SCIENTIFIC ABSTRACT ZYCZKOWSKI, M. - ZYGADLO. R.

    P/oOy662/016/003/004/006 D D237 D30~ MMIORS: Mrowiec, bliecz slaw and 2yczk weld , 'Xichal 0 TITLE: The elastic load carrying capacity of a thick~-valjed pipe-line PERIODICAL: Rozprawy inz*ynierskie, v. 10, 0' 3p~ 19621. 517;5310 n TEXT:. This is a generalization of - 11. 11rowiec's earlier .,,work dealing with a thin-walled pipe. Three cam'es are considored: freely supported pipe, end-clamped pipe and -a cylinder closed;at both ends, and all atre treated collectively by introducing p respectively into the expression for the axial stress. The V 9 2 upper bound of the equivalent stress 6 is found assuming the' Huber-Mises-Hencky hypothesis' and it isoshown that it'can be. reached at the inner or outer radius only. The limit curves are elliptical area in the 14v.p coordinate system where H a bending momentV pa ;internal pressure. The dependence of the limit curves on the,wall ethickness and on the parameter - (p is shown graphically as well as an example of the pattern of equal 6 in a,cross-section of the' 0. Card 1/2     ZYCZKOWS (Krakow) Creep buckting of bars with disconiftWUs trailoverse non- homogeneity. Archiw bud masz 8 no.3s299-316 16i,  P10061621010100210,011100 D286/D308, AUTHOR: ~Zyczkoviski, Michal ----------------- TITLE: Computing the exertion of material in suberitical states PE'RIODICAL: Rozprawy in~ynierskiep v. 10, no.: 2j 149629 279: 364 TEXT: This is a continuation of the author's previous papers.(Roz- prawy in~ynierskiej V* 4, no, 8j 1960p and V-:4, p0. 9p 19611) and contains 6eneral methods of calculating the degrde,to which.the:phy- sical state of material approaches, a darWerouo! point. Solutions,' are obtained for the surface integrals usedin the formulas for,:thq mea- sure of material exertion in sub-crit1ca:1 states.,Two-dimensional sprace of exertion factors is considered by analyzing the limit~cur- ves composed of rectilinear segments and for which closed-form,solu- tions are obtained using geometrical and analytical methodst thus enabling the solution of problems of plane stresslor of one princi- pal stress variable together with a change of temperature or humidi- ty. Similar solutions are also given for the limit curve in the form'-: of an ellipse and a parabola for computing cases where stresses and Card 1/2  P/006/62/010/002/001/001 Computing the exertion of material D286/D308: temperature act simultaneously. The'influence*of.th6 distribution of probability density assumed on the results is.st%died and analy.-. zed from graphs and tabulated results, There are 11 figures~and 7. tables. ASSOCIATION: Politechnika Krakowska (Cracow Polytechnic Institute')'~~"'- SUBMITTED: September 17, 1961 .Card 2/2   ZYCZKOWSKIY Michal (Cracow) __~r_ee~ 1;~~iling of continuously longitudinally non-h6mogeneous and non-prismatic bars. Archiw insch 13 no.2t#3-237,161. 1. Departmebt of Mechanics of Continuous Mediat Institute of Basic Technical Problems, Polish Academy of,Solenc6sp Warsaw, ,q ,  ZYOZKOWSKI, Michal (Cracow) ...   