-86270 ANothod for the Interpolation of Functions 8/ioe/60/015/008/009/010/XX b.v loans of Exponential Polynomials and Its B019/B063 lpplio&tion In the Synthesis of Electric Cir*nts is taken to be the solution of a homogeneous dIfferontial equation 0 ) n-i) (n) so J(x) + &I I . ..... a ~~X) - ~ (z) - 0, Using this dif- n-1 forential equation, a set of algebraic oquations Is obtalnods olo + '111 ' * "n-lyn-I * ?n + a A * "112 + n-11n * 1n+1 (6) m + M ac 0 1 + a2m + an-1 VK Thus, it is possible to determine VX) and represent 1(t) as followas I - I Mi x2 Mn M Ck OPk+. 1 (9) wn ,n-I mn-1 Mn- - 2 n n-11 SpIt 0 p2t e-Pnt 0 Card 2/3  t)3 AUTHOR: lot AMM44 011 the COMICOLIC)II &Itwee-i Tr;jnorer F-jIIf*tAf)w, if' 1,111o.1t. Systems and Their Dtplaci~ Avt,,,)mttlica I telemeldinni(a, 11,~160, Vol ?-11, lir 1, pp 0-28 033fl) tn the study a method Is gJven of uoln, rec-,wrent c-xpresiloni and ot' doublIng the pitf,11 oi* dclso-rete values In their applicat, Lori to the analysl.-~ ,)r the dlocrete magnItuden of trArisfer DerInition of Problem. The it-imer.1cal mt,-Uvjd.,,, of Bolving Lranalon't itate baoed ori discrete magriltudes of' the tr,,.insf-~r furiction, do not rCquire any calculation of roott (-W the chttraicterI.Ale eq,.ja- tion. or any Fraphical m~thrjd..;4 Llnear zystcmo with lumped coniUtzit..- are bel iv di~,.cw-mcd. Furintlon Jet thc lmpull,;e trirtnoff;~,r V~uitutlrjn or- pavi, of a Lr,tnnI'(- l'unf,tIon o!' 't .,,yrft~,M lrivl~ a  t t_. r.1 i t I lp I a c I., L; (.I. t, fvac Lton, atv fol tlo,.-~ + Sovies expar-sion of' th!!7i ;.'rav! 1-:i~ -~Itli r(.110 negative degrees of' 1), 1:1 (21 Hero  On the Connection Between Transfer FuncC[onts 7-1472 of Linear Systems and Their laplace Reprooenta- SOV/103-21-1-3/22 tions This equation in obtained rrom: r 4- aa~-* + 0--e-2 + - - - + 4- - 0 (4) u3ing the following systew of' correapondence botween p and a symbols: I-lift-Sof 1f,the transfer function of the ayztem is do.,;cribed by means of discrete magnltude3 Fo, Fill F20 ..., F2r.-11 ... p corresponding to equidistanL valves of the argument t, then the following series may be written: + F, .~ F1, A...+ (6) ;;;r WIS M" . Card 3/6 wherem - J77and T In apacIng or disevete valur;:3. Tran- vrorminp, this series Into a continued rraction, a  0o "lic, Cortnection Between Transfer FuncU)nu 71111'2 ol' lAw-ur Sy:jtems arid Thelt, Laplace RCPI'C.30tlt,'I-- SOV/1 C-3 -2! -1 -3/24" 1'ra!,- t. lon can be found which corvespond:; to thl~,; CIS, (7) If the equidistant.magnitudlea P I Fit 0 are valueo of an exponenti-:1 polyncrila,'- of the n-th order, then the equIdlatant magnltudcz- ol' the f*l 'inctlon may be obtuincd using the recurrent Thlo ,quation I.-, obtalried on the bazlo ol': +  tho lk-twcen TrInst"'j, Milf.."It. .11y(II-cirm and laplacc. I Io la-011jr, opecial exprel."lown of' j bur a(;'vr~-J tile mand F symbola. Timu, tl-o-.- px,nt,I.(-rr m*i,, of' extrapplation ol' c.xpenentlal poIjIlorn,111I.-, (JoAcm, ined by 211 e(IIII(IlOtill"It, V[lJII(-I';. mctllod (~,I* Fe(~urrent Equation foi, Ecj,iIdI,:A,.,jrit or Time PurictIon. The approxImate n~~t h- A (-)1, -1--, tc- m. 'All I rkj:~, the A-parameters ot' 01. (,,3) 1., a t I ,; I I (9) representa a combination of' vooLOP PIC 2p k7 C MakIng a almllar combination of ruot3 , tile eqtiation ror doublIng, the pItch of di-crete valuea 13 obtalued. The covMclew'-s ot' the tn',trijfornfri -cquatlon ave determIned by tnvans o-' 11. 1. Ioobx,!hcvnk! n m-thod for ilulvlm equatlow;. TI-X equatic,., 41  Between Transfer and Thelt, Uaplaee 03 - 21 - 1/22 atid the re,.urrent vxIlves.91con L.; In th-- Corn: 1~~- ~ I 1' 1, 11 lv-,~ :10-, sit .., I'l."t"i - to. Irt thetic equatlows the quant-Ity 1(1~ Is a comblriat1cr. ol' several A-quantitlev. the doliblIn,; ullethi-M veveral times, It Is possible ""o Increase by 4,8,16 timett the pitch of discret-2 valtica wIthout lowe.-Ing the accuracy of the revurri-rit The InItlal equidistant mtjjilt.jdo~j of the looked-for time function are dlzeusseJ. Trajialo,,iit stalte cal(!ulatlem li; given on art vxkmplt, - tif in tlectrohydi'aulle --ervo- ayotem under the- Int' luc- rice of a -Ini-Ic Curiction. s f,un 1, 11 1,,,: A Mplaclan traivif'otin t,il. t 0 W - Method of Determinattriti ()I' the cl* *Lh,~  On the Connection Between Transfer Functlons 77472 of Linear Systems and Their Laplace Repri!senta- SOV/103-21-1-3/22 tions Card 7/8 Representation of the Approximating Function. A Laplace transformed functlon must be derived expressing the exponential polynomial used to approximate the temporary characteristic Df the system. Let the temporary characteristic be approximated by an exponential polynomial at 2n equidistant nodes of Interpolation. Then function (7) may be round. By means of this function an arbitrary number of equidistant values of the n-th order exponential polynomial may be determined. To this purpDse this function may be ex- panded Into a series of negative m-orders, or else the recurrent equation (8) may be applied. The re- lationship between symbols A and a is found., where a are coefficients of the ciaracterietit equation (4). Method of Determination or the Numerhtor of the Transformed Function. To this purpose series are used, the coefficients of which are Initial values of the looked-for approximating function and of its  On the Connection Between Transfer Functions 77472 of Linear Systems and Their Laplace 'Representa- SOV/103-21-1-3/22 tions derivativeso or else Initial-moments of this function. An example Illustrating tae proposed method Is given. In conclusion, the author says that: (1) A method Is given of calculating the transient states by means of recurrent equations obtained uslng the approximate ex- pressions for the operator of differentiation and the method of doubling the pitch of discrete values. The method gives a high degree of accuracy. (2) The method Is given of obtaining Laplace transformed functions corresponding to exponential polynomials which Inter- polate the given temporar7 characteristics at equidistant nodes. This method may be used for graphically given functions. There are 4 references, 2 Soviet, 2 U.S, The U.S. references are: Boxer, R,, Thaler., S.# A Simplified Method of Solving Linear and Nonlinear Systet- PIRE, Nr 1, 1956; Boxer, :1., A Note on Numerical Transf.-!'-,% Calculus, PIRE, Nr 10, 1957. SUBMITTED; April 23, 1959 Card 8/8  ZDCR&NDY, 1. S. Nothod of Interpolating funotlows using exponential polynomials and application of Ols netW to problems of the synthesis of time char"Oristics of electric net- works. Wlotskbniks 15 no.8151-66 160. SKIM 1318) (Alectria networks)  S/142/60/003/004/009/013 sl92/s382 AUTHORt Kochanovo M.S. TITLEt Interpolation of a Periodic Train of Rectangular Pulses PERIODICALi Izvsstiya vysxhikh uch~bnykh zavedeniy, Radiotakhnika, 1960, Val- 3, No- 4, pp. 506 - 508 TEXT: A periodic train of rectangular pulses (FIX* 1) is to be approximated by a trigonometric polynomial. A sequence of valuex'of a given function corresp*nding to the equidistant values of t can be written &at F M r a 1 /0 0 1 F2 = 2, *0* F2n a 1, F2n+1 0 0, F2n+2 a -1 From these values of the function It Is possible to construct a fraction which is in the form oft'. Xta-1 + MU-4 + N-i + in + Card 14  Interpolation of a S/142/60/003/004/009/013 9192/9382 Since the zeros of the denominator of -this fraction are known, Eq, (1) can be written as: 2x-1 .4 CO 1 (2) 2m 005 + u From this it is possible to determine a trigonometric polynomial which interpolates the train of rectangular pulses. This is given byt 2q-1 ctg -31n"Ot (3) 2n 2(2n + 1) where n in the number of the terms in the polynomial. If the interpolaiion nodes are chosen differently, the fractional function can be written In the form: Card 2/5  S/142/60/003/004/009/013 interpolation of a C192/2382 4 2n - I iib (M) =~71 2n+1 'oSI-2(2j#-0)* .5 MI - 2m cos +1 (.4) 2n + I and the corresponding trigonometric polynomial is given by: 2n-I 2 Ix RK il f M 2n + 1 2 (2fi + 1) ' 2 (5 + 1) Fig. 2 shows a graph of Eq. for n a 4 1 the figure also shows the form of ther first four Fourier terms (see the dotted curve in the figure). By using Eq. (4) it is possible to construct a bipole, for producing rectangular pulses. There are 4 figures and 3 Soviet refor*nceso Card 3/5 '9  S/142/60/003/004/009/013 InterpolAion of a o... 