SCIENTIFIC ABSTRACT KUZMIN, M.G. - KUZMIN, N.F.

SOV/20-121-2-30/53 A New Method of the Production of Cyclobutane Hydrocarbons have far higher intensities than in the spectrum of p-methyl- ethyl benzene. This fact proves the existing conjugation between the benzene ring and the 4-membered nucleus. There are I table and 12 referencesq 9 of which are Soviet. ASSOCIATION: Moskovskiy gasudaretyennyy universitet im. M. V. Lomonoeoya (Moscow State University imeni M. V. Lomonosov) PRESENTED: February 27, 1958, by A. N. Nesmeyanoy, Member, Academy of Sciences2 USSR SUBMITTED: February 26, 1958 Card 3/3  KUZIMIN, M. G. Cand Chem Sci -- (diss) "A new method of synthesis of cyclobutaness the catalytic decomposition of tetrahydropyridazines.1' ?Jos, 1959. 10 pp (IlDs State Univ im M. V. Lomonosov. Chem Faculty), 150 copies (KL, 44-59. 126) -10-  5 (2) AUTHORS: Levinap R. Ya-9 Shabarov$ Yu. S., SOV/20-127-1-29/65 Kuz'min, M. G. TITLE: Cyolopropanes and Cyclobutanes (Taiklopropany i tsiklobuta-~~--r). On the Decomposition of Alkyl-tetrahydropyridazines (0 razloz.- enii alkiltetragidropiridazinov) PERIODICAL: Doklady Akademii nauk SSSR, 1959, Vol 127, Nr 1, pp Ill - 114 (USSR) ABSTRACT: The authors continue here their investigations of the synthesis of aryl-cyclobutanes (Refs 1,2) by the decomposition of aryl- tetrahydropyridazines and try to use this method for the syn- thesis of alkyl-cyclobutanes. 3-methyl-tatrahydropyridazine was produced by the hydrolysis of the adduct of azo-dicarboxylic ester with piperylene. The latter contains 2 NH-groupsg whi~.~h indicates that the double bond does not shift towards the n4'_ trogen in the hydrolysis as is the case with the azo-dica-.""x- ylic esters with aryl-butadienes (Refs 20), but remains in position 4 (see Scheme). Though the authors failed to produce 3-methyl-A 2-tetrahydropyridazine by hydrolysis, it could be ex- Card 1/4 pected that the above-mentioned double bond shifts nevertheless  Cyclopr'opanes and Cyclobutanes. On the Decomposition SOY/20-127-1-29/65 of Alkyl-tetrahydropyridazines towards the nitrogen under the difficult conditions of tile de- composition and that the compound mention~,d is produced. The latter could then be caused ;o decompose into methyl-eyclobu- 2 tane and nitrogen (similarly to 3-phenyl-A -tet.rahydropy,~~i,~,,~- zine) (Refs 1,2). This failed, however~ pyridazine decomposed with (at 200-250 ) or without catalysts at 300-3500) only into piperylene, nitrogen, and hydrogen ~see Scheme). Two reaction ways can be assumed: (a) The bira- dical 1, which is produced as an intermediate, is transfcrmed only into diene. (b) The initial substance decomposes into pi- perylene and diimide NH-NH which decomposes immediately into N and H. The decomposition of the initial substance into IT and piperylene itself in the case of the effect of weak oxidizin& agents speaks in favor of the assumption (a). This decom'posi_ tion confirms the remaining of the double bond in position 4. Similar results were obtained in the decomposition of 3A;5, 6-bia-eyelopentane- and 3~495,6-bis-cyclohexane- 64-tetrahy- dropyridazines which contain 2 NH-groups each. They form di- Card 2/4 cyclopentenyl and dicyclohexenyl besides other reaction pro-  Cyclopropanes and Cyclobutanes. On the Decomposition SOV/20-127-1-29/65 of Alkyl-tetrahydropyridazines ducts mentioned here. It was thus found that it is impossible to obtain cyclobutane-hydrocarbons in two stages (hydrolysis and subsequent decomposition) from adducts of the azo-dicarbox- ylic ester with alkyl-butadiene or their cyclic analogs. There- forep the authors applied another method: they synthesized 3- methyl-tetrahydropyridazine, which, however, turned out to be the isomer of the expected compound with one HH-group. An iso- merization of the azo form into a hydrazone form aDparontly takes place here. Experiments with other substances do not lead to the expected result: either the initial substances were not 2 transformed, or a resinification took place. Thus, alkyl-A - tetrahydropyridazines cannot be decomposed in the presence of catalysts in the case of heating under the precipitation of N and formation of four-membered cyclic hydrocarbons, in contrast '2 to aryl-A -tetrahydropyridazines and pyrazolines. There are If references, 8 of which are Soviet. Card 3/4  Cyclopropanes and Cyclobutanes. On the Decomposition SOV/20-127-1-29/65 of Alkyl-tetrahydropyridazines ASSOCIATION: Moskovakiy gooudarstvennyy univeraitat im. M. V. Lomonosova (Moscow State University imeni M. V. Lomonosov) PRESENTED: February 18, 1959, by A. N. Heameyanov, Academician SUBMITTED: February 14, 1959 Card 4/4  J/00 69640 SIO 5;X/60/cc W03101 5/03 8 9201/31-91 IZMRSi Tr*3hchova, T. G Pan-herzko T~ ... _M31.'707, TIMS: Rama"pectra of Hydrocarbcna ef 71ric-s Classes. 71, The _ a S;Oct.-& of Some PERIONCALt Optika I sp*;ctroskcp4y,&, 1960, 701, 8, Sr. 3, pp 371-375 WSSR) LBSTRAM The authors investigated the Raran spectra of d of the foll,~wlrg arylcYclobutames _U an , ! , ,~/- to m-t -anls MUL lc ; . l ~~ O. . u _ cYc_ *, C y_ ., y Y n-anisyleyciabutane; for the sa!* o' c~oparizon t." R~zar sMtra of yhonylcycloprapano and ver. obtalnea. The apparatus, t-ne sx;srlmental And the methods Of ~1=13t'On Were the 31=0 as In tarlier Work (Ref 6). The results are &!7= In :ablles 2-4, an-1 the properties (3ucl-. as tho maitin.; ;~.Imt, rei-activ. Iniox, ato) of the four aryleytlobutan,es &n.1 of pn*nylayclobutane are listed In Table 1. The Ra=&-- spectra of all fc-~r C &r d arylcyclobutaras Included fr~ji*==.1sx ahracter.131i. of the 1/2 a Ppropriste m.c=- Ar4 and AlkY4c7nIO-~u"n6s. T he intensity of the Raman limos =!izzictonstic of t-le four-member cycle and. of the benzene rl-ne (Iinv% In the region -IC*3-16aO =-I) is C:.ater in t...* 3P._.t7A 0.1 &rylcyclobutar~-3 than the interslt-.s ef tn* corresponding lines In. spectra of &IIA71-1:1otntants ar.4 alkylbenzenv3. This behaviour of' tt* Imttr;3It'_Q3 ~13 Card not ob3e"el In the Case Of l1rdS at -tCO-603 Z/2 vitich are charLcteristic of the There are 4 tables and 7 Savl-t SCBMITTED t July 3, 195~  LMxA, R.Ta.; SHAVAROV, &Carbethoxydihydropyridazinea and their derivatives. Zhuroobo kh4j.m- 30 no.8:2469-2473 Ag l6o. MU 13 t8) 1. MoBkovskiy gosudarstvennyy universitet. (PYridazine)  SHARA,ROV, Tu.S.