W  211260 ,dO/008/004/0"07/PIO OOY6 11265 D303 AUTHOR: iyczkovskig ifir.hey TITLE t Exertion of material in sub-critical :stateis 1,ERIODICALs Rozprawy iniynterskiep To 81 DO'*, 42 l960, 725-761 MXT:' The author analyzes the exertion of mat!erial7 defined ai'Ahe~ degree to which the physical state of material at a given point approaches the dangerous state such as the elastic limit, the yield Voint or the~ult.Jmate strength. Sub-critical states are considered, in which the elementary measure of exertion UJ was assumed until recently to be the effective stress, or the ratio of this stress to its dangerous limit in the case of pare ten- sion denoted by K and described by (r0 too (1.3) and fro. Wo 17r.. ro. The geometric representation of these values is illustrated in Fig&I Card 1/6  2826o 1/00(;/60/008/004/007/910 Exertion of... 1)2GS/b303 where UP (1.4) We After analyzing extensively the existing hypotheses for the exertion of materialt the author concludes that this elementary meaisure criterion im- plies the possibility of reaching bie limit surfitce at one point N Onlyp 0 and is -valid for proportional'loading. The notion of a general measure of exertion vi is introduced and defined W - (3.3) _95-107UP) and SS (I Ire) Pllf'P IN (I KV where the probability of motion of a point in various, directionsz of the space of exertion is taken into consideratinn as shown in Fig. 2. The practical importance of such a definition is illustrated bly considering ths, sub-critical state in the pre-stressed concrete4: The vje,i ce w. takes into Card 2/6  2626o P/006/60/008/004/0~0/0110 Exertion of... D265/11303 account other factors influencing the exertion such as tempera tu ee, or humi' dity, besides the principal dangerous states of stresses, which are eon- sidered in the elementary measure r_J In fac+oo~:vlien~represented-in.ilada- 0 mard's notationg the. integrals appearing in Eq. (3.4) concern a :ii7dimien- sional space. When the probability.p depends on the direction in the,space of exertion factors only and does not depend on the location of the point P, the general formula (3.3) takes the form SS (I Iro) pdf~-" w= (3.5) Oir- Kj. and after iteration in spherical co-ordinates the, ro m. dPn_2 sinn-2 IN 41 sin 1P._%dp,mf P (n, J, r0 (Tip TZ, -'P.-I) W=1- sire-29,jilp, ... in p._jjd-p._2f P (PI, -1n.1, - - fS ri (Pis 972, IPAA Card 3/6  28260 Exertion of... D2,65/1)303 Examples are given for computing th .e exertion by~,Using formula (303) for tha two-dimensional space of.the exertion factors when the limit au rface in the form of Huber-Mises-11oncky's cylinder given by )2 + 2 6 3)2 + 63 2 2K, r and for the case of one-dimensional space of the:'exertion factors when the limit surface is assumed in the form of Burzyinskils paraboloid ia given by 6 2 + 3(Kc -.K 6 (2.12) r m IIcIIr 0 The exertion is also investigated in,the case of: two point distri Ibution of probability in a one-dimensional space of exertion factors. The,results obtained in these examples are tabulated and represented in the.form:;of graphs used for investigating optimum initial stresset; 'and minimm material exertion giving a certain appraisal of the advantages; of the us.- -of such a,tresses. There are 8 figures, 5 tables and 74 references: 39 Sovie.t-bloe and 35 non-Soviet bloc. The four most recent references to the English- Card 4/6  28260 P/006J60/08/004/00T/010 Exertion of... D265/P303 language publications read an follows% P. Duvez, Itatbriali -for High tem-'. perature Aircraft Stmetures, High Temperature EffecU in Aircraft Stmc- tureag Pergamon Preass 1958t 58-TO; A. Kellyt C. Chiojt~ The' Temperature Dependence of Flow Stress of an Age Hardened Alloy, Acta. Metallurgical. V, 91 n0.