'E192/2382 ASSOCIATIONs Kaf*dra Akademii avyazi (Chair.of the Communications Academy) SUBMITrED: June 4t 1959 (initially) February 29, 1960 (after revision) I Card 4/5  tk KOCHANOV# Nq So Doc Tech Sot -- " Study of " poeblaims-of 1, amlysis end s3mthests of linear electric circuits with lumped constants In a time region*" Lou, 1961 (min of Higher and Secondary Specialized Rduoation RSFSR. Len Bleatrtoal Engineering Inst im V., 1. Ullyauovl~nln)).f KL, 4-61, 194) _04,  IOGHUOV~ #J., '."ology for oonatructing tables for use in calmUting the trapter Obaracteristicis of slectrioal filters. ElskWorrias' 16 no,903-1A 8 -162. (MIR& 15s9) (Zloctric filters) (Radio filters)  SOBEMIXv Takov Androyeviahl JOCHANOV. M.S., oti, rod.; VIZIFOYA, V.V., red.1 CHUMXOVA,, V.A.t tekNi. red. (Desip of,multinomial filters] Raschat polinomiallnykb fil'trov. Moskyat SvIas'Isdat, 1%3. 207 p. (MRA 16s7) (Zloctric filters) (Radio filters)  KOCHANOVp N.S. Syntheali of liwar tlectriokl netuorks In respect to timel ap- proximation problue Maktrcavias' 19 no#931-7-23 6 165. (141PA is a 9)  KOCHANOVS-,fi.S.~ Approximation of given time funotione using exponential polynomials* Radiotakhnika 20 noo5elO-19 W 065* (MIRA 18ilO) 1. Doystviteltnyy oblen Hauchno-tekhnichaskogo obs~c)-Astva radlotakhniki I. alektrosvyasi -imeni Popova.  .Al KOCRANOV, N.Td. Cand vat ml . (dies) 'ftu4Y of the funotional stato of the oardlowasoular sys4to bloodl- oatoreLan4 urine/ in highly produoti" -44 Gv~,-~ Gows of 2nd, 3rd and 4th Galving M Voncentrate type7of foodings' A Nose 1959s 21 pp (Moe'Vet Aaad of the Idn of Agr RS?SR). 160 ooples M, 49-69, 142) -63-  KOCUNOVI X. (Candidate of Vet*rinary Sciences, Koni Branch of the AcadoW of Sciences (ISSM Methods of daterimnation of acidity and &11-11nity of cattle urine aw their comlation Voterinariya vol. 35: no- 9, September 1961, pp. 81.  XOCHANOV9 Most kand. voter, nnk ..=a 0, - Methods for dotorminim the acidity and alkalinity of the urine of cattle and finding their relationship Voterinarlis. 38 no.901-82 8 161. WRA 1638) 1. KORL filial AM SSSR.  TIEHOKIROVAl Angelina TeigenlysYnal TIMIROT, Patr Laonidwrl Prininal uchastlyo KOCRAWY, P.D., nsuohnyy sotroWk. MYSMo DePat kmnd*%0kbnnAt&q namohn" rod,: 109ARVA9 Tal,j, wedushchiy redol FRUMM, P.8,9 tekhA.rade [91mciallsed course in electrical engineering, radio engineering# @A4 41441ronlall ftetsisllnyi ken el*ktrotAkhnlkl# radlotakhalki I slaktronW. Leningradp Oosons=hnq-t*khn,lzd-To-n6ft9 I corno- toplivaoi lit-ryt l6sulwootd-ale, 1960, 483 p, !(KIU IN12) 1. Xafedrs rudnoy Meofisiki Zeningradskogo gornogo institute In* GaTePlakhanova (for toobanov). (Ilectric engineering)  Pa-W-242-D- Using the wthod of amplitude-phase wastw9ments to "loot the paramiaters of appoatus. Geofis. pribo no 9$94-99 161. iMIRA 15:11) (Meatromagastio prompeating-3quipwnt, and supplies)  .KOCHAMOV P D Construction of Induction magneti: transducers for electric prospecting apparatus. Georiz. prib. no.l9s86-92 164. (MIPA 1819)  IOCHAHOV, P.D. Selsating the optimal loop site for the exploration of a spherical ore body. Up. LOX 46 rbo.2:121-112 163. (MIRA 17t6) I I. t A I  1WHAXOV, Y.H. Device for X-ray exudnation of the foot and the wikle joint in stada d conditions. lost. rent* I ral, 36 no,6:" N-D 161. kmLl 15s2) 1, Is fotalaboratorii (sav. Y.R.Kmhmyv) Havosibirskop nauabio.- iseledontallskogo imatituta trawatoL)gii i ortopedii (dir. - dotsent DePtNetelk 7=.!SIOGRAPHY) (AJWXMlX-.MDIOGM?ffl) (PADIOOMPHL-EWIHMAND SUPPLIM) I  AURMCRODSXIY,. A.0., Amud. tokbn.wL*k -- JU)CRAXOT, TcL.P., lush. Sifatlating the stability of f IM s;an cavors. Uvb. vys, nabob* savol manblaostro so* 10148-55 160. (mm 1411) likolayevelly karablestrottellmly Imatitato (Itrutural framoo-Nodels)  it. 01PO AUTHORSs TITLEt 3/145/60/000/010/002/014 D262/D304 Arkhangorodskiy# A.G.# Candidate of Technical Sciences and Kochanovji_)UP!j Enginver Modelling the stability of flat docks PERIODICALs Izvestiya vyaahikh uchabnylh zavedeniy. Mashino- atroyeniyep no. '109 1960# 48 - 55 TECT3 The purpose of this study is to examine the possibility of determining the.stability of decks on specially built modelling in- stallations. The principle is based on the known relationship bet- ween loads and deformations of rods at the moment when their stabi- lity is disturbed. The utilisation of the installation is based on the theor of similarity, The phenomenon of the lose of stability is descrited by the general equations 4 2 Ei_ R ~ 8 TV 0 (at Y - Ym) - Ti - ex bX Card 1/4  3/145/60/000/010/002/014 Modelling the stability of flat decks D262/D304 %.+0- k.. OY4 X, lit-to (2) 114-0 di -a Y2 i7y- (*Y"~ Ox ZRy', = L (3 Y a+ and U.E1, OV dv " Y.Y., (4) -jW -~ T(x.oV'x for the case shown In Fig. 1 (v - area# sectional moment of in- ertia of a longitudinal beamp I - sectional moment of inertia of-a- transverse beamt T - contracting force of a longitudinal beamp U - coefficient of yieldingnees of elastic mid fittings of a beam; in- dexee: m - succoosive number of a longitudinal beam, n - successive number of a transverse beam) the constants of simllailty are given by Card 2/4  8/145/60/000/010/002/014 Modelling the stability of flat docks D262/D304 C' C'- CV0 U.. U-1. L C U. JU-2- . . ~L_- L. U., U.L. -L.- (5), CTQ T.. C1. the conditions of similarity# derived from equations 0 - 4) are al- so given in equation form, The maximum size of the installation can be 1600 mm x 900 mm. The results obtained from a test show that the errors do not exceed 10 % in comparison with the theoretical calcu- lations. It is stated that this method can be used on an equal foot- ing with the existing methods of calculatLone and also could be Card 3/4  8/145/60/000/010/002/014 Modelling the otability of flat decke D262/D304 used to solve more Involved problemst for, example when longitudinal and transverse beams are not equidistant and their moments of Iner- tia vary. There are 3 figures and 4 Soviet-bloc references, ASSOCIATION: Nikolayevskiy korablestroitolnyy inatitut (Nikolayev Shipbuilding Institute) SUBMITTEDs December 26j 1959 Fig# 10 Card 4/4  S/145/62/000/002/005/009 D262/D306 U A, HORS: Arkhangorodskiyo A.G.g Candidate of Technical Sciencest and Kochanovp Yu.P.p Engineer TITLE: Y;odellinZ of bending of frames with fixed joints P.73RIODICALi Izvestiya vysshikh uchebnykh zavedeniy. Mashinostroye- niye, no* 2, 1962t 86 - 95 T--'XT: The work principle of the new device designed by the author is based on the relationship between angles of rotation of ~ointa and moments about the points of support of the frame rods. The condi- tions of similarity are studied and a detailed description of the device is given. A numerical example is given of design of a stati- cally undeterminable flat frame. The err-or in design does not exceed 5 %. The device can be used in calculating ship frames and is recom- mended for laboratory work. There are 5 figures and 2 tables. A 0 ,ASSOCIATION: Nikolayevskiy korablestroit,ellnyy institut (Nikolayev Shipbuilding Institute) SUBMITTED: December 26# 1959 1/1 Card  ARSHANWRODSKIYO A.0.0 kand.tokhn.nauk; IOCHMOVp lu,Pot-insho MD&Iing the banding of Trams vith fixed units, Izv,vys#Uclwb.