-, KUZIMIN, H.G.; LEVIIIA, R.Ya. Tetrah.vdropyridazines and hexahvdrop7ridazines, Zhur.ob,khim. 30 no.8:2473-2480 Ag 160. (MIRA 13:8) 1. Moskovokiy gosndarstvenny7 universitet. (Pyridazine)  84871 S/079/60/030/010/007/030 BOO1/BO75 AUTHORS: Shabarov, Yu. S., Levina, R. )La., Kuzimin.., M. G. Vasillyev, N. I., and Damir, N. A. TITLE: Cycloprop nd Cyclobutanes XI. Methylphenyl Cyclobutanes PERIODICAL: Zhurnal obshchey khimii, 1960, Vol. 30, No. 10~ pp- 3210-3214 TEXT: In their investigation (Refs. 1-4) on the catalytic splitting of alkyl- and aryl tetrahydropyridazines, the authors could obtain only aryl cyclobutanes, but no alkyl cyclobutanes (Ref- 4). In the present work, the catalytic splitting of alkyl aryl tatrahydropyrida,-,ines has been attempted for the purpose of synthesizing alkyl aryl cyclobutanes. The authors proceeded from 5-methyl- and 6-methYl-3-phenyl tetrahydro- pyridazines which were obtained by hydrolyzing the adducts of the cor- responding dienes with azodicarboxylic acid ester. These initial products proved to be unstable compounds, and were identified from their addition products to phenyl isothiocyarate ~The presence of an NH group in the initial products was also proved kRef. 3). The catalytic splitting of the Card 1/2  8h871 Cyclopropanes and Cyclobutanes. XI. Methylphenyl S/079/60/030/010/007/030 Cyclobutanes BOO1/BO75 two initial ~yridazines was carried out in the same way as that of aryl tetrahydrop.vridazines described in Refs. 1-3. Thus, a gas composed of nitrogen and propylene evolved under the formation of a mixture of the corresponding methyl-phenyl cyclobutane and styrene. Con3equently, the decomposition of alkyl aryl tetrahydropyridazines is similar to that of aryl- A2-tetrahydropyridazines; While nitrogen is produced, the biradical is formed as an intermediate which yields cyclobutane and two ethylene hydrocarbons. The molar ratio between the yield of methyl-phenyl cycle- butane and styrene proved to depend on the position of the methyl group in the tetrahydropyridazine ring. Vacuum distillation (cf. experimental part) of the resulting cyclobutane showed that 1-methyl-2-phenyl cyclo- butane consisted of a mixture of cis- and trans-isomers (1:1), whereas 1-methyl-3-phenyl cyclobutane contained 80% of the trans-form. Raman spectra showed the absence of olefins in the separated hydrocarbons (Ref. 5). The characteristic frequencies 912-950 cm-1 confirmed the pre- sence of a four-membered ring. There are 1 table and 12 references: 9 Soviet, 2 German, and 1 French. ASSOCIATION: Moskovskiy gosudarstvennyy universitet (Moscow State University) SUBMITTED: December 7, 1959 Card 2/2  157 j 6 0 69993' AUTHORS: Levinap L. Yao, Shabarov, Yu. S., S1020160113110510271069 Kuzlmin, M-7-4. BO11/B117 TITLE: On the Interaction Between Azodicarboxylic Eater) and hem-Dialkyl Butadienesl PERIODICAL: Doklady Akademii nauk SSSR, 1960, Vol 131, Nr 59 pp 1080-1083 (USSR) TEXT: The authors continued their investigations of the decomposition of alkyl tetrahydropyridazine (Ref 1), and made an attempt to synthetize hem-dialkyl tetrahydropyridazines from the adducts of the azodicarboxylic eater with hem- dialkyl butadienes. They could establish for the first time that 1,1-dialkyl butadienes react with the azodicarboxylic eater through mobile hydrogen in the a-position (by substitution addition and not by diene synthesis), %nd not through the double bonds. It could be further proved by the authors that the adducts of the substances mentioned in the title have no cyclic structure (being no tetrahydropyridazine derivatives), but they are, in reality, mono- substituted hydrazo dicarboxylic estere (see schewa)~ The structure of the adduct (I) of 2,4-dimethyl pentadiene with an azodicarboxylic aster was established by means of its conversions: when sub ected to cold hydrogenation, (I) adds two moles of hydrogen per one mole of M, and, thus, contains two double bonds in the molecule. Hydrolysis of (I) yields a monosubstituted hydrazine (III). The Card 1/3  69996 On the InIteraction Between Azodicarboxylic Eaters S/020/60/131/05/027/069 and hem-Dialkyl Butadienes BOJJ/BJ17 latter contains one WHjIgroup which was detected by obtaining the benzylidene derivative (IV) from ( I). If the azodicarboxylic ester is reacted with 2,4- dimethyl pentadiene-1,3, two adducts (Va) and (Vb) (in reality their mixture) can be formed, since the mentioned pentadiene contains two types of methyl groups. After hydrogenation, however both (Va) and (Vb) yield the same sub- stituted hydrodicarboxylic ester (Vi~. By hydrolysis of (VI), the monosubsti- tuted hydrazine (VII) is formed from which the benzylidene derivative (VIII) can be obtained. In addition, nitrogen is evolved under the action of mercuric oxide, with (VII) being converted to 2,4-dimethyl pentane (which is a reaction characteristic 'of monoalkyl hydrazines, reference 4). All these reactions are clearly indicative of the acyolic structure of the corresponding adducts. Obviously, the dienes used in this case react with the azodicarboxylic ester through a single methyl group only. An analogous reaction between maleic anhydride and olefines (Ref 8) takes place only at 200-2500, while the much more active azodicarboxylic ester reacts already at 20-500. There are 9 references, 3 of which are Soviet. ASSOCIATION: Moskovskiy gosudarstvennyy universitet im. M. V. Lomonosova (Moscow State University imeni M. V. Lomonosov) Card 2/3  6999,Y On the Interaction Between Azodicarboxylic Esters S/02 60/131/05/027/069 and hem-Dialkyl Butadienes BOI 1YB117 PRESENTED: December 14, 1959, by A. N. Nesmeyanov, Academician -r/ SUBMITTED: December 12, 1959 Card 3/3  SHABAROV, Yu.S.; LEVINA, R.Ya.;, UZIMIN, M.G.; VASILIYEV, N.I.; DAMIR, N.A. Cycloporpanes and cyclobutanes. Part 1-1; Methylphenyloyclobutanes. Zhur.ob.khim. 30 no.10 '4 10-3214 0 '61o 14-4) o.32 (mm 1. Mbskovskiy gosudarstvennyy universitet. (cyclobutane)  45156 5/020/63/148/002/034/037 4- -00 B124/Bi86 /,5 AUTHORSt Kuzlmin, M. G.p Berezin, I. Vo TITLEs' A now type of'hydrogen exchange in the photolysis of some organic compounds PERIODICAL: Akademiya nauk SSSR. boklady, v. 148, no. 2, 1963, 377-379 TEXT: The photochemical decomposition of acetyl-peroxide, dissolved in hydrocarbons, was studied by hydrogen isotope tagging. It was found that an ordinary six-centered rearrangement of thelight-absorbing electron- $Xcited acetyl peroxide