-6 (1959) 565-571; B. E. Gatewood, Thermal Stresses, McGraw-Hill, New York 1057; L. W. Hug An Experimental Study on the Fracture of Metals under Hydrostatic Pressures J. Mech. Phys. Solids$ vs 29 no. 4, (1956)1 96-103a A3SOCIATION2 Zakjad mechaniki os"rodko'w cilglych IPPT, PAW(The lnstif;ute~ of Mechanical Continual Media, IPPT, PAS) SUBMITTED: April 239, 1960 Card 5/6  P/033/60/012/003/007/007 2-4.4 1z" D242/D302: AUTHOR: Zyczkowski, Michal (Krak6w) TITLE: Geometrically non-linear creep bu,ckling.of bars. PERIODICAL:~Archiwum mechaniki stosowanejt v.-12v.no. 39 1960f~ 379 - 411 TEXT: The present paper is connected with the,first,approa,ch to creep buckling - the analysis of deflections of an initially curved bar. The author proposes to clarify the problem from the view point of geometrical linearity. For this purpose he first 'considers the infinitesimal linearity. For this purpose he.first considers the infinitesimal small deflections of Wagner'somodel which is.ra very simple model with one degree of freedom and was introduced~proba- bly for the first time by H. Wagnerp G. Kimm (Ref'. 37: Bauelemlente des Flu zeuge (Construction Elements of the Aircraft), 2nd'ed., 1942). Ris model is shovm in Fig. 1. The author assumes the follo- wing relation between the torque M and the.angle of twist cp, por- Card 1/12  28126 IV033/60/012/003/0,07/00'7 Geometrically non-linear creep D242/D302 responding to Norton's creep law (2 2) + TB where A and B are constants, corresponding to B and A, respective- ly. For the sake of simplicityp the author as'sumes n to bean odd integero In the physically linear case n = 1, thei:author obtains 1n cp m T + a (2~010) m where T - dimensionless time. The constant 0~~must,be found:from the initial (boundary) condition. Assuming cp= 0:1~for 1r.-:0 (mat 'hemati-. cal. buckling)v one should obtain C = - oo and no deflections except m = I (Euler force). The author then briefly :discilv-ses the :case of a small initial deflection (technical buckling) which he states is much more interesting for practical applications. He states that in the linear case the angle of deflection increases infinitely with infinitely increasing timet whereas in the non-linear.casb it increases infinitely already at the moment Card 2/12  28126 P/03 60/612/003/0017/067 Geommairically non-linear creep ... D242YD302i -T Tk m M)11 (2.18) _ 1)mn cp+n-1 n-1 n (n I)mn: CP the quantity -rk is called the critical time.or working perioe~ of the bar. He mentions that he introduced a contradiction by~aspuming the small-deflection theory and considering infinitely large de- flections. In order to clarify this contradiction he then analyzes the same problem, using the finite-deflection theory. In this,con- nection he gives several numerical values of,'the function wl(T) and W2((P) for n = 1 and n = 3p and compares numerical 7alues of finite deflections of Wagner's model with those of infinitely small de- flections of the same model. In Fig, 2 the author gives a graph comparing deflections of Wagner's model for h = I and n =~3, for both the finite deflections and the infinitely ariall deflectionsp whereby the latter are denoted ? to distinguish them from the:for- mer denoted f. The diagram shows the relations f f(T) and Card 3/12  28126 P/,033/60/IP12/003/007/PO7 Geometrically non-linear creep D242/ID302' r V-r). The author then discusBes briefly th6 idea of "critical time" from the theoretical and practical.point of.view. Fig. 2 shovis that the finite deflection:theory gives no.significait dif- ferences between n = 1 and n = 3 over and above a more rapid