- say. I naeldnostr..no.2s"45 162, ~ (mm 1515) 1, Nikol"evskly korablestroltallmrr institut. (Structurml rrams)  [ACCESSION NN AP4037234 ALITHORs Nochanoyp Yu. P. (Niknayff) TITLSj Plans problem in elasticity theory for variable thickness plat" SDU11CZ1 InSh6n*rMM ShWnUap Ye ho no* 2jo 1VAp 368-375 TOPIC TAGSt plane e1"tic1tjr#,vsrJ,&bls thickness platep plans forcep stressed statep rectangular plate AWRACTs The author Investigates the problem of the stressed at"* of pUt" of varisb2e thickness, applicable to bulkheadas dock@# eta. in ship. The plate is subJected to stresses In its plMso After deriving the basic eqastions which characterise the stressed state of the plAtep the "bor gives Ww solution for rectawAlar plates of variable and pukated thicknessess Origo arte but figures wA 33 fornAUms AWOCIATION s Cw ,A,--  I M111.11ION', L&I's klo, I kcs, wri N,.%-4imwstonml probl om Ln the thectry c f R'ftil i. i - ~,-r r lites (~! .nr!i%ble thh~vi%oo Tnzhs thire 4 'f-' ,"I %; 'ryls)  NRI AR6035382 SOURCM CCDEs UR/0398/66/000/009/AO21/AO21 AUTHOR t , KochFTnju~- Pf .LITLEs Equation or the plans problem of elasticity theory for stiffened rfatandular plates of variable thickness souRat Refs zhe Vodqy transportgAbas 9A129 MY. SGURCEa Budostre L sank* Noorushe Beeps moshv6d, nauohno-tekbn. obeg vpo 1# 1965, 13-16 TOPIC TAGS: compressed stiffened plateg elasticity theorrg variational nethodg stres distribution, strain ABSTR=s The problem Is solved by a variational method* Expressions an sat up for the potential energy of the deformation of the plate and of the stiffeners, and ex- pressions are obtained for the virtual vork done by the external forces, under the assumption that the plate in acted on by volume for,,.cs and by forces applied to the stiffeners in the direction of the latter. The dis;placements V and Y isre determined on the basis of the principle of the possible displacements, accordiag to vhIch the force function should Siva a minimum in the equilibrium position,, 1 Illustrations Bibliography, 7 titloso Yee gukacheva, (Translaticm of abstract] SUB CODES 20 Card 111 UDCs 629.12i62hs  ACC Nli, AM4015 8=0 COM to/3239/66/000/002/0094/0100 rN) AMNOR: Suslovs V, P. I Kochanov, YUG P. ORG: None TITLE: On the problem of determining the loads an the bottom plates vhen a sbip is launched from a longitudinal slip SOURCE: Nikolayev. Xbrablestroitellayy institut. Sudostroyeniye L morskiye socrusheniya, no, 2, 1966. Budostroyonlys (ShIpbuildinS), 9h-lOO TOPIC TAGS: shipbuilding engineering, compressive stress, dynamic stress, stress ,distribution i tABSTRACT: An approximate method Is proposed for determining the loads acting on the ,bottom plates of a vessel during launching from a longitudinal slip. The procedure ,Is convenient from the computational standpoint and.conaLderation is given within cer-. tain limits to structural flexure of the ship and to various other factors Involving reactions of the launching ways In the second period. The ",actions between the slLd-1 .ing and ground ways in the second period of the launching operation an given tW the lexpressiont Cotd 1/3  ACC N1h AT7004015 Ubere s Is the distance from the cross section of the ship passing over the throshol4 lof the launching vays to the cross section being considered, r(s) is the intensity of the reactions in the launching wsys during the second period of the W, bins opera- ~Ion, ro(x) Is the intensity of rewtAcus, in the launching vays after the vessel has ibeen transferred from the building w4yi to the launching ways, r(P, M, 2) Is the in- tensity of the reactions in the launching ways due to the concentrated force P and the concentrated moment N in the cross section of the ship passing over the threshold of the launching vays. Accuracy In determination of r(s) by this formula depends l lbasically on the degree of accuracy in determination of reactions ro(s) after transfer of the vessel to the launching vars. Uperinental data on ro(s) for six ships vith launch veights from 1500 to 4500 tons and lengths free 85 to 140 meters show that the actual distribution of these reactions differs considerably from the theoretical dis- tribution based on representation of the vessel during launching as a girder on ar. elastic base under the effect of the launching load. Contrary to theoretical predic- tions, no significant reaction pes1w were observed in W of the six experimental leases considered. Reactions of the launching vays after transfer may be considered japproximately uniformly distributed on the section of those wiqs wbich Is q~trlc ivith respect to tho center of gravity of the shipr. giving the forwa& to 2/3  ACC NRt AT70014015 ;where D. to the launch weight of the vessel and Iis twice the distance from the cong ter of gravity of the ship to the stern end of the unbroken section of the launching ,ways. This formula is used for derivation of equations expressing P and M and for 'finding the intensity of reactions r an a function of these Wo factors and the dis- :tance z. It Is found that the curve for reactions of the launching track& is fairly closely approximated by Wo types of l9ads: Q1 uniformly distributed with -respect to the length of the bottom plates and Q2 with variation according to a triangular '14v cover half the length of the bottom. ]Pormdas are derived for calculating qj and q2 and graphs are given for determining the coefficients appearing in these forxulaz. The formulas are recommended for practical calculations, especially in cases where the jaunching vays are not provided vitii girders under the keel and the continuous section As symmetric with respect to the center of gravity of the ship, providing as "Ure" "I ~taken to "sure uniform distribution of reactions in the launching vays after trans- :.-er of the vessel from its structural supports to the launching ways. Orig. art. ~has : 3 figures, 15 formulas. SUB CODE: 13/ SM DATE: Xone/ ORIO MWj 005 card  ACC NRi AT7004016 /V) SMCz-0ODZ: UR/3239/66/000/002/0113/0118 'AUTHOR: _Kochanoy Yq~, F.; Spikhtareakoo V. K, A- ORO: None ~TITLE: On the strength of bottaw plates during launching of ships .SOURCE: Nikolayev. KorablestroitelOnyy Institut. Sudostroyeniye I morskiye ~sooruzheniya, no. 2, 1966. Sudostroyanlys (Shipbuilding), 113-118 !TOPIC TAGS: shipbuilding engineering, yield stress, compressive stress, plastic i deformation ~ABSTRACT: The authors consider the problem of the strength of bottom plates during launching of ships from a longitudinal slip on ground ways with discontinuous wooden sliding ways. Expressions are derived for determining the compressive stresses in the i 4 ,sliding ways resulting In stresses equal to the yield stress of the material for the I .bottom plates. It to shown that compressive stresses or 10-12 kg/c&2, which are .average for sliding ways made from boons with a cross section of 25x25 ca, produce no plastic deformations in plates vith a yield stress of 4000 kg/cm2 and a thickness .greater than .10-12 mm. However, thin plates my be subject to plastic deformations ~vlnce compressive stresses in the sliding ways mW exceed 10-12 kg/cm2 during trans- ~fer of the ship from the building vap to the launching ways as well " in the second 1period of the launching operation. Kites thicker than 22 = show no plastic dsforna-~~ Card 1/2  ACC Wo AT1604018 ;tion since the yield stress.of 4000 kg/cn2 Is reached at compressive stresses greater '.than the yield stress of the pine timbers used in the sliding ways. 7be effect of- the spaces between the timbers on stresses in the plates shove up only in the case of extremely thin plates (5 = -in thickness or less) and my be disregarded since these 'plates are subjected to plastic deformation during transfer of the ship from the building ways to the launching ways. *It is recommended that discontinuous sliding 'ways should be used in launching ships since the stresses in bottom plates are not 'increased significantly oyer the case vhers unbroken vays are used vhile the savings Jin materials and labor my be considerable. OrIg. art. bass f igureep I tableo :17 formulas. IMB CODE: 13/ SM DATIs None/ MIO RM 002  KOCHAITIV'~~ --I JAP 4 , . 