molecule 10 CH3 CH3 0 CH 0 CH 3 / 3 XCI C \\O ~\\O causes the formation of metfiane and C.02 as well as up to 25% of ethane. Card 1/3  S/02 6048/002/034/037 A new type of hydrogen exchange... B124Y3186 Methane arises bythe removal-of hydrogen at'6ms (in deuterium- or tritium- tagged solvents by the removal of one deuterium or tritium atom) from the solvent by methyl radicals. Small amounts of ethane are formed by cellular recombination. in the photolysi3 of acetyl.,peroxide in tritiu=- tagged saturated acyclic (n-heDtane) and alicy~clic (cyclohexane) hydro-- carbons, ethane with a high tritium content is formed; the tritium content in methane is higher than in the case of thermal decomposition under the same conditions. In the photolysis of acetyl pe roxide in deutero-cyclo- hexane only C H and D arise; the tritium content ~n ethane and methane 2 6 C2HO is practically independent of temperature. The exchange takes place also in the photolysis in solid phase (at 7700- Evidently the solvent participates in the formation of ethane from the electron-excited peroxide molecule in the photolysis of acetyl peroxide in saturated hydrocarbons. This photolysis causes the substitution of one hydrogen atom in the initial peroxide by one hydrogen atom of the solvent and is characterized by a very slight isotopic eftect. This process is molecular, which is proved by the' substitution of only one hydrogen atom in ethane and by the relatively low tritium content in methane. The increase in the tritium content of methane in the photolysis is probably related to the decomposition of a small por- tion of the exchanging acetyl peroxide molecules to methyl radicals,.or Card 2/3  5/02 63/148/002/034/037 Anow type of hydrogen exchange... B124%186 possibly to the reaction of the "hot" methyl radicals with the solvent. The decrease in the tritium content in ethane in the course of photolysis in the solid phase-~is explained by the dilution of the exchanging ethane with light ethane, flormed by recombination of the methyl radicals. In aromatic hydrocarbons (benzene, toluene) no exchange takes place between their hydrogen atoms and the excit'ed acetyl peroxide molecules. Their presence does not*affeot the exchange reaction with aliphatic hydrocarbons, which proves that the aromatic compounds do not inactivate the excited per"t J oxide molecules. The'.addition of radical acceptors (iodine, anthracene) * ' P;70vea to be-ineffective. In the photolysis of azomethane in heptane under the conditions meAtioned a decomposition into,nitrogen, methane and non- tagged ethane takes place at a wavelength of 365'mtk. At 254 m~w exactly the same exchange reaction takes place as with acetyl peroxide. There is 1 table. ASSOCIATIONt Moskovskiy gosudarstvennyy universitet im. M. V. Lomonosova (moscow State University imeni M. V. Lomonosov) PRESENTED: July 27, 1962, by N. N. Semenov, Academician SUBMITTED. July 17, 1962 Card 3/3  KUZIMIN, M.G. "Negative temperatures" in reversible photochemical reactions. Dokl. AN SSSR 151 no.6:1371-1374 Ag 163. (MIRA 16:10) 1. Moskovskiy gosudarstvennyy universitet im. ~%V.Lomonosova. Predstavleno akademikom N.N.Semenovyt.  ['17111NOV, B. M.;. W2,1-MIN, M.,G'.; MOROZOV, Yu.V.; BEREZIN, !.V. Basicity of excited singlet and triplet states of some aromatic hydrocarbons. Vest. Mosk. tin. Ser. 2: Kbim. 19 no.5-62-61,, 5-0 16/4- OMA, 17: 11) 1. Kafedra, khimicheskoy kinetiki Moskovskogo universiteta.  vlizlmlu$ M. I., "Semifattening of Hoge with Large Quantities of Chopped Hay and Juicy Fodder'tl (Dissertation for Degroe of Candidate of A ricultural Sciences) Kazan' State Veterinary and Zootechnical Inst imeni N. E. Bauman, ~Kazanl), 1954 SO: M-1036 28 mar 56  KUZIHIN, H.I. of thq Dmitrovo-Chorkasakoys Not Briquetting plant. Torf. prem. 35 no. 4:31-32 138. (HIRA 11:7) 1. Direktor Dmitrovo4horl4gs6go torfobrik*tnogo predpriyatiyo. (Briouste(Fusi)) (Poat)  KUZIMIXY M.I.,, inzh. Work prracticesof the Dmitravo-Charkasovo Peat Briquet Plant. Torf. prm. 40 no.2:28-30 163. (MMA 16:4) 1. Direktor Dnitrovo-Cherkasbkogo torfopredpriyatiy&, (K&Unin Province-Nat industry) (Briqueke(Fuel))  KUZIMIN, R.I.. ~- U8149 new hammer hardening techniques, for finishing workplace GurfacGB9 Trudy Sam. po kach. poverkh. no.lr42-6o 151.(XLRL 100) (Surfaces (Technology)) (~Otals--Hardening)  QPZIKCN *100 inshe ANMEV V*M,p prof*p otvered,; UJKINj O.k,t 9 d.1 AGISt Dvoffot teklin.red. OW it [Now method for finishing mwfaces of parts by cold hardening] Novyi matod otdelk:L poverkbnootei detalel naklepyvaniam, Iogningradl 1952. 21 p, (Informatsionno-tekhnicheeldl listokl n0.34 (355)). (MIRA 34:6) 1. Ioeutigradskiy Dom nauchno-tekhnicheskoy propegandy. (Metals--FWshing)  KJI z (Science-irAiotr- Vestnik -kademi 'I'lauk 22(Q; 1'7,'-19, 19~'2 SSSR,  Ras,,arch, Industrial Coop--.iration betwunn sci-mca and Juld'astry. Vest. AN SSSR 22 no- 4, 1952 Plonthly List of Russian -%C c-C 55 ions, Librar"i of Cwros3, 1952. Ul CLAS S IF I &D  SO V/1 37- 57-1-1096 Translation from: Referativnyy zhurnal. Metallurgiya, 1957, Nr 1, p 141 (USSR) AUTHOR: Kuz'min, M. I. TITLE: A Method of Hardening and Finishing of Surfaces of Maclime Parts by Cold Working With the Aid of Special Hardening Devices (Metod uprochneniya i otdelki poverkhnostey detaley mashin naklepyvaniyem uprochnitelyami) PERIODICAL: V sb.: Povysheniye dolgovechnosti mashin. Moscow, Mashgiz, 1956, pp 115-133 ABSTRACT: Compared with shot peening and other methods of hardening (de- signed to increase the fatigue and corrosion-fatigue strength), the method described offers the following advantages: The process is readily controlled; a high-quality surface finish is obtained; the method is applicable to internal and complex surfaces, is inexpen- sive and is characterized by high productivity (up to 500 cm? /min) The hardening device (HD) is mounted on the spindle of a grindng machine or on the face plate of a metal lathe. As the HD is set into rotary motion, metal balls (B), loosely encased in radial Card I /Z slots distributed uniformly along the periphery of the disk or the  SOV/137-57-1-1096 A Method of Hardening and Finishing of Surfaces of Machine Parts (cont.) mandrel, impinge upon the surface of the component (C) under the action of the centrifugal force at a frequency of up to 1, 000, 000 impacts per minute. Trans- verse and longitudinal feed