de- velopment of buckling in the latter case. Therefore, those'diffe- rences are entirely fictitious and the idea of th 'e.previously de- fined critical time seems to be without physical sense. An,analogy exists with ec6entrically compressed elastic:bars' where infinitely large deflections are found when the Euler force.is acting:and the small deflection theory is used. Howeverp the Buler forcehas,an extremely important meaning for axially compressed bars. whereas "critical time" T k seems to lack even minor interpretationo! The practical point of view is somewhat different. For n = 3~(physi- cal non-linearity) where T approaches T the deflections increase k very rapidlyy and the real working period of,the:bar is in fact close to T In this case, T presents a criterion of failure' but ka k vor n 1 there is T --)~co and the real working period is undoub- k Card 4/12  28126 P/033/60/012/003/007/007 Geometrically non-linear creep D242/D302. tedly finite (in the present case,it is a time of~order T =~2)o Thus the weaker the physical non-linearity, the greater the:diffe- rence between T and the real working period.~The general criterion k of failure of a structure.subjected to creep buckling should be chosen in a different way, for instance as a criterion of limited deflections or a criterion of limited strainso In the case of strajg- ly non-linear materials both criteria will give similar results., The quantity T however, must be used with the greatest cautions k' and in physically linear cases only a deformntion-criterion may give correct results and be used for design.1n his discussionp the author ther. studies the real bar and considers first the finite deflections of a phYsically linear bar. lie states.that first the elastic deflections, which appear immediately when the loal is, applied, whould 1~e calculated. The author then discusses creep de- flections$ first in the physically linear case, E + (1-3) Card 5/12  28126 Geometrically non-linuar creel) ... D242/D302 lie considers an element of an initially curved bar (Fig. 3). For the discussion he uses Bernouilli's assumption of plane cro.as- sections. He obtains the basic equation of creep bending M + X BI (4.,9) where dots denote differentiation with respect to.To He uses this equation in all further considerations concerning~areep buc 'klingg the influence of normal force being disregarded. lie then consi- ders a bar with one end clamped and the other free, for which he assumes a system of coordinates s -v and introduces dimensionless variables xj y, defined by the formulae 2L V (4.10) x Y'= 21 21 He obtains the following non-linear partial differential equation of the third order k"(1 - y 12 ) + y1y"YO, + M(y + Wl Y, 2)3/2 0 (4~14) with the following boundary conditions Card 6/12  28126 P/0~3/60/012/003/001/007 Goemetrically non-linear creep D242/D302 00 /y, ;(4-15) /Y/X=O 1x=Se12 and the initial condition (x) for -r 0. (4il6) Y Y+ For solving Eq. (4.14) the author uses the aimple.mothod of.'Oollo- cation because the approximate methods would:be very difficult~in this case. He assumes the~solution in the form corresponding to elastic deflections with the p ameter m replaced'by a functions of time, which he denotes by 45, thus 2f2 sn(2ax) y = -f IT1 - a (4016) an- (2ax-Y where a = a(,r) and f = f(T).are two unknown functi6nsof time. In the further diBCUSSiOn the author then also pointb out that the moot important point x (or line in time) is x = V12 (fixed end.) because in this point both bending moment and curvature at~ ma- ximum. He includes several numerical values for the various func- Card 7/12  26126 033 6n 012 P/ /003/007/067 Geometrically non-linear creep I)2427D~621 tions used in the~calculation. The author th;en:di's!:c;u!sses the. case of finite deflections of a physically non-lin6ar bar, He starts with the general case of Norton's law (1,J) a~d limits himself to the theoretical I-section. In his, discussion tie obtains the.follow- ing non-linear partial differential equation ~"(1-y`)+y'y'T+tn9(1 :y'11),1,*1+ (5413) + Mn ky + + (Y n 07--i-ir] (1 Y'9 )T =0. 2 which, in a certain sense, con&t4tes a generalization of 1:4. (4-14) (more general creep law, but less general form of:cross-section). The solution of this Eq. (5,13) is obtained with boundary d6ndi- tions (4.15) and initial condition (4-16) by help: of the coiloca- tion method. The author points out that the de Ivelopment of 'creep buckling in the physically non-linear case does not differ qualita- tively from the physically linear case, and the differences pointed out in certain papers should not be treated as essential. There are Oard 8/12  28126 P/03%60/012/003/007/007 Geometrically non-linear creep ... D242 10 figurest 7 tables and 44 references: 17 Soviet-bloc and 27 non- Soviet-bloc* The four most recent references. to the English--;langua- e publications read as follows: B.J. Rofft Oreep buckling, Aero. ~ uart. , 7t 1956, 1 - 20; J.Lo Sanders, H.G. McComb: Jr. t e.R. Schle- chte, A-variational theorem for creep with application to plates and columns, NACA Tech. Note 40030 07 1957;3-j. Hoff, A survey of the theories of creep buckling, rrogpf Tbird US Nat. Congr.',Appl. mech. p Brown univ. 1958, pubt Pom-R"m Prove: 1958;, M- Zy6zkowski ' ' -; h6%dgdMWO Some problems of creep buclatif� 'q g,- and non-homogeneous bars, in "Non-Homogeneity jij tl"-ftdj~ty gjj& p2"ticity", Symposiump 'Warsawp September 2-9, 19%. ker,&;tdii. ptej~,~t ff*w York-London 1959# 353-363. ASSOCIATIONt Department of Mechanioo OC 94Att-muous Media, IBTP Po- lish Academy of Sciences SUBMITTED: February 13, 1960 Card 9/12 -`4-1'  zrczxowsxi, M. Stress in working materials at the subcritic~ stateo W Ac Pa;Aechl 8.no-7:333-341 160. (EW 100Y 1. Ahstalt fuer Mechanik Xontinuierlicher Medien, ImUtut Ner G-rundprobleme der Technik, PoInische A6demie der Wissenschaften Presenj 'Ra'i-InAThAer-s =e sT  V a, till ""mom  ZYCTICUSKI, N. !PIUK, 14. The influence of a weakened bar on the critical force in an eleastic plastic mnge. p. 311. ROII ,,,P%-I"qy (Polska Akademia Nauk. 'InstytutR6ds-ta-vrowjch Problemow Techniki) warsmwa, Poland.. Vol.7, no.3. 1959. Monthly list of East European Accessions (EEAI) LO., Vo1*9., no.11 Jm- UZ Uncl.  0- 1 ~T d 1 J:~ 5778 _ZyezkowiA4 wt. ThIr t"fluence of thp I~64 9~ the Stress DIstrilisil4a fis ,Wptjnw .4cI1UWqAoi motor)Alu ta rl.~_LZ lVapmiciv; W 'Plylach* zqiclowo uplastycmaonych", Archiwuim BUdowy MAWY41 li$'AN).. 