10 lk Ia] I't $ 1 ~ 4 .I. 1 I : 6 ft . I I -III I A 4w : :,31  Dissertationt . *An Imestiption of the Irnlomes of Surfaco-Active AgenU on the PlAirtle. Flow of PoUcrptn'ni Alumbta St Various Degmes of Surface OztWianst Cod Chm Scit Ploscow urthw'of lowin State Vbml X* Vo loomms"s 18 Jum 34. (Vechellov~ MolkVis &soowe 9 Jun 54) SOt SM 318s 23 Dec 1954  -00 I 1A  507/2o- 121)-4-15//67 AqPO1i;;: LLkhtman, Vo Top Kochanovno L, A.# Dryuk~ainovno Lo 39o TTT.LY.: Thp Prittle Destruction of Dingle Zino Cryntaln (0 khrupk9m rourushenii monokristallov tsinks) Mi-RIODICAL: Doklady Akedomii nauk 555R, 1958* Vol. 12o, Vr 4, PP-757-760 .(USSR) ARSTRACT., The single-crystal samples were produced from pure zinc (99t99 %) by the method of zone-cr/stallization which had been developed in the authors' laboratory, The rulen govern- Ing the brittle de;.-truction of single zinc cryatals with different Initial orientations or tq basic plgno with respect to the axis of the wire (13 80 ) were invon- ~ t1gated by means of uniaxial Totation with constant velocity - of the extension (rv12 % min ) of the sAmples In inactive ond surface-activi media. A diagram shown the results of the experiments carried out with oingle zinc cryetala at the temperature of liquid nitrogen. The plastic 41arlacemont Pre- - ceding the destruction in all the greater the sma Iler X . Card 1/3 Besides# the normal tenalono neceavary for the break in 1h9  The Brittle Demtruction of Single Zinc Crystals SOV/20-'120-4-19/67 banal plane decrease considerably with increasing X The brittle breaking off on the banal plant to facilitats; by a previous displaaament in this plans, At relatively -high normal tensions in the basal plans a slight displacement will al- ready be sufficient to cause elastic breaking off. The ex- perimental data obtained gave the following results; The so-called Zonke Law of the constancy of vertical normal tensions does not apply to single zinc crystals in a brittle state* rlastic displacement causes defects in crystal struc- ture which prove to be the originil cause of destruction. No "consolidation when breaking off" was observed In the case' of single zinc crystals* The rules governing the brittle d*- struotion in single stho orystals at low temperatures apply also if transition to the brittle state occurs under the inflikqnoe-of a strong surface-active medium (tog* mercury). A brittle'state of a single zino aryAtal that Is caused by mercury satlsfl*a the same general regular rules as the via- cosity due to low temperatures* Thor* are 4 figurts, -1 tablet' and 15 references, 8 of which are Soviet. Card 2/1  - The Brittle Watruction of Siftele ZiftO Crystals GOT/20-i2o-4-19/61 . . ASnIOCIATION: Inatitut fisicheskoy khtmit AWooll nauk SSSH (Institute of 1,hysical Chemistry 1,3 USSR) ,R on Ift: Jonuary U,, IWp by P.A. Robind*r,, Academician BEOMPiUs Jenuary 22, 1958 1, Single orystals-Mobanioal, properties 2. Slagle metwo -3. 21no-cryst"SatIM 40 ZIM-Motwe ~vrd 3/~  AM" Effect of fusible metal welts on the mechanical properties d ingle crystals d higher melting metals. Bial. lost. etaloker. i spots. splay* AN URID. no. 402-78 059. : (MMA 13sll) (Metal crystals-Therviel properties)  67397 '2 00 A LF1 HORS s JjLtWjh*Dov*. L. S. 0 J&ochanovat L. A., Likhtuant V4_ I. 7 14 TITM The Rules Governing the Brittle Doetruct of single-Zito--- PERIODICALs' Fizika tvardogo tela, 1959, Vol 1. Ir 9. PP 1448 - 1456 (USSR) ABSTRAM Tho.present paper offers a contribution to the problem related to modern technical requirements concerning the Investigation of the relationship existing between the sechanloal.properties of-metals and the chemicophysical influence exerted by the medium surrounding them during deformation. ?trot, a number of pertinent papers to partly dealt with In detail, among others, publications by , Academician P. A. Rebinder at al., Kishkin, Nikolenkoi.Ratner, Potaks, Shchoglakoval Roshanskiy, Pertsoyl and Shchukint The authors of the present paper investigated the rules governing the brittle destruction of a single zinc crystal wire at difierent orJoStaftone of the bass plant to the Wiro %Zia (13 4'80 ) at liquid nitrogen temperature ( 6 0 , -19 C) at Cord 1/4 elongation at a constant rate HO/min). The single crystals  67397 The Rules governing the Brittle Destruction of Single SOT/181-1-9-21/31 Zino Crystals were pure to a degrse-of 99.99%, and were prepared in the authors' laboratory by zonal crystallization. The crilical shearing stress in the bass' plans attained ~ 130 6/20 at these temperatures and was Independent of the orientation of this plans to the crystal axis, as shown by special expert- seats. Mercury was used *a surface-active material. figure I shows the measuring values and the calculated dependence of the limit of the plast-lo dislocation (a a) of the sAngle, zinc crystals on the orientation angle of the base plane ( TO).The steep decline of a is described by'formula a. 0 (E +I )s WT6-~)7 sin 2 ]TO -- where F is the limit of elongation before tearing, k, to the final orientation of the bass plane before tearing. Figure 2 shows the dependence of the normal tensiod N, acting upon the base plane, an the displacement a during deformation at different )'o values. The following holdsi 9 P sin sin Card 2/4  67397 The Rules Governing the Brittle Destruction of Single 501/181-1.9-21/31 Zinc Crystals P is the indication of the dynamometer, proportional to the degree of elongation.-Table I contains the values of a 2I 110,0 ,and Sa (shearing stress) for 6 TO values in the moment of 'brittle tearing. Figure 3 shown thedopendence of-the yield limit Psfand the critical normal tension N oat the yield limit at constant $- and figure 4 the dependence of &a I V t 8108 a on ~O . P0('rol shove a symmetrical cours*9 first dro with growing , a minimum at - 450 and another risel a 0 0) drops (10 rises oap--- hally with groving,to; am(~ exponentially# Xa(~O) rises and Sm(ko) shows a linear drop with growing XO_ figure 5 shows the drop of N a with rising pro-deformation (E%ro) at 200C. (The samples were first elongated at rooa *nperatur*, only th*r*after cooled, and a further elongated to the tearing point). All these experiments were also carried out under other conditions,# the transition into-the brittle state was not attained byoool-Inp ~ut by Card 3/4 the action of a strongly surface-active agent (Hg). Table 2 Ij  67397 The Rules Ooverning the Brittle Destruction of Single SOY/181-1.9-21/31 zinc crystals shows the measured %-# Na-9 and Sm values for this casep and figure 6 the function P(&) for nonanalgazated (full circles) and amaiga"ted (empty circles) single *Ina crystals at Yj . 