combined with rotation of the C ensure that each B always impinges on a different point. The process of strain hardening is con- trolled by the following factors: The number of revolutions of the HD; the extent of forced displacement of the B as it comes in contact with the C; the diameter of the B; the peripheral speed of the C; the number of B's in the HD, etc. Experimental data dealing with the effect of each of the parameters listed are presented together with diagrams of the necessary jigs, various designs of HD's, tables of conditions required for hardening, depths of the hardened layer, and strength characteristics of various metals and alloys. It is pointed out that C's with grinding ranging from 10 to 780 mm were hardened on a rotary polishing machine equipped with an HD with a diameter of 270 mm, while C's with diameters of 40-170 mm were treated on a metal lathe equipped with an HD with a diameter of 78 mm. R. B. Card 2/2  of Gear Tc.(-,,-' Bui F'ox-j-s hen i.- ar~d Extendint, the Service LifQ of '~'.'achines. v. -,COO cc?dos printc(~. S(~ri--s : 11 ts Trud- 2 -1Z crinos 1A . 'Zra".-!-rai 'noye i iJ,Iycv~~:G-c ~3 tu Erditcri-Ot ~4-xxc: Zd. -3. D. L--Iit~, Ed.: Tr. D- S,-,..,qo",-hva1cv; Tr'-ch Ed 'F. ,rj-'OVLTI~~E: Thr rri~sented t trite r': 11 C h,~dt~, in 'K~P '2%, -L" (!j'e-Sjn- f"' f, riesistlancf~ n-l vxteridin,- the sorv--Icp life of M~-lch-; -1 rl,-.Cfl. "--S o tl,,c Tilstit'~tt -9troitel I nov ne 41 Ki jt.:j of S'tructir~l of tz,,e Acwio!v" Of f"'e 11.'j.~--ev"'~:~!'-rc cr-ml- obl zatsiya lricc; promr!shlcmc.~ti rv i!--, cr~j C-1-Y. r. :!ti of U'--  AUTHOR: K1,1z'mIn, M.I. S/1~3/61/"/009/1012/027 AOO4/AlO4 TrrLEs Haplening and finishing of gear tooth profiles by cold working PERIODICALi Referativnyy zhurnal, Mashinostroyeniye, no. 9, 1961, 84, abstract 9B617 (V sb. "Povyshenlye iznosostoykosti I sroka sluzhby mashin, v. 0, Kiyev,-AN UkrSSR, 1960, 47 - 56) TEXT: The author describes a device -nC-4375 (PS-4375) - for the cold work- Ing of gear teeth pr3files on the type 736 transverse planing machine. He presents the cold-working conditions for the evolute tooth part and the tooth space bottom. Fatigue tests of the gear teeth showed that hardening by cold working in3reases their endurance limit (by 30-50%) and service life, There are 11 figures and 5 references. N. Il'ina [Abstracter's note: Complete t-ransiation] Card 1/1  KUZIMIN, M.I., inzh. (g.Fergarut) The Great Fergana Canal. Gidr. i mel. 17 no.311-9 Mr 165. (MIRA 1814)  KUZIMIN. N.Kh., inzh.; OBYSOV, A.11., inssh. Assembling the electric equipment for the slabbing mill of the Magnitogorsk Metallurgical Combine. Nov.tekh.mont.i spets.rab.v stroi. 21 no.9:1-4 S 159. (141RA 1,1:11) 1. Magnltogorekoye montazhnoye upravleniye treata Rlaktromontazh- Glav eleld romo nt-azh. (1bgnitogorsk-Rolling millu-Blectrie equipment)  1. KUZIMIN, M. K. 2. USSR 6oo 4. Physicians . 7. F. V. Ovayannikov as a hygienist; 125th anniversary of his birth, Oig. i san, No. 12; 1952. 9. Monthly List of Russian Accessions., Library of Congress, April 1953, Uncl.  KUZIKIN K.K. -;;- 6--& ,x wo 0 U Outstanding Russian neurologist F.V.Ovsia=ikov. Zhar. nevr. i psikh. 54 no.11:948-950 N 154. (MLRA 8 11) (NEUROLOGY. history. in Russia, contribution of F.Y.Ovetannikov) (OTSI M IKOV, FILIP VASILIEVICH, 1827-1906)  KUVMPT~ M. K. Kuzl-,n-in, Y. K. 11 1 The Achievements of Soviet Medicine and 'ioloC,.y in the Works of Acaderdcio-n F. V. Ovsvannikov and His Students." First Moscow O~er of Lenin Yedical Insts. 1-foscow, 1955-1. (Discertation forthe Derme of Candidate in Medical Scioncc ) So: Knizhnaya latopis', 'No. 27, 2 July 1955  XUZIMIN, M. K. ff- 7877. Alsksandrovo 0. A.0 KUZ*MIN, M. K. I Lisitain, Yu. P. metodichaskoye posoblye k seminarskim tanyatiyam po istorii otechestvenn oy meditsiny. M., 1955. 23S. 21 Sm. (1-y mosk. ordena lenina med. In-T. Kafedra istorii meditsiny). 500 EKS. B. To.-avt. ukazW na oborote tit. L.--"Uteratura K deminarskim zanyatiyam po istorii otechestv. me- ditainy", S, 23~y28--(55-4008) 61(47)(09)(077)/(016.3) SO: KnizhuavgL Letopisf, Vol. 7, 1955  OVSYkNNIKOV, F.V.; RON)DULTH, P.R., professor, radaktor; QL" m_!_K-; ?IhKAWY, Tu.T. [translator] (deceased); GUSTATINSKATA, V_.S.,` kandIdat fllologichaskikh nauk Etrunslatorl ZASMIN, D.N., doktor binlogichaskikh nank, radaktor; KONDHATITW, S.P., professor. redaktor; GLUKHOTEDOVA, G.A., toklinicheskly redaktor. [Selected workel Izbrannye proiav"deniia. Moskva, Gos.izd-vo mod. lit-". 1955. 3q8 P. OU.'RA 8: 10) (BIOT,OGT)  KUZIKIN, M.K. Contributions of A.A. Xuliabko to the problem of resuacttation. Sovet.zed. 19 no-5:89-93 PT 155- (MLRA 8:8) 1. Is kafedry istorii meditainy (sav.-prof. ?.R. Borodulin) Moskovskogo ordena Lenin& maditsinakogo inatituta. (REMSCITATION contribution of A.A. Kultabko) (BIOGRAPHIES Kultabko, A.A.)  ka umidat maditsinskikh-nouk, assistant; KOUNOV; V.V.. professor, redektor;. ~iUlkOVA. A*.I..viek~nicheskiy radaktor [The I.M.Sechanov First Moscow Medical Institute: short manual] Pervyi ;I-Icivskly -)rdena lenins meditsinekly institut imal I.W. spravochnik. Pod red, V.V.Kovanova, Mask7s. Gos.Izd-vo med.lit-ry, 1957. (V"q 'In: 10 1. Moscow, eurvyy instI.A. 2. Xafellra tsto!-U meditsbW. 17 Nookovskogo lanina madit.-Anskago ins ti- tut~ tgefii I.M.achenova' (for XuzImin) (HOSCU-4MIDICAL COLLS03S)  K= 'MIN. M.K. (Moskva) The first histology professor in Kiev, P.I. Peremezhko (1833-1893) Arkh. pat., 19 no-3:66-69 '57 (MIRA 10:5) 1. Iz kafedry istorii meditsiny (zav.-prof. F.R. Borodulin [deceased] I Moskovskogo ordena Lemine. meditsinskogo instituts. imeni I.M. Sechenova. (BIOGRAPHIES Peremezhko, P.I.) (HISTOLOGY contribation of P.I. Peremezhko)  KUZIMIN. M.K. (Moslcva) ---- YX.I~dreev, an outstanding Soviet pathophysiologist and cliniclat; 1879-1952'. Felld. i akugh. 22 no.8:38-43 Ag 157. (MIRA 10:12) (ANDREW, FMOR ANDRERVICH. 1879-1952)  lg~~~-kwkemed.nauk Studies of Y.Y. Ovalanniko7 in Veet.AW SSSR 13 no.9:82-86 15E (PRYSIOLOGY* contribution of (OVSIANNIKOV, FILIPP the field of physiology@ (MIRA 11:10) F.V. Oveiannikov (R") VABILMICH, 1827-1go6)  KUZIMIN, M.K., kand.med.nauk (Hooky&) Barilest informtion on thenvival of dead people in Rwala. Telld I akash. 24 no.8t2g-32 Ag 159- (MIRA 12:12) (RESUSCITATION)  BEWVA, A.A.9 kand.maditainskikh nauk;.--KUZIFLINY M.K., karid. Maditainsici kh nailk Dedicatien of a mon=ent to Prollessor F.R. Borodulin. Sov. zdrav. 