1;('X* 1,1; c W.Ir"a-wa, 1958, pil" 53~1.67, 15 flits. i -The solutionti Ql th c* tkieovy~ of Aimtlii-I)Listki plq't~ 1~1 dev I jk-& chiefly . by A._.A.._jtt1thIj and LK, W. SoltWayskl are' u6d f6f jha most part 'on the assumption of noq~-;curnpresslwll Y lit, ern~i lli~lat! bDIh In the elastic R114 ille PLAIC xOne. Tlw 0.1rens dit-41114tion 14 tli-mi a trapezoidal one, 'ind the relations biotrwmii tk 1) endink 1014 iin(l, the main curvatures of jhe~ plate are partlcular)Y simpl-t- The ect: of the present papee 13 to analyse the eriect. or lite V11)111Prc411;11haY! tjoh and t it of the material on the %tress distriba 0 . W 4i lgaW i the advisability, of Introcipcing ~the assumption, of , non-cvOol 4salbliiy i of' the material In calculating plates keurring, )n practipal itppl~411413 he Pols3on ciaeflick-4 i~l 1;' !.e. plates for which, as a rule.. t I -own that In the el vr~or 4uscid i is-sh as Itic. zone It ite y. relli Ing a compressible material.as a non-compresiMe (;no tna~, 1 tlxccl,;~ Of.' of the Intensity, of -the stresses. In the plastie- zune~ lh1s.e&r dc"Laivs, and tends to zero when the corrylsw capacity of 4he plate;lk exhauslOd. The solution for the plastic zone Is obtalneld by'the n%4AN)d of 4matl, Parameter. This p3rameiler,: charachirizing cnmpremjb~41y, Justified In the text,' been laken to be. u 1-4 v. iriid papei ~Iso! c)41ves,the dependerrice of I he hending: rwmnz~"W an tile; ojl~vatuNll   WASYATSEV, P.P,; CHISTYAKOV, 9.1.,doktor tekhnicheakikh nauko professor, rateenzent; UUMAN, B.O.,Inzhener. retsenzeftt; ZYDAKIN, A.L, inshener, redaktor; MYANSKAYA, F.G.,isdateltpkiyl ZURMIN, I.N.,tekhnicheukiy re4aktor (Control and adjustment of unite.of aleatronicapparatus] RegulirorkA i na'stroika blokov' radiotakhnichaskikh ustroletv. Mook-va, Gos. ixd-vo obor. promyshi.. 1957. 106 p. (MLRA 10:5) (Alectronic control)    ZYMM-rSKI, M.,- VIALCZAK, J. A new method of computing the dimensions of bars with c6n'siderable curva ti.ireso' p.23. (ARCHDIUM BUD014Y MASUN. Vol. 4., No. 1, 1957. Warszawa Poland) SO: Monthly Li3t of East European Accessions (UAL) LC. Vol. 6, No. 10, October~,10,57. Uncl.  GALOS, Marian; ~YIIZKOW~11 c I (Krakow) Analytical method of computing the limit load carrying capacity, of bars subject to torsion. Rozpr inz PAN 12 no.2:267-296 164. 1. Technical University, Krakow.  ZYCZYNSKA. Irena; UJMIICZAK, Rufina Stella The neutral components of lupine. Pt.l. Rocz,Aemii 37 no. 7/8: 757-763 10. 1. Zaklad Chemii Organicznej i Biologicznfj,~Icademia Modyesna, Poznan.   icat' 'of d ilon t oi"t~lih too A p mottlent z 443=tm. -- f im lvarwa w dsk (pal ' 2 k Cal ind 14him l ~ q tz ' . 61-70( * ~E H lsbh squt %5~7~)(Hnfl ' ? z0 7%h e nd Ac to, zo en t of nltrobcnt~ne pole - ~;- tur e l o ~7w wmq u he e d td I U - ' ne w e . rent A us I so n r . gi n p t ot C#H# s3 td. with 11,0. TIm vnlum 3.03, 9.010).;11 1 YesP., alf-.tLO-01. wem obtalud by extia" - : 'Gu , -~ I h lfti S i h - .' e ggen w t and UPL vre4fae. sttckl J4 0 t% t  Ca 0 UTt`l Poland AM. JOUR. RZKhm., No. 21 1959, Fo.,~ 7577a AUVOR tDomagalina, E., Ludwiczak, R. S.t and! Zyczynska, ~L R*-! _-ST . Not given T i L :Beta-Sitosterol from Tall Oil Prod'ucca in Poland 0*~Rla_ . PUB. :Przemysl Chem, 37, No 8, 540-542t(1958) A'~233YRACT :The Importance of tall oil as a valuable industrial 6ource of phytosterol. Is diaouss~d. The physicstL proverLies of Polish ST Grade tall oil have been- determined and a convenient meth:d for the extrac- tion of phytosterol, a raw material for the pro-, duction of steroid hormones, and!a inethod for the, purification of beta-sitooterol. are given. Frow authors', aummary 211   X',"D A ICZ Jozc- f', dr. ITE FA N KDV I CZ, Zdzisl a w, mgr in-t. Fast operating bzj~& imNlse ronintaric relay f or rerote-controlled protection of w jp- high voltage natworks. Przogl olaktrotachn 41 no.2i49-53 F 16~t wi  ZYDANOWICZ, J "Universal diagrams of impedance and