48 and T - 201C (the values coincide within the slasurins acouraoy). Figure 7 shows am(~O) for amalgamated and nonamalgamated samples at 20 OCI in the first case % decreases with X09 In thi latter case it rise@ stronglyo Figure 8 shows %(Xo)o NaQo), and Sm(TO) for asalga- sated crystals only# figure 9 P(e,) for both types at X. - 4;4naCn1d* T - -19600, figure 10 for amalgamated samples at 200 and nonanalgasated at 185 C. Shchukin (Itef 15) Is mentioned to the text, There are 10 figures, 2 tables# and 17 references, 9 of which are Soviet. iSSOCIATI01r: Inatitut fisichoskoy khiaii AN SSSR Moskva (Institute of -Physical Chemistry of-tho AS USSR Moscow) S'UBWTTn: February 20t 1958 Card 4/4  05276 18(4), 24(2) SOV/170-59-7-7/2D AUTHORSs Koohanova, L.A., Andreyeva, I.A., Shchukin, Ye.D., Ll khtaw, V. I. TMX: Regularities in the BrIttle Fracture of Pure and Alloyed Single Crystals of Zinc PERIODICAL: Inthenerno-fizicheakly zhurnal, 1959, Nr 7, pp 45 - 52 (U33H) ABSTRAM The authors studied regularities In the fracture of Pure and alloyed single crystals of zinc along the cleavage plane (0001). Pure crystals were taken of 3 kinds: containing 99.999% of elemental zinc, containing 99.99% of it and commercial zinci those of alloyed specimens contained 0.2 and 0.5% of cadmium. Experiments were carried out in two versionst in the absence of an active absorption medium at a temperature of -1960c and with a thin mercury film of about 5A,.thick applied to the specimen, at room temperature. Crystals were produced by the zonal crystalliza- tion method and were 0.54 to 0.9 mm in diameter and about 10 mm long. The fracture of crystals was performed on the Polyany device at a con- stant stretching rate of 10 to 15% per minute. The authors formulated a "condition of the constancy of the product of nomal by shearing stresses", which is expressed by Formula 1. pc Tc' - const . K2. By &n&lyzing & Card 1/3 considerable amount of experimental data the authors have established that  05276 3OV/170-59-7-7/20 Regularities In the Brittle Fracture of Pure and Alloyed Single Crystals or zinc this condition is fulfilled within a wide range or orientations or single crystals for both pure and alloyed specimens. As the quantity of the admixture increases, the value of X also increases. The authors explain this by'& hypothesis an th* origination of heterogeneities In the shearing process and oacurreaos of plastic deforwation during a phase immediately preaWng fracture. The value of X for amalgamated speolmens Is Wee as lot com$" to - . non-amalgamated ones,, both for pure and alloyed crystals. 'This is explained by the lowering of the surface energy of s1no in the presence of mercury. Tht condition formulated by the authors agrees well also with the ex- perimental data of the other investigators In this field, such as Deruyttere and Or*"o4gh Aef 17, wA In consistent with the theory Card Z/3 of P.A, Rebinder Aefs 7-1q7 an -the effect of "sorption-sative asedla  05276 'SM/170-59-7-7/2D Regularities in the Brittle Fracture of Pure and Alloyed Single Cr7SWS of Zino on deformation and strength properties of solid bodies. There are: 4 grapbs, 2 tables and 13 references, 12 of which are Soviet end 1-uniftntiflod. ASSOCIATIONt Institut fitIcheskoy Wall AN SSSR (Institute of Physical Chemistry of the AS USSR), Moscow. Card 3/3  2A S300 68783 ' 18 (6) 8/170/59/002'/12/013/021 AUTHORS* Povtooz- W- 2014*14 TITLEs The Influence Exerted by the Deformation Rat* and Temperature Upon the Amount of the Adsorption Effect of Reduction In the Strength and PIA-4ticity.bf Metals and Easily Fusible Metallic Nolte PERIODICALi r Inshenorno-fisichookly shurnal, 1959, 55R) ABSTRACT& In the experiments described amalgamated tin single crystals (pu- gt room tempera- rity of 99.9991A) about I " thick were d*formod o tur thirl, % per minute). ~& wide velocity range (from 102 to I . In :r:!r to-study the offset of temperature, experiments were carried out In the temperature range 1 400 0 and at - 1960 0. The dependence of the elongation and actual breaking stress of amal ; hm ganated and non-analgazated tin single crystals upon the logarl of the reciprocal deformation rat* to diagrammatically shown in figure 1. The diagram of figure 2 illustrates the elongation of pure and amalgamated tin crystals at 250 C and -1960!C. Hero the deformation rate woo 15%/sin. These and further experiments indi- cated that, If the rate of deformation Is low, amalgamation does Card V2 not effect the mechanical properties. It say be seen from figure I  68783 , The Influence Exerted by the Deformation Rate and 5/170/59/001/12/013/021 Temperature Upon the Amount of the Adsorption Effect B014/BO14 of Reduction In the Strength and PmtIcIty of Metals and Easily Pusible Metallic Melte that at room temperature the action of mercury manifests itself only at a rate of i04%/mIn. The dependence of the actual breaking stress, elongation, and yield point of amalgamated andmon-aaal- psated tin single crystals upon temperature at a deformation rate of 15%/ain In graphically represented In figure 3- Below -390 C it is no more possible to observe an effect of mercury, which to ex- plained by its solidification. It was further shown that the tem- perature dependenas of the above-4smaribed effects has the same character as their dependence on the deformation rate. The part played by surface-active mercury in the#* effects is explained by the fact that It facilitates the further development of alcrocracks into macrosoopio cracks. There are 3 figures and 13 referenosal 12 of which are Soviet. ASSOCILTIONs Inatitut fisioh*skoy khIaII AN 3381, g. Moskva (institute Of Physical Chemistry of the 13 'USSR, City of Moscow) Card 2/2  SOV/lz6-8-2-19/26 AVrHORSi Kochanovs, L*Ao, Likhtmant V.I. and R*b1nder, P.A. TITLE: ___T_aluon1-o__of_L-8W Malting-point Fused Metal on the Mechanical Properties of Monocrystals of Higher Melting- point Metals PZRIODICALt metallov i metallovodoniyog 1959, Vol 8, Nr 2, pp 288 - 293 (USSR) ABSTRACTs Single crystals of mine (99,99%) and cadmium (99,99%) were used in fused tin and lead. Samples were deformed at 18-13% per minute with a temperature constant to + 3 C. The metallic =odium (Sn or Pb) was deposited on the sample electrolytically (thickness 5 p)# which was then placed in a tube with powdered graphite to prevent oxidation, Figure 1 shows true stress-strain diagrams for pure zinc and zinc with a coating of tin. At room temperature the influence of tin is small but at higher temperatures tin causes a decrees* in strength and plasticity* The relation betw on temperature and magnitude of the effect of tin is :howg in Figure 2. -The sharp increase in effect at 300 - 400 C is connected Cardl/3 with an Increase in solubility of zinc in tin. The  SOV/126-8-2-19/26 Influence of Low MoltIng-point ?used Metal on the Mechanical Proportion of Monocrystals of Higher Mdting-point Metals character of the fracture also changes from plastic in air to brittle in tin* Lead-tin mixtures were also used* The effect of pur* lead I* very slight but with increase of tin content in the lead up to 20%, there is a sharp decrease in strength and plasticity of zinc (Figure 3). With further Increase or tin content, the affect is much slighter. It was ehgwn that it zinc coated with tin is held in lead at 400 C for long priods, the strength of the zinc recovers (Figure 4). This shows the absence of any marked diffusion of tin in zinc. A decrease in plasticity and strength of cadmium in tin was also found ~(Figures 5$6). The results on single crystals show that the decrease in strength is not connected with any grain- boundary effect. There are 6 figures and 21 references, of which 12 at* tnglish and 9 Soviet. Card2/3  Ilk- -2-19/h2lMochancal Influence of Low Melting-point JP S05V(j? a 0 us a A on Properties of Monocrystals of Higher Melting-point Metals ASSOCIATION1 Institut fistahtskoy khiaiiAN