19 no. 4:87 160s (MIRA 13:10) (BORODULINt F.R.t d. 1956)  KUZIMIN9 M.K.; POTEKAYEV, N.S. (Moskva) - On N.S. Toporove Sov. z&-av. 19 no. 8:73-75 160. (MIRA 13:10) 1. Iz kafedry istorii maditsiny (sav. B.D. Petrov) I Moakovskogo ordena Lenina meditainskogo instituts, imeni I.M. Sechenova. (TOPOROVp N.S.9 1803-)  ztmm__m_x_j ROZOVAO K,A* (Moskva) "Surgeonla notes" by V.E.Salishchev. Reviewed by M.K.Kuz'min, K.A.Rozova. FelOd. i. akush. 25 no.U:62-64 N 160. (MIRA 13;11) (SALISHCH&Vt VMWOLOD EWTOVICH)  KUZfMIN, Mikhail Kuzlmich,- RAK*WIOV~ V.B.p red.; RAYKO, N.Yu.0 tekhn. red. (Lectures on the history of Russian medicine] Laktsiia po istorii ruaskoi mediteiW. Moekvas Pervyi 1101F-1 imt I.M. Sechenoval Lecture 1, [Medicine in old Auesia) Neditsina, Drevnei Rusi. 1961. 14 p. (MIA .15:2) (MEDICINE-IiISTORY)  BORODULDI, Foodosiy Romanovich, prof. (1896-1956); KUZI IN, &K-,- dots.; LISITSIN, Yu.P., kand.- md. nauk; ALEKSANDROV, O.A.; WSIDIIKOVp A.G., red.; ZUYEVA, N.K., tekhn. red.. (History of redicine; selected lectureal Istoriia medi.tsizq; izbrannye lektsii. 14oskva, Medgizp 1961. 251 P. (MIRA 15:3) (MDICM)  KUZ'MIN, M.K., dotsent I - Patriotic and scientific achievements of surgion I.A.Birillo (1900-1945). Sov.med. 26 no.6:143-144 Je 162. (MA 15:11) (BIRILID, I.A., 1900-:1945)  KUZIMIN, Mikhail Ku mich* LUSHNIKOVp A.G., red.; MATVEYEVA, ----M.M.V tekhn. red. [Academician F.V.Ov9iannikov3 the hintory of nervosism in ftssial Akademik F.V.Ovsiannikov, k istorii nervizma v Ros- sii. Moskva, Medgiz, 1963. 218 P. (MIRA 16-.6) (NEUPOLOGY) (OVSIANNIKOV9 FILIPP VASILIEVICII, 1827-1906)  KMIMINO M.K. (Moskva) Medicine and medios in the Patriotic War of 1812. Sov.med. 26 no.ltl42-144 Ja 163. , (MIRA 164) (RUSSIA-INVASION OF 1812-MEDICAL AND SANIJARY AFFAIRS)  KUPRIYANOV, Vasiliy Vasill;,wich; KUZIMIN, M,K,, red. (Amdreas Vesalius in the history of anatomy and medicine] Andrey Vezalii v istorii anatomii i meditsiny. Moskva, Meditsinap 1964. 135 P. (MIRA 18:3)  .KUZIMNO M.K., dotsen~ (Mook~;-a) . a of me Al Il I~eratwre; ~rl uta ana Iv axi --.f L I il book printtrg -f r! !,L-,3s'La. med. 27 ri,). 45.,2jr' ',1r ' 6~. (!4.',P,L  KUZ-"`~Ilii, iNlklulll uots.; GRISHKOVA, A.Ya., red. [Iledic Heroes of the Soviet Union] Xedi-ki - Gicrul Sovetakogo Soluza. Moskva, Meditsina, 1965. 95 p. (MIRA 180)  KUZ I MI KRASOVSKIY, B.M. Designing citY gas-oupply syu W=, Gaz. prom. 6 no,7;4,1-42 163. WIRA 17: 8)  27549 S/170/61/004/010/003/019 B109/B125 AUTHOR: Kuzlmin, M. P. TITLE: Electric simulation of unsteady thermal processes in a plane wall PERIODICAL: Inzhenerno-fizicheskiy zhurnal, v. 4, no. 10, 1961, 15 - 20 TEXT: The author gives directives for the dimensions of an electric integrator. The equations of an unsteady thermal process in a plane wall may be transformed into the electrical equations that hold for the net- work in Fig. 1. With boundary conditions of the third kind, this can be accomplished by substituting the electrical tension u for the temperature T, the electrical conductivity 1/r for the thermal conductivity X, the electric capacitance c e for the specific heat c, and 1/rc e for the temper- ature conductivity a. The six electrical parameters r, c es n, R r' RB' and k T have to be interrelated with the thermal parameters a r andIaB, and with the wall thickness 6 in order ro be able to establish an,,electrical Card 1/3  27549 S/17 61/004/010/003/019 Electric simulation of... B109%125 simulation of a thermal process. n denotes the number of members in the two-terminal network, k,, m i/Tep ~ and xe are the time scales of the thermal and of the electrical process, reapectively. a Pand aB are the heat transfer coefficients of the media left and right of the wall, respectively. Comparison between the electrical and t 9ermal differential equations yields three relationshipsi a Xr/arRT,1 2 B/a Rrl/RB 7 k a rc ne. The remaining three quantities may be chosen fr;ee~y. e There are I figure, 1 table, and 3 Soviet references. ASSOCIATION: Mekhanicheakiy institut, g. Tula (16echanical En.-ineering Institute, Tula) SUBMITTED; March 14, 1961 Card 2/3  KUZJ,I,.IN, M.P.- :HILI-7YKO, T.J., red. [7-le trical. simulation of scrxe nonsteady themral prcces- ses] Elektramodell-rovanie nekotorykh restatsionarnykh teplovykh protsessov. I-Ioskva, Izd-vo "Energiia," 1964. 119 P. (1-11RA 17:7)  USSRISoll Science Cujta~ration, Amelioration, Erosion. j_4 AbO jour : Ref Zhur - Biol., No 21 1958, 5817- Author : Godpnov, N.T., Kuzlmin, M.S. Inst : Stalingrad Agricultural Institute Title : Experience in the Reclamation of Solonchak Soils Planted With Tree Groves. Orig Pub : Tr. Stalingradsk. s.--kh. in-ta, 1956, 6, 174-183 Abstract : The reason why the parks planted around the Stalingrad Electric Station dried up was because the soil became sali- ne; this is seen as a result of the rise of the minerali- zed ground waters. The chloride-sulfate salinatirm of the upper soil horizons reaches 0.210-1.6&~%, and at a depth of one meter it is 0.460-1.6%. Recommended is the use of drainage, flushing, and regular sprinkling. Trukestan, Canadian, (Populus molinifera) and black poplars should be Card 1/2 USSR/,'30il Science - Cultivation, Ama2lioration, Erosion. j_4 Abs'Jour Ref Zilur - Biol., No 2, 1957, 5817 included in the trees planted in the park, as well. as white acacia, sMall-leafed elm, and narrOw-leafed oleas- ter. Card 2/2  IUZIMINP N. (Leningrad) Fame is achieved by work, -)%st.prom.i khud.promys. 3 no.120-6 D 162. (KIRA 16 Q) (Leningrad-Clothing workers)  KUZININ, N.,,.polkovnik zapasa. Flame of eternal glory. Voon. mian. 39 no.5:9 My 163, (Kft 160) (Novoroogiyuk-War memorials)  -KUZIMIN, N., polkovnik zapasa Beloved Sevastopol. Kryl. rod. 1:5 no.50 W 164. (MMA 17:8)  ru -1 1 7 , 11,FV, ~ P) j~ -h- I KrZIMIN, N.A. [deceased] Saboutaneoug traumatic lacerations of the spleen. Xhirurglia 35 no.12:66-68 D 159. (min 13:6) 1. Iz khirargicheakogo otdoleniya (zav. N.A. luzimin [deceased]) Kbllchuginskoy.go~':roaskoy bolluitay (glavnyy vrach M.I. Sedova). (Spialky --iffs - & iuj. )  LARIONOV, A.P., kand.vet.nauk; RMIMIN, N.A., vetvraeh Detection of the agents of parntyphoid toxinfections by means of fluorescent antibodies. Veterinariia. 