admittance for the analysis of the performance of distance and directional relays during faults." p. 289 (Arch1wum Elektrotechniki Vol 7, No. 2,,1958, Waraaw) Polarul) Monthly Index of East European Accessions (E1AI) W, Vol, 8, No. 1,,Jan 59 1zw T 7 1 1:1 M) ! fl,  KIMp N.V.; BITADZE, YE1011LOV, B.F.; 7,YDEnL:t A I.; "SIUMV, j - 2-1. - - " A.P.1 LAZAREV, 14.1N.; MILtAWYLTO -D. .; BONDAH17p P.D.,, kand. tekhn,, naukp nauabMy red.j OBENKO.L.K.) red.i7A-vla; RODIONOVA,V.1-1.) tekhn.red. (ErectioD of foundations underperwafrost conditions; from practice used in the Norilsk rogionlVomedonie fundamntov v usloviiakh vachnomemlylth gruntov; iz opyts. Morill nkogo raiona. VloskVaj, Gonstroiizdat., 1962. 53 P. (VIM 15!9) 1. Russia (1917- H.S.F.S.R.)Krasngyarskiy 6konomicheskiy ad- ministrativnyy rayon. Sovet narodnogo khozyaystva. (Foundations) (liorillsk-Frozen ground)  U C0.721) Th in children r6o halrn. survived tb meningitis Probl. Tuberk. 1951, 3 (8-11) Nearly 80% of 226 children who had survivod tb menimitis 4,uniaimd in good heal th U and cnuld continue noma-1 school attendance. Relapses, ocm.irred In, 15% ant". othe: foyms of tb (chiefly in the boncs) in 5,L Todorovic HoLgrade 7, 81 .1-5) 'j'I j'T SO: EXCJ~HPTA 1,2 DI Q1 vol- 5 No July 19 2   BOJANOWICZ, X.; KUZMICKIp R.; ZYDOWICZ, L. A. rare case of Ascaris lumbricoides in tho'urinsry tract. k4d. parazyt.8 no.5:535-538 162. 1. 1 Klinika Chorob Wownetrznych AM, Lodz.; (ASCARIASIS)* (URINARY TRACTJMCTIONS) -ilig v~' ki"I IM! 1-30 ;!l1 711    CHOJNOWSKI., Joief Ryozard; ZYDOWICZ, Luejan Dispersion phaae during erythrocyte sedimentation, Fol. tyg. lek. 20 no.26:956-959 28 je 165. lo Z II Kliniki Chorob Wewnetrznych Wojskowoj AM w Lodzi (Kierownik: doe. dr. medo J.R. ChoJnowlski).- A! i I   ZYDOWO, Jan, mgr inz. The Research Center of the ShipbuildingIndustry of the Central Ship Design Office No. 1 in Daniig. Bud okratowe Warszawa 9 no.4all2-113 264. 1. Deputy Director, Central Ship DAsigning Office No. 1 for Scientific and Research Problemaq GdanBk.,.  MOZOLOVSKI, V.; ZTWWO, M.; KALINOWM, J.; KOSMOShau. ~Z. A characterization of the blood-serim in the newborn child, in the parturient woman, and in the healthy non-pregaant vo-n. by means of refraction, viscosity and specific gravity, Bmllo internat. Aced. polon. sc. Classe med no.1-10:65-78 Jan-Doc 50. (CLML 20:8) NEW AXMMOMMAMM~  ZYDOWO, K. -Satural ultraf iltration of blood in mau cau.asd by changs,iA-posturs. I'- Calculation of refractive indem,and specific gravity..qf ultraliltrate. Polski tygod'.1ek. 7 no.223697-,100 2 June 19$9. (CliG 23-.2) If Of the Institute of Physiological Chismistry-Wead--Prof. Vlodimiers Mozolowski. M.P. of Gdansk Medical AcadeV.  Symol lWqWtf4a, of bloodL morm'Aul s4ted amt -16onatLmd. Pol*kl Vapor Uk. 8 zo*44: VM4600 2 lov. 1953.0 -.5 Is Of the, Institute of Physiolocical Ohma U~~'U7. ftof'*Wlods laws - *iolowgkl~ XA )'"a of ~ t6 71rat IAtorma OlInle '(Riad -Pr6f-&: WiLilin-4maklo K.D.)o W'A=k. 1441"1 A"d*W, r ~"i 'J I   f J).A A A.4 law* ; BILAWSK'# W'; OHM)[-B(MOM, S-; JUSK IOo J-1 )UNITIUS, A.; KIRO, R.; WOjoOjfsKj, 11. a *real' tt tat. Iffect of adrenaLin on certain biozhemical,chanp in a Act& physiol. polon. 