SSSR (Institute of Physical Chemistry of the Ac,3c., USSR) SUBMITTID: October 15, 1957 Card 3/3  50) AUTHORS: KochanAvap L, A,# Andr#yova# Is Aot SOT/20-126-6-44/67 lb-0-h-u-il-ni Yes D, TITLE: On the Brittle Rupture of Pure and Alloyed Zinc Single Crys- tals (0 khru kou rasryve chistykh i legirovannykh sonokrist- alloy tainkal PERIODICAL: Doklady Akadealt nauk SSSRf 19599 Vol 126, Ir 6, pp 1304-1307 (USSR) ABSTRACT: In the papers (Rafe 1-4) the authors investigated the rupture of pure sino single crystals along the cleavage face (0001) and found that the product of normal and cleavage tensions in constant - poto a donat a XF. The results are given for tech- nical zinc and for zinc alloyed up to 0.5 % with Cd and com- pared with the results obtained for pure zinc (Table 1). Figure I shows the values -of rupture tension for pure zinc at -1960 C and various angles botween crystal axis and face (0001) as Well as the effect of a mercury film upon the strength at +200 C. Table I shows that X increases with in- creasing amount of additions, Figure 2 shows the values of Card 1/3 rupture tension Ir for amalgamated and non amalgamated pure  On the Brittle Rupture of Par* and Alloyed Zinc SOT/20-126-6-44/67 Wagle Crystals zinc single crystal In deptndence on the crystallographic ~shear a, The characteristit break of the deformation curve at so (flow limit) as well as the Increase in strength for a < a. connected with the latter are due to the increase of the incomplete shears (dislocation accumulation). a. d*- creases with increasing amount of alloy components. Uble I gives the degree of InhonogerAty f a a 0/a; (a; refers to pure 2ino). An shown 'by figures 3 and 4P the experimental results are In good agreement with those obtained by A. Deruyttiltre and G# Do Orsonough (R*f 5). parc a X2 holds for both astalpa- ated and not a"lgoisated sinc single crystals of varying purity. The values for X &rot reduced by 50 % as a result or the reduction of the free surface activity a. The authors thank V. 1. Likhtman for hiii advice. There are 4 figures, I tableo, and 13 references, 12 of which are Soviet. Card 2/3  On the Brittle Rupture of Pure and Alloy4od Zinc 301/20-126-6-44/67 Single Crystals ASSOCIATION- Inatitut fialcheskoy khimli Akadenii nauk SSSR .(Institute of Physical Chemistry of the Academy of Sciencess USSR) PRESENTED,. February 17# 19590 by P. A. Rebindere Academician SUBVITTED: February 10# 1959 Card 3/3  31603 3/137/6 If OW/t 12/124/149 9 Arbo AC*6/A 10 1 AUTHORS j Plabinder, P.A., Ukhtman, V.I., Mchakin, Y*.D., Koohanova, L.A.. Perteov, N.V., Ooryunov, TM,V, T1=1 llegul&rltlea and 64* wohantsm of the offW. or suall surfave ao- tive admixtures on Isforme.lon &M strer4th propertUs of singla arystal matals PMUCOIC&Lt ReferatIrAyy shurnal. Ybtallurgiya, no. 12 1961 3k.35, abstraot ;W 0' izwiO ("Tr. in-ta fix. vot4aiov. Ali i& 116 - no. 23, 147-161) TMI Experiments wotv made with lifferimtly crlent*d Zn ad Cd single orystols of I = In d1ametAr, ao&'A-4 wI%h a thin film of surtsoo active an anid .HS metals. It is shown that at tompersturse over ?a of Otasp metal.zoatine euteatics, tk* presence of a molton surfac,* -jko Uve metal layer strongly reduoss deformability ani strength of tho speaimen &:-A prtmotes brIt'.1a failure. ?ho brittle effoot of the surfe-n active ff*141 Is mainly a t4nitton of temperature and the d8formation rate, Embrittlemorit ard rolu"-d strengt), are nA comwated .with corrzsion proc*sses tut ar* caused ty a d#creaso of the wcrk whlzh Is necessary for tk* dev*lo;wnt of crack tucl*11. due to tt* adsorption of surface. Card 1/2  32803 8/1.)7/6 I/DW/1) 12/124/149 Reg-.zlaritios %nI -the mechanism A006/AIOI a,)Uve metal atoms on Um Intornal mior.-surfazae. At a drop of the test too- peraturs bel.zw T of thop "base: 4etal-coat! ne outeotics, trWambrittling offeat vanIshes gr&4,10,111, d,.& to a reiuoad mor,111ty of ads 2i-pvLon-ao"Livo atams. The ombrIttlIng effect vaLaIshot also at iniffialently high ton;oratures and low t*nsl,,,n rates, when tkw resor-ptiov of deformation sloro-hetercgerelt'49a and local stresses p,*vents the failure nu,.Oel to -davolo; W4 dangerous craoks, own at a o-twisi:lerable doirease of free surfsoo *nor". -There a.-* 21 roferenoes. V. st*rmov (Abstracter'& notei Complete translation) Card 2/2  3/020J60/133/01/19/070 SO14/BOi1 AMORSi ~-nahsxovaj L..AojL_ Shahakin, Yes Da~ Likhtman, V. 1, 9 Academician TITLE: Origin and Development of Cracks in Deformod CrystalJ PXRIODICALs Doklady Akadomli nauk 38829 1960, Vol. 133, No. 1, pp. 71-73 TEXT: By way of Introduction# the authors subdivide the cracking of a crystal an stretching Into two stages depending 0A the *our** of deforma- tion. In the stage A there oocurs a 4169 formation and a gradual grouth of the cracks at sites with high -tonsionj in the stage B the crack quickly ox- toads over the sntiro cross section of the crystal, The authors discuss the basic role of shear in stage A# and explain the origin of alcrocracke In this stage by the unification of dislocations and the formation of bollow nuclei* The mechanism of the development of crack# is closely exmined, and V. Y. loshinakiy (Ref. 7) Is mentioned In a discussion of the position of the cracks in the lattioss The most probable arrangement Is regarded to be the serial arrangement of dislocations in a -lattice plane, which develop to Card 1/2  origin and Development of Cracks In Deformed 3/02Y6033/01/19/070 Crystals B014 1011 a crack on further deformation* rorsula (1) is given for the length a of a crack# and formula (2) for the normal tonsions From those formulas the authors derive the condition for the constancy of the product from normal tension and shear str*sol this constancy Is well proven by experiments, The authors toslod the Independence of expression (1) of expression (2). ?or this purpose they studied the development of cracks In amalgamated %Lao single crystals, Riaroscopto analysts revealed Inner cracks in the orystal plans ~(0001) of all samples. Relation (1) and (2) by Criffith were tested experimentally$ and a few relative results are given, The authors state finally that the results obtalnod by then prove The universaltharactor of the scheme worked out by them for the analysis of a crack-4 olopeont'A Thor* are 3 figures and 14 references: 10 Soviet* 3 British, and I Japanese. ASSOCIATION: Inatilut fisiabookoy khiaii Akad*aii nauk 333R (Inotituteof Physical Ch*ulstry_of the Academy of Scionaeop 1133R) - - - OVDMIMDt April 7# 1960 Card 2/2  83131 8/020/60/155/005/0()8/019 /P. 1.200 B019/BO54 IUMORS1 Shchukin, Yo. D.. Koch&nov&jU.