36 no,3:68-73 Mr 159- (MIRA 12:4) (Antigens and antibodies) (Fluorescence microscopy) (Salmonella)  PRITULIN, P.I., kand.vetnrinarnykh nauk; KIM'KIN, N.A.. votr-rinarnyy vrach ~ o" Rapid diagnosis of antbrax by use of luminnscont antibodies. Vatorinariin 36 no.7r69-73 Jl '59. (MINA 12!10) (Anthrax) (Antigens and antibodies)  -- " W, ;:.,!. - - ~!Yv-,-::,:~,.,~;,, - .1,-17.11. 11--fl, KUMMI N. A., LARIONOV, A. P. and ZA=KIy ~> L. P. "The quickest finding of paratyphol.d bacteria in meat." Veterinariya, Vol. 37, No. 5, 1960, p. 85 r,- - - ~r- S~;- co-ttl-6t4~ r",  .KUZIMIN, N.A. Adsorption of sera for luminescence analysis. Zhur.mikrobiol 'e id* i imun. 33 no.3:23-27 I-L,, 162. MRA i5:Z (S1,-,RW DIAGNOSIS) (ANTIGENS AND ANTIBODIES)  15(2) SOV/72-59-lo-12/14 AUTHOR; Kuzlmin, N. A. TIM: A Paste for the Removal of Gold Stains on Prodacts PERIODICALt Steklo i keramika, 1959, Nr lo, PP 46 - 47 (USSR) ABSTRACT: On the basis of experiments, the author developed a special paste for the removal of stains which consists of micropowders and beeswax. 14 units of weight of heated, liquid wax, 65 units of weight of the powder LB-100-26,and 21 units of weight of the powder KZ-II14-20 were carefully mixed for the preparation of thepaste, and poured into gypsum molds. A felt viashcnr of 100-150 mm in diameter is covered with the paste and used on the spindle of an elpctric motor with 1000-1500 rpm for the removal of the stains (Fig 1), or else the paste is used in the form of a chalk-stick (Pi-s 2 and 3). There are 3 figures. ASSOCIATION: Leningradskiy farforovyy zavod imeni Lomonosova (Leningrad Porcelain Works imeni Loraonosov) Card 1/1  REIMIN, N,A. Bent-h press. Mast Inci t-I., I Je 'E-4, (M,.IPA 17,A)  Kuzlm,Aln, N.A. ------- able press for the manufacture of rubber stamps. Stek. i ~ L, ker. 21 no.9138 S 164. (MIRA 18W  r,  Kunan, ii. N' A. MIZIMIN "Zlectro=C-netic wave- projaL~ation aleng curled wave- guides: ScientifL Sesoicn Devoted to "Radir, Day"; 4M~y 195E, ',rrudrezerv-izdat, MOSCOW., 9 Tef,- 5b Questions of the theory of electromagnetic wave propagation along curves surfaces are analyzed. The possibility is shown of representing the electromagnetid field by Oeans of two scalar functions. The relations found permit the extension of the concept of the Scalrr Ifertz function to more complicated curvilinear space. Fields are found by the pertur- bation method for certain kinds of waves in a waveguide of arbitrary transverse section. Questions of connecting a regular and curved wave- guide are analyzed. The perturbation method is extended to the solution of external problems with furface waves being propagated along a curved conductor rrith finite conductivity. Second order corrections are found which indicate the separation of the surface waves because of the curvature. Functional relations for the scalar functions which reduce the bending problem to a variational problem are writLen.  33225 S/i4i/6i/oo4/oo6/ol2/Ol7 1300 E192/E382 AUTHORS; Makarov, T.V. TITLED Electromagnetic waves in a cross-shaped waveguide consisting of a number of sectors PERIODICALi Izvestiya vysshikh uchebnykh zavedeniy,, Radiofizika, v, 4, no. 6, io8g - lo98j 1.74 TEXT.- The system considered is illustrated in Fig. la, where the relevant geometrical parameters are indicated. Determination of fields and critical frequencies of the electromagnetic waves of E- and H-types in a regular ideally- conducting waveguide (such as shown in Fig. 1) is based on the solution of the scalar equations of the typei *n2 0 (1) with the following boundary conditions: Card IILV,,p  Electromagnetic waves a) for magnetic waves /OnI L= 0 b) for electric waves - YJL = 0 33225 s/i4i/61/oWoo6/012/017 E192/E382 (2) Z~ (3) These boundary conditions apply on the contour L of the transverse cross-section of the waveguide. The operator A in Pq. (1) is the ti-to-dimcnsional Laplace operator, 'In (I ;t Are eigen values of magnetic and electric waves !Ospectively, 11 is the external normal to the contour, I'Lie functions Y and 4) are the longitudinal components of the magnetic and electric Hertz vectors, which are related to the longitudinal field components by the following equations Card 2/jq  33225 s/i4i/61/oWoo6/012/017 Electromagnetic waves a-o* E192/E382 H -2'-- E 2 z x T z and k2 h where h and h are propagation constants of the magnetic and ele~~tric waves, respectively. It is known that the extremum functionals, whose Etler equations are in the form of Eqs. (1), are in the form: 2 dS_L (4) Card 3# V  Electromagnetic waves .... under the conditions that: 2 dS 1 ~ S 33225 s/i4i/6i/oo4/oo6/oli2/0l7 E192/E382 (5) where V is the two-dimensional Hamiltonian operator. The eigen values and the eigen functions can be determined by using the Ritz method, according to which the approximate solutions are in the form of a seriesi n U.n aigi (6) where ai are unknown coefficients. The functi-or Card 4/0  33225 s/141/61/oo4/006/012/017 Electromagnetic waves E192/E382 Ti (Ref. 1,~' S.G. Mikhlin*, Direct Methods in Mathematical Physics, GITTL, M-L, 1950) should satisfy the boundary condition of Eq. (3). A sequence of functions of y i should form a complete llnearly-independent system. The coefficients a. are chosen 3. by finding the minimum for Eq. (4) under the condition expressed by Eq. (5). First, the magnetic waves are considered and it is pointed out that the eigen value of Eq. (2) for the condition of Eq. (2) for a cylindrical waveguide is given by the first root of the equation JO(x) = 0 , which is equal to 1.84/a I where a is the internal radius of the cylinder. Two degenerate magnetic waves of the H11 type correspond to this eigen value in a circular waveguide. The approximate solution of Eq. (6) for the quasi-H.1 wave in a cross-shaped waveguide of Fig. la i3 therefore assumed to be in the form, Card 51e e  Electromagnetic waves op.