ior cular spectral-ana red' gion of the 'Pole lysis in the infra re presente on Spectro- spectram EPiper d at the Plenary- . Session of-the Ifith Conference '-scopy, 2 Vebru'ary', . 19651 SOURCE. Zhurnal prikla&63~ spektros~4tii Z no~ 4 1965, 377-380. -phot6meter* :1R, IR optic st~tem TOPIC TAGS: IR ribe - several ABSTRACT.. Th authors desc new~instruments developed by the.Leningrad J dociety of.Optical Equipment Enterprises in,1953-1964: the IYS-2271iDegjjMh_6tgMetjr_ As; t)* IKL-2 pectrophertameter -for research on radiation from.li- for: maps analys ome er ~4uiA~rpeciaiehd-.,thii~..NQa,-~u*c=com-atta6bment)pfor.a single-beam spectr9phot t -for use-in.studying'specimens.suc as.~- eve -, a nd___ -crystals; - and-the.- KRT-1.74.,ariable- e ns rument,is n--to- - thickness cellpior- st0diinn'.. liquidaVM A photograph of ach i A - -give gether Withr a detailed desc rip lon,of its.operation and technical characteristics.- A diagram of:the opticil~~ U6 1 for the_ W!*23 instrument is given and expUined. Orig &t., has t 5 figures IMF. _SUB.CODE: OP/ SUBM . DATE:: 000/ OTH REF: 000 OD/ ORIC nW M: M.853 p