-.A , Likhtman, V~ 1. TITLEt some Special Features of Brittle Destruction of Metallic Crystals PERIODICAL# Doklady Akadsaii nauk SSSR, 1960, Vol. M, No. 5, pp. 1064 - 1066 TEXTs In the introduction, the authors refer to some of their own previous papers (Refs. 1 and 2). There, it had boon clearly established that in the rupture of amalgamated single zinc crystals a spread of rupture stresses occurs along the basic plans (0001). If, for a given angle Xo between the plans (0001) and the sample axis, P.,,(Zo) and Pm,XQo) are the minimum and maximum rupture stresses for the angle then the relative quantity (P... - Pain,)/Pmax strongly increases with0 Increasing To . For Xo) 500, this quantity remains below 10%. for Xo< 30 It attains a value of more than 25%. To clarify theme relations. the Card 1/3  83131 Some Special Features of Brittle Destruction 8/020/60/133/005/00e/019 of Metallic Crystals B019/BO54 authors carried out microscopic investigations of the basic planes (0001) of the fragments obtained in the rupture of many amalgamated single zinc ,crystals. The diameter of the single crystals L 0 was about I an, 10 was 0 between 20 and 70 , Many steps were found (fig. 1) in the surfaces of fracture which were caused by cracks on the transition from one (0001) plane into the other. Thorough investigations showed that the main steps appe r In the of origin of rupture cracks. In previous papers (Ref:- 3 and 451,aothese authors gave a detailed theory of the origin of cracks, and here they quote formula (1) obtained herej IT )1121(p It )1/2 (P sin 3/2 Xcos 1/2 ~),/(Pcaid/ coo 112 Va - sin 112 (90 a A 0 0 B a ZO. Here, p. Is the normal stress to the basic plans, t o is the shearing strew the Indices A and B refer to the type of fragment, and P. is the break stress. Fig. 2 shove the experimental data, corresponding to (1), for six differently oriented samples. It appears that~l) is fulfilled in a wide range of orientation with an error of about I . From the results obtained, the authors infer the difference between the roles played by the Card 2/3  83131 Some Special Features of Brittle Destruction of 5/02Y60/133/005/008/019 Metallic Crystals B019 B054 outer and helical dislocations.in the mechanism of destruction. By a further investigation of normal and shearing strtsees In the rupture of a ,crystal 1t should be possible to solve a number of problems which are connected with the temperature- and velocity dependence of 4*struction.. There are 2 figures and 11 Wersnoeso 8 Soviet. 2 Oerman, and I US. ASSOCIATIONs Institut fitioheakoy khiaii Akadeaii nauk SSSR (Institute of Physical Chemistry of the Academy of Sciences, USSR) PRESENTED# April 7, 19600 by P. A. Robinder, Academician SUBMITTEDs -March 29, 1960 Card 3/3  20797 4 114 8/1 SY6 1/003/003/023/030 07 B102 B205 AUTHORS: Xochanoval L. A,p Shchukin, Yo. D-j and Likhtman, V. 1. TITLE: Mechanism of coarse destruction of metallic crystals PERIODICAL: Yisiks, tyardogo tols, Y. 3p no. 3, 1961, 902-910 TEXT: Studios conducted by the authors in their laboratory hay* shown that the mechanical proportion of metals can be strongly Influenced by placing them in highly adsorbing media (fusion of fusible metals). such a treatment results in a considerable decrease in plasticity and strength. In the papers of Academician P. A. Robinder at &I. on the affect produced by advorp... %ion from the ambient sodium upon the moobantoal properties of solids, thosi Ix effects have been ascribed to the considerable decrease in free surface energy on the boundary between the deformed metal and its saturated solution in the other liquid metal. This effect of the metal melt occurs immediately. Experiments have shown that the rule governing -the deformation and coarse destruction of metals is not altered by the presence of the liquid n*tal. The study of the mechanism of coarse destruction of metals in, however, considerably facilitated by the use of active metal molts. The present Card 114  20797 3/16 61/003/003/023/030 Moohanisa of BI 02YI1205 pap*r includes a detailed discussion of experimental data relating to this subject. The data were obtained at room temperature for amalgamated single crystals of zinc. Theoretical investigations have shown that the destruc- tion (rupture on elongation) of single crystals of metals can be divided into two stages; Stage A: More or lose slow formation and extension of "embryonic" cracks at points of elevated concentration of strossoo. causod by inhoaogen9ities of plastic deformation. In this stage, the shear stress i plays the most significant roloo Tho.growth of the cracks to accompanied by the occurrence of now dislocations. Stage B: Rapid extension of an unbalanced crack over the entire cross section of the crystal. This process in predominated by the normal stress p. The critical relation between nor- mal stress and shear stress is given by p 010 a 7 2Gd/L, where y is a dimen- sionless coefficient which differs only slightly from 11 0 Is the shear aodulus~ L the cross section of the single crystal, and (F the specific free surface energy. Furthermorst the relations 0 r2L2 11~~ (1) and p. a a(ZO/o )1/2 to-O I (GcF/o,,,) 1/2 (2) holdl aax"Fut 0 50 max c is the length of the crack, E the elastic mR4%tius, and 0 a dimensionless Card 2/4  20797 Mechanism of 8/181 61/003/00~/023/030 BI 02X205 coefficient of the order of unity. The two last-mentioned relations which characterize A and B# respectively# are experimentally verified independent- ly of each other. This was done by,:,study of the formation of cracks on an increase in P9;nd i. The speoin (amalgamated single crystals of zinc) had a purity of 99~1 a diameter of 1 mat a length of 10 am, and showed different angles of inclination of the basal planes toward the axis of the specimens. The rate of elongation was constant and amounted to 12%/mln. The stresses were determined from the relations To a PosinX0cos~, Po - Posinl(cslnX, where P.0 Is the tonsil* stress referred to the initial cross section, and X is the angle of inclination of the basal plans toward the axis of the spoolmonfor a given deformation E. The valid- ity of the function amax(t) was proved by a series of specimens with X;1 a 210p and specimens with Xo varying from 16 to 670 showed the correct- ness of the relation (2) by Griffith. A study of cracks of destroyed !,,!Pecimens has shown that the predominant role in the formation of destruc- ,ve cracks is presumably played by angular or screw dislocations. V. N. Rozhanakiy is mentioned. There are 5 figures and 31 references: 21 Soviet-bloc and 10 non-Soviet-bloo. Card 3/4 X~  20797 8/181/61/003/003/023/030 Mechanism of ... B102/B205 ASSOCIATION: Otdol disperanykh sistem Instituts fitichookoy khiaii AN SSSR Moskva (Department of Disperse Systems of the Institute of Physical Chemistry of the AS USSR, Moscow) SUBMITTED: July 28, 1960 Card 4/4  5/070/63/008/001/011/024 9132/z46o AUTHORS: Shch,ukin, To.D., Kochanova L A , Portsov, A.Y. TITLE: The temperature at which the transition from brittleness to plasticity occurs when the strouSth Is lowered by absorption effects PERIODICAL: Kristallografiyo, Y.8, no.1, 1963, 69-74 TEXT: It won shown earlier that single crystals or Zug coat d with a thin layer of 11SO show a brittle fracture at room temperature for very low *train* because of the reducla In strength by the absorption effect, Without 11g, brittle , '4/ -fracture occurs only at low temperatures, 'The brittleness to related to the stability of a crack. Here. rods of Zu of varying purity,*with and without amalgamation, have bo*n pulled at a constant rate of darormation (10%/min) at temperatures from -200 to +200*C. The p1naticity (limiting crystallographic slip) and strength K a (pct )1/2 where the critical normal strain and t the cr tical shear Patrols 0 1 in, are plotted against temperature. It seemn that the differences or* connected with the ,groater strength or tho planing of dislocations in amalgamated 'Card 1/2  5/07o/63/008/001/011/024 The temperature at which 2132/946o crystals as a result of the absorption on to the dislocations at atoms of fig. However, the matter to not simple on4 it may be that Jig only-fixes dislocations near growing cracks Into which HS atoms penetrate from tho surface, the effects In the bulk of tho;materlal being aniall. Similar phenomena have boon observed with Zn V.0 crystaAs coated with Ga but an accompanying development of plasticity dAd not take place. There are 4 figures. ASSOCIATION: Inatitut fizicheakoy khixdl AN SSSR (Institute of Physical Chemixtry AS USSR) SUHMfTTED: February l4$ 1962 Card 2/2  SHCWXIXs YO.D.1 XOCRANOVAo L.A*j PIMOV# I*T. I Temporaftrwdepandant transition from