* 3322.5 S/i4l/61/oWoo6/012/017 E192/E382 ~1_1 = L&nJn(l.84 r/a) cos(ny) - sin(ny)l (n = 1;2,3.,,.) On the basis of this equation, a set of graphs is constructed for the eigen value I;x'l of the quasi-H.1 wave as a function of 0 or b/a. (for various values of ~L or This is shown in Fig. 2. Similar solutions are determined for- the quas:L-H2. and H.1 Waves. With regard to the critical frequency of the principal electric wave (quasi-E-01 ), this is determined by calculating the minimum non-zero eigen value of Eq. (1), subject to the conditions of Eq. (3). It is shown that the coordinate functions in this case are composed of a system of functions consisting of a product of function w(r, 9) and various combinations of trigonometric and Bessel functions; Card 64y,  33 220 s/14i/ft/oWoo6/012/017 Electromagnetic waves .... E192/E382 w(r, 9) a0 + 2 an+1 in(2-405r/a)Icos(n(P) - sin(nq)1j n (n = 0, 1, 2~ 54 where w(r, y) is a continuous function having finite and continuous derivatives inside the region SL., The coordinate functions (Pi are also determined for the quasi-E 11 waves. The results are illustrated in some graphs and tables, from which it is seen that no degeneration takes place between H01 and E11 waves in a cross-shaped waveguide, It is therefor possible to use such a waveguide for transmitting H 01 waves in wavoguide bends~ There are 6 figures, 5 tables and 3 Soviet-bloc references: Card 7/1 ~  s/i4i/6i/oo4/oo6/ol2/0l7 Electromagnetic waves .... E192/E382 ASSOCIATION-. Tsentrallnyy nauchno-issledovatellskiy institut svyazi, Moskva (Central Scientific Research Institute of Communications, Moscow) SUBMITTED; April 15, 1961 A--- Card 8/1 ~  6/109/61/uO6/012/UO5/020 C// 0 0 D26o/D305 AUTHOR8: KuzIminq N.A.t and Makarovp T.V. TITLE: Blectromagnetio waves in rectangular cross-shaped waveguides PERIUDICALi Radio-cekhnika i elektronikat V* ~t no# 12p 19bl*t 1989 - 1997 TPXT: The authors' purpose is to determine the electric and magne- tic field configuration for a number of modes in the croes-shaped waveguide. The partial differential equat'lon ~=O 0.) is solved approximateij_wli~~ the aid of the Raleigh-Ritz method, i.e. the integral ~y -~~ ( V. j ~ (4) Card I/p  30430 S/109/61/006/012/005/020 Electromagnetic waves in D266/D305 is minimized, In (1) and (4) V and lVetand for , the transverse wave functions of the H and E modes respectively, it and Yare the respec- tive eigenvalUeB (cut-off wave numbers) of the.above modes. The nth approximation of the wave function is written in the following form: n Un = 71 aiTi (6) L.j where the T. functions satisfy the boundary conditions and the ai coefficients are chosen to satisfy the equation system ai RV(Pi, V(Pj)- 0; 1, 2, 3j. n. (7) where the Orackets denote scalar multiplioation. For the first H mode the trial function is assumed as followst a, sin as sin ny + as sin a, sin 3ny - 2a 24 2a Oard, 2/0 _7  )VL~Ju S/'iO1)/61/006/U12/UO5/U20 Electromagnetic waves in WfjG/D505 where a is the width of the waveguide (see Fig. 1), The eigenvalues resulting from tile first and fourth approximatione can be seen in Table 1 aa a function of 0 = b/2a. If d --1, 1 this mode agrees with the sum of the H 01 and H lu modes in the square viuveeulde, For this reason the author calla this mode a quasi-(H 10 + Hol) mode (Figaia) In a similar manner tho properties of a number of other modes are calculated namely quasi-H,, (Pig. lb)t quasi-(H20 + H 02) (Fig. 10), quasi-(H + H 12 21) (Fig. 1d)O quas'-H22 (Fig.-ie), quasi-(H 30 + H 03) (Fig. If), quasi-(H 40 - H04 ) (Fig. ig), quasi-.W 11 (Fig. lh), quasi- (EA + E 21) (Fig. Ii). It is shown that the eigenvalues of the Hol and E11 modes are different which suggests the possibility of using a cross-shaped waveguide for the bends of an H 01 transmission ays- tem. There are 2 figures# 9 tables and j references: 2 Soviet-bloc and I non-Soviet-blocs SUBMITTED: April 1;~t 1961 Card 3/10 7)  KU&IMINf_ N.Aq, FERSIEKOV, M.V. 'qF &Ppooium on elaotromapatio theory and antemas, Test, AN BUI 32 nool2e79-M D 162. (MIRA 1-5232 (Ahtennao (ILectronics)-Congreooeo) (Eleotromagastic theory-Congresaeo)  L 172-9-1-63- CESSION NR: AP3004844 Si0141/631006/003/0581/0584 AUTHOR: Kuz1 Xt-A-;Makarov, T. V. id- TITLE: Propagation of quasi-Hoj mode 4-n a cross-sh&ped waveguide ~SOURCE: IV1UZ. Radiofizika. v. 6, no. 3, 1963, 581-584 TOPIC TAGS: cross-sahped waveguide# waveguide, HOL mode ABSTRACT: This Is a continuatio n- of the authors' work (Izv. vy*ssh. uch. zav. Radiofizika, 4, 1089, 1961). The Ritz method is again used to find a second approximation to the eigenvaliie and eigen function of a quasi-HO, mode in a sector-cross waveguide. This data permits determining geometrical parameters of the waveguide which would ensure passing Hol mode with a minimum disturb- ance. Calculated curves serve to determine the optimum. insofar as the "purity" of the Hol.-mode field is concerned, cross-section of the waveguide. Orig.. art. has: 3 figures and 2 formulas. Card I /Z  FRISADIKO, B.S.; KUZI .t ~.; BORMO, A.V.; FALEVSKIT, 6,A,, inzh., nauchnyy rieY.; SK70RTSOVI, I.P., red.izd-ve; BOROTaV, N.K., tekhn.red. (Constructing apaA ment houses using large brick blocks] Stroi- tel'stvo zhilykh zdanii iz krupnykh kirpichnykh blokov; poka- zatellnoe stroitelletvo po Novo-Gospitallnoi ulitse v g.Kieve. Koskva, Gos.izd-vo lit-ry po stroit., arkhit. i stroit.mate- rialam, 1958. 55 P. (MIRA 12:9) (Kiev--Apartment houses) (Building blockc)  MO/Engineering Card t I/I Authors $ KutImin, R. F., Cand. of Tech. Sciences Title : About the coefficient of friction in contact under a heavy load. Periodical : Vast. Mash. 34/5,, 18 - 26, May 1954 Abstract t The causes for failure of gear drives functioning under conditions of good lubrication but with a heavy load are analyzed. The difference between the effect of sliding conta5t under little strain and that under a load exceeding 10,0C0 kg/cm. are explained. Formulas for the decrease of the coefficient of friction between lubricated surfaces with the increase of speed are presented. One German, one French, three English, and seven Russian references, latest 1951. Graphs; drawings; illustrations. 1hetitution Submitted  XUZIMINJ me F. "Investigation of Methods for the Manufacture and Supply of Rigid Couplings and Anchor Bolts in the Overhaul of Locomotive Boilers." Cand Tech Sci, Moscow Order of Lenin and'Order of Lahor Red Banner Inst of Railroad Transport Engineers imeni I. V. Stalin, Min Higher Education USSR, Moscow, 1955. (KL, No 14, Apr 55) SO: Sum. No. 704, 2 Nov 55 - Survey of Scientific and Technical Dissertations Defended at USSR Higher Educational Institutions (16).  VOSIOBOYNIKOV. I.P.. [deceased] dotsent; XUZININ. NoY., kandidat takhzLi- cheakikh nauk; 6AVIN* N.M.. stariv*M";F8VO1Wfttel'. Designing cylindrical pitch 6-ears cut by standard hobbing cut- ters. Nauch.trudy BPI 30(44):53-61 '55. (mm 9:11) (Gear cutting)  = 'MIN, N.F., kandidat takhnicheakikh nauk. ~'~i ;1-1 r;,, i Pressure-contact ratio parameters for lubricant viscosity. wauch.trudy Npi 3o(44)aoq-li4 153. (MA 9:11) (Imbrication and lubricantO  RUZIMIN. N.Y., kandidat takhnlchenkikh nauk. ~- Minimum contact safety zone on gmw wheal surfaces. Hauch.trudy NPI 30(44):115-121 155. ' (HLRA 9:11) (Gearing) (Friction)  . IKUZI)aN, U.- &. kandidat tokhnichookikh nauk. Investigating frictional forces at high-speed sliding and high 30(44):123-130 135. (Friction) (Lubrication between steel roller contacts temperatures. ]Fauch.Trudir NPI (Km 9:11) and 1nbricants)  MM11, M.D.,kand.takhn.nauk; kand.takhn.nauk; MISHARIN, Tu.A.,kand.takhn.nauk Zffect of friction conditions on the friction coefficient In case of rolling with slipping. Izvovys.urheb*zav.;mashingetk4m no,2:21-28 158. (MIRA .116112) 19 Institut mashinovedeniya AN SM I Navocharkasekly -politakhnichaskiy institut. Orriction)  KM 'MIN, N.Y., dotsent, kand.tekhn,nauk Effect of idling on the contact strength of steel. Trudy NPI 46 '5 8. (MIRA 13:5) 1. Kafedra teorii mekhanismov i detaley mashin Rovoch6rkasekogo ordena Tradovogo Xrasnogo Znameni politekhnicheskogo inatiuta imeni. B. Ordzhonikidze. (Gearing) (Steel--Testing)  PHASE I BOOK EXPLOITATION SOV3601 Genkin, Mikhail Dmitriyevich, Nikolay Fedotovich Kuzlmin, and YUriy Aleksandrovich Misharin Voprosy zayedaniya zubohatykh koles (Problems of Welding Wear of Gear Teeth) Moscow, Izd-vo AN SSSR, 1959. 146 P- 4jOOO Copies printed. Sponsoring Agency: Akademiya n4uk SSSR. Institut mashinovedeniya. Resp. Ed.: S. V. Pinegin, Doctor of'Technical Sciences, Professor; Ed. of Publish- ing House: M. Ya. Klebanovj Tech. Ed.: P. S. Kashina. PURPOSE: This book is intended for technical personnel dealing with toothed gear design. It may also be used by students in advanced engineering courses. COVERAGE: A method for calculating welding wear of gear teeth is described. The method was developed by the Institut mashinovedenlya AN SSSR (Institute of Machine Science, Academy of Sciences USS~) and is said to have been proven practicable in the aircraft industry and other related branches of industry. It is based on temperature flashes at the contact surface of gear teeth. Problems of lubrication and the lubrication characteristics of various lubri- cantt are investigated by means of a specially designed testing machine; Card 1/ 3  Problems of Welding Wear of Gear Teeth SOV/3601 results are given in graphs and tables. Experimental data on friction co- efficients and welding wear are tabulated in Appendixes I and H. The authors thank the following persons for their assistance: A.A. Blagonravovy Academician; V.G. Mikhaylov., Doctor of Technical Sciences, Professor; M.M. Khrushchov, Doctor of Technical Sciences, Professor; V.A. Gavrilenko, Doctor of Technical Sciences) Professorl V.S. Shchedrov, Doctor of Technical Sciencesy Professor; and G.M. Krasivina, A.V. Sivyakova, K.S. Sokolova) and N.N. Sychkov. There are 86 referencess 30 Soviet, 48 English, 7 Germanand 1 French. TABLE OF CONTENTS: Introduction 3 Ch. 1. 1. Criteria-of welding wear temperature flaaheal 7 2. Theoretical fundamentals for calculating instantaneous temperature A 19 3. Critical temperature 29 4. Calculation of instantaneous temperature of gear-tooth profiles 33 Card 2/3  Problems of Welding Weer of Gear Teeth SOV13601 Ch. II. 1. Experimental determination of friction coefficients of heavily loaded contact surfaces 43 2. Check of the temperature balance in the welding-wear proceso on rollers 58 3- Check of temperature balance in the welding-wear proceas in gears 70 Ch. III. 1, Analysis of the lubrication theory of convex surfaces 85 2. Mechanism of the welding-wear process on gear teeth 95 Ch. IV. 1. The effect of.various factors on the welding wear of gears 98 2. Methods of testing lubricants for lubricating properties on gear-testing stands 115 Conclusions 129 Bibliography 132 Appendix 1 135 Appendix 11 AVAILABLE-. Library of Congreesis Card 313 142 VK/afm '~-8-60  SOV/122-59-4-5/28 AUTHORS: Genkin, M.D., Kuzlmin N F I and Misharin, Yu.A., (Candidates oflie ;iences) TITLE: Experimental Relations for the Determination of Friction Coefficients in the Tooth Contact of Gear Wheels (Eksperimentallnyye zavisimosti dlya opredeleniya koeffitsiyentov treniya v kontakte zublyev zubchatykh koles) PERIODICAL: Vestnik Mashinostroyeniyat 1959,Nr 1+,pp 29-32 (USSR) ABSTRACT: Tests involving rollers in a combination of sliding and rolling motion simulating tooth contact have not so far been conducted to cover the range of speeds encountered far away from the pitch Doint where seizure is most likely. At the Institui Xashinovedeniya (Mechanical Engineering Institute), AN SSSR, in association with the Novocherkasskiy Politekhnicheskiy Institut (Novochorkas3k u Polytechnical Institute) imeni S. Ordzhonikidze, tests were carried out under large contact stresses, at large rolling and sliding speeds in the presence of lubrication. The contact stresses reached 3000 kg/cm2, the sliding sp eeds varied up to 12 m/sec and the rolling Card 1/3 speed was constant at 23.3 m/sec. Diverse materials for the small (60 mm diameter) and large (90 rmn) -oller and  SOV/122-59-4-5/28 Experimental Relations for the Determination of FrJA-ction Coefficients in the Tooth Contact of Gear Wheels different lubricants were used (summarised in the table). The temperature of the small roller was measured with a thermocouple and was controlled by heating or coolin3i the oil. The friction torque was measured. About 10,000 measurements of the coefficient of friction were carried out for different combinations of materials, lubricants and other conditions. At high speed, hydro- dynamic lubrication is prevalent. A typical friction coefficient would be 0.02, but never exceeding 0.08.5 The friction coefficient is inde 'pendent of the material of the rubbing surfaces, changes little with the contact stress, diminishes with increasing sliding and rolling speeds, increases with rising temperature and diminishes with increasing oil viscosity (at the same temperature). In the important range of variables, the coefficient of friction can be plotted as a function of the product of oil viscosity, rolling speed and sliding s eed and yields a straight line in logari,hmic co-orginates. Card 2/3 The slope corresponds to an exponent of 0.25. Such a formula is valid only between the breakdown of the