brIttleness to phati- city under sanditions of the adsorption *ffoat of reduced strength. Xrist&UografBA 8 no,1&69-74 ;&-T'63 (MIRA 17t7) 1. lhatitut f1slobsekoy thJuji a am   A -A? cooe i uit/0126/63/020/W/0555/05 AUTHOR., -Le A,-1--lanosInA, _x_Nj shelmAla'--ye. M; WhCOM-11- f r. fy 77 41 -Tr ORG: Institute of Phystr&I QWgiry An SSSR (lastitut figicheskoy khtott AN USK) 00r.r TITM Use of amul.sification for rtflning the stigetuto of allolp with a limited solubility of co"mients in the liquid otate- ;!r Il RC1t"ft-Lka__v*t a "7-j__met*lI6vW*nt ir. :20s_ not- TOPIC 1A4$ t 1 -L A 16 _.i Wail' O!Opp v bra haft:4 tv ,J! -I ~o* 0 ~ ~- - - to Wan-carri ~ikie4ttk: U, T "CM11 bilk A WAWZ.W. vat thik''4" ;4A 4M jielj~4- fij 4 t, asaft of :pW water tt", raft" U 00 %tsa at, 41011.0 wig try I1i 11 d of metal possibUlty of tt*16 actenco re Lc-cro-4/2 owl -548.2  L 10771-66 ACC We Ap5027140 FC,C-N such as ~1 Cu. such 4 T&#>'Ukn8 nickel $ad.lp --ss,the.third compommt in Order to lot to lower the interphase tengiol It. Orig. &rt. bee,Ip4 figures. (AZI I SUB CODEI II/ SUBM DATE: 2*iikt64/ ORIC ARIPI 003/ OTH AM 002/ ATO pMS3  IN,m M 71 ';g ~a~,v ~"A' MCI% A N M WE w wm 71~ "n unaccOmpanied bv a  --4 VA. A ALUIM-A S I Te Ed#- 7tl la 112 IL rjFi equ va e F: o I wl thIn dp r! I -1  #- , /1, I . - ~ -V , I 1711R~K  As ArCM!ZTn-- IM- LP50016k.4 Znnonina, 7 proparlIng alloya  . F - , . i a it hor ~ 2 f udicid Lh-a an& a I .~ i : i r. , ' ,, . I - . , -.- I A - -  L;4--- -- -- - .-,-   04  3/1-91/60/000/(jor,/0, Wo;'(i W 0004/BO64 AUTHORS: Taipse, L. Ya., Sokolov, A. D., Kochanoy Lyakina. Z.N. TITLEt Molding of Products Trom Novolak Molding Material PERIODICALi Plastloheskiyo massy, 1960, No. 5, pp. 67-69 TEXTs It is the aia of the present paper to raise the efficiency of pres- ses by increasing the molding temperature for the Troduction of materials from novolakzolding powders of the-K-15-2 (K_ 15-2 , K-17-2 (K-17-2). K-20-2 (K-20-2), K-119-2 (1-119-2), and K-118-2 (1-116-2) types, The labo-- ratory of the zavod "Karbolit" ("Narbolit" Plant) d8veloped It 1938-1939 a procedure to render molding possible at 175 - 185 C with the molding material being preheated. Ex9erisonts with material preheated in a high- frequency field to 100 - 110 C shoved that the product"No. 3388/1 (safeSY cartridge), 46 an high, wall thickness 6 me, can be molded elk 205 - 215 C, and the product No- 3388/2 (incandescent lgap socket) 28 an high, wall thickness 4 am, can be molded at 215 - 230 C. Thus, the time of 2olding was reduced without any change in strength, heat resistance, and water ad- orption. M. 0. Gurariy is mentioned. There are 5 tables and 6 references: Soviqt and 1 British. ar Wo, VO N 1_1 ltofxx: 1~N  (MXZL'l P.A*j prof4s otv* rod.1 HATMUK, L.S., kwd,, sellkhos. aw*, %am. red.; D1109 N.A.# M, (dooessedli DIRSAA1.j I.G.9 doktor soVkhos. nauk# red.1 YAROSMSDi Morop daktor biol. nmk# r*d.; ROVARSM 9 A.To.,, doktor sellkhos. naukj, red.; ZUIXUV,,A*Aog doktor mod. mukg red.; PRINTSP Ya.1.9 doktor biol. nauke red.j GIMM, T.S.# kand. biol, rAuko red.1 IYAWYj S.M.p kwW. bil. rAuk,, red.; USMSXIY# Q#A.p kwO, biol. vaukj red.1 GIRGUMMOV, A.K.,g kan& tokbn. nsuk,, red.1 FITOVA#.L.9 red.; XWAKINAp L, rodel XOCHAVM, N.p red.1 MIFIS, V.,p tokhn. red. [Papers of the Uni'tod SaisnUfle Session of the Department of Biologidal Soiences of the Acade:Y7 of Sciences of the U.S.S.Re tba Department of Agriaultu-9 of the VJ.Lonin AIIAnion AwdoW of Agricultural Solences and the Moldavian Section of tta'Acadow of Salomon of the TJ*S*S.R.] T2-i* obwedinenooi nauabnoi sesaiii Melanin biologicheakikh nauk AN MO Otdolonis, sexledeliia VASKMIL, Moldavskil, filial AN SM. KiishineT. Kartia Moldvimniaaks. Vol*2. 1959. 483 p. (MIRA 150) I* Ob"edinsansys, mohnqa aseslyal Kishonev, 1957. Zwestitall "ezika-vokre"a Otdaloniya biologichaskikh nauk Aktd*MU nauk SMR (for Gonkol'). 2. Doystvitel'My chl*n V8000YU= aka- domil eel I skokhogyaystvemVkh nauk Is, V.1.1anina (for DiM10. (Moldavia-Agrlcultural researah-Coom goes)  OZAWA, ~9*1*1 ITAWTA, I.N. DquIlibriun to systems Consisting of Isonorphic sohonlto-tM oome, ponents, and a thernograpbla study of double salts and their isonorphic mixtures. Test. Xosk an Sere 21 Div. 15 no.403-35 il-4 160. (KM 13:9) 1. Zafedra obshohojr kblwU Xomkovskop u2dyeretteta. (Systens (Chemistry)) (salts)  S/i53j6O/O03/OO4/O1O/O40/kX .B023/DO54 AUTHORS: Chirkov# S. I., 'Braynina, 1%. Z., Xachanovs, 0. V. TITLX: Use of Polyvinyl Alcohol iv Polarography PniODICIL: Isvestiya vysshikh uchobnykh savedenly. Xhiaiya I kbinlohoskaya takhnologlya, 1960, Vol. 3, go. 4, pp. 600 - 603 HIT: The authors studied the offset of polyvi nyl alcohol on the r*- w/ duetion of Cu-, Cd-, and Za tons on a dropping mercury electrode from A chloride ammonium solution. The investigation of the applicability of polyvinyl alcohol for this purpose was suggested by Professor A.A. Tag*rj who in thanked by the authors. The studies were conducted on a visual polarograph of the YIAH(UPAN) system* The amperage was measured with a reflecting galvanometer of the typo M-21 (M-21). The potential of the mercury electrode was measured by the compensating a*thod referred to a saturated colonel electrode. This calomel electrode, which was oonnoot- ed with the sleatrolyter by a low-resistamoo electrolytic bridge, served as anode. The mercury vat previously distilled in vaouo. All solutions ftrd 1/3  use of Polyvinyl Alcohol in Polarography 8/153/60/003/004/010/04 B023/BO54 O/XX w;r;,prefared with doubly distilled water. The salts of the minerals a u ed copper-i oadmius-, and stuo sulfates) were twice roorystallis4d from the doubly distilled water. After previous avelling in a small amount of water, the polyvinyl alcohol(mcilooular weight 25,000) was dis- solved. The cations were polarographed ov a ehloride-assonium background (1.51 NH C11 1.5N is OH) with an addition, of 4.0 9 of crystalline sodium aUlf1te in 100 ml of4solution. The ammonia -was distilled In a glass ap- paratus. Ammonium chloride and sodium sulfite were recrystallized from doubly distilled water. Figs. 1-3 show the results. The upper curve (Fig.1) has two maxima whose character has not yet been determined. Poly- vinyl alcohol suppresses current maxima on all curves studied. A table .shows that, In the presence of polyvinyl alcohol, the reduction of oop- per- and zinc ions on the mercury *16otroi* proceeds irreversibly. The reduction of cadmium Is not so much influ,enced by polyvinyl alcohol. There are 3 figures, D1 table, and 5 reforisnats., 2 Soviet and 2 US. Card 2/3  go* of Polyvinyl Aloohol in Polarogr&phy S/l53j6O/OO5/OO4/010/040/XX B023/BO54 ABSOCIATION: Urallskly gosudarstvennyy -aniversitot, in. A~ X. GorIkogo Kafedra analttich#skoy khijett (Ural State Untyersity laeni A. X. Gorikly, Department of Lnalytical Chemistry) SUENITTED: November 21, 1958 Card 3/3  7WN,Ylu., ref.; ROOMOVA,Y*#Do, ref.; MAEM,O-So, rof o Prom the pages of Journals, 18amt 21 no.4i29-32 A&155. (0essat Uftstrlos) (MM Bill) . r . I ~ I "  IDCRAMA, To.B. I.. MABKt I O.S. 0~, &,0* ~;- - Cement laftstry in the Valtal Btaton: from the "a of foreign Jourwdes 100mout 22 aools28-31 Ja-7 156. (UMted States-Cavent ladustries) (XIMA 9s6)  WOMMU, TOOBO, Inhour. Cement Industries In France. "event 22 so,2132 Mr-AP 156, (Frasoo-Comeat Industries) (XMA 9:9)  10CPANOVAS Yell', inshanor* --- - - osmat WUNUT In amdoze ?a""% 23 A6.1130-31,44 057. (Swado"owat Industrios) (mm 1014) . I o  ilA~HI,KiA. YO.A., I.nshener. % Iffent c,f vooltn7 -nditions crushing (from no.4.-IJI. Jt-Ag 157, and minerAlogIcAl coomosItion on clinker Zeitung" no. 1/2. 1957). Useent -23 NLRA 10.11). (Cement)