5 no.4$620-621 1954,  ,2-'(Do UJ POIAND Pharmacology, Toxicology. Hypothermio Drugs, U-1 Abs Jour i Referat.ZhrBiol., No. 1 1958, i No:;332*. Author aZydowo, ZO Inst : Not gi-Ten Title 2Blood Seru;A Fractions. in Patients Treated with Largaktyl Ori Pub iActs, biochem.'polon., 1955, 2,No 4, 445-447.; Abstract iThe EBB and an eleotrophoretio'~s-fady of blooa serum were done on 20 schizophrenics treated with largaktyl. An increase in alpha 1: and alpha 2 globulins, a decrease in the albumin fraction and an increase In the EBB were. noticed in those patients -ho received over 150~mg of largaktyl per day. ThIss chw,.ges were not found in 9 patients who received smaller daily domo)s. Card 1/1   it ut!.44~  Affect of adranalin on protein level in human bleat.. Polskie arch. mod. wown. 25 no.1a:223-224 1955. 1. 2 7akladu chemil fiziols A.M. w. Manska;, ',tier. prcf. dre W.Mozolowski. (BLOOD PROTHMS, effect of drugs an .--epinephrine)--  1869. SERUM PROTEIN FRACTIONS IN THE PATIENTS TREATED WITH CCHLOR- PROMAZINE - Frakcje bialkowe surowicy krwi u chorych leczonych largak- tylem (chloropromazM) - Zydowo, M. and Kamifiski Z. Zakt. Chem. Fizjol.A. M., GdaAs2_-__P_6_L_._T-Ya. LEK. 1957, 12/15 (549-553) Tables 6 In mental patients treated with large doses (more than 150 mg. per 24 hr.) of chlorpromazine, a statistically significant increase of the &I -globulin (0.01 > P > 0.001) and a2-globulin (P< 0.0001) fractions was found, irrespeetive of whether the drug had been administc --!-,i orally or I. m. In patients receiving I, m. injet"ttons of the drug there were local Inflammatory reactions and a Wry considerable in- crease of the BSR (0.01>P>0.001), but not In those receiving even large doses orally. Chlorpromazine-RCI added to serum in vitro did not have any effect on the protein fractions. When added to blood in vitro It reduced the ESR, The changes observed In vivo are ascribed k. the induction of inflmmatory processes by large doses.  ZYD0140t M.-.,MA.KAREWICZ, W.; UMIASTKSKI, J.; PURZYCRA, Jadwiga Temperature dependence of AMP dean-1t)-tlon catalysed by muscle, extracts from homeothermic and poikilothermic animals. Acts. biochim. Pol. 12 n0-4:319-325 165, 1. Department of biochemistry, Medical Scho-),11 Odwask.     Z)[DOWOj 14.; FURZYCKA, Jadviga, ZELEWSK,I, L. The adaptation of amp amiuohydrolaea in rat.kldney~': to prolonged acidosis. Acts. biochim, polon. 9 no.2tn.p. 162. 1. Department of Biochemistry,, Medical SchooI Gda~sk. (ADENOSINE PHOSPHATES nietab) metab) (ACIDOSIS exper) (GLUTAWUIW~metab)     ZYDOWO, H. Adenylic acid and Menosins d~ Oamtrwsem in rsit kidney#* Aota blochimepolon. 7 not.2/3:215-226 160. 1, Zaklad Chemil Yisjologicznej AX.,Gdansk Klerown,ftt prof. dr Wl*Kozolowski. metaa.) (ANIDAJUS metab,)  PUFaYCKA, J.,l ZYDOWO, M. Deaninases.of adenylic acid and adenosine in rat tissues. In EngUsh. Bul Ac Pol biol 8 no.9:483-484 160.:'~ (EgAl 10t7) 1. Department of Pbysiological Chemistryt Sobdo,l of'.Modicineg Gdansk. Presented by, J. ffeller.~ (ADENMO-ACID DFAMINASE) CADENOSINE IDRAMASE)  POLAND/Bmin and Animl Physiology. Blood. v Abe Jour; Ref Zhur-Biol.., No 6) 1958., 26746. Author : Mariusz Zydado Inst : Title The Ef-Peet of Adrenalin on,the Protein Coatenti,of RUman Ben ut.! i. Orig Pub: Polskie arch tzed.:~ we"tr.i.1955, 24,~qO~ 223-224.~~' Abstract: The serum proteins -of,. 5 bealthy adults males, 20 -to to. rafmbtomtriv.: 31 yea rs of agavem.subjected; examination before and after the injecti6a of i Mg of adrenalin HC1; the specific gravity of 'the pro- t,eins was determined by the method of Phillips,and Van-Slykep viscosity with a KaUnov view 'Simeter; and total nitrogen by the Kjeldabl method. In &U Card 1/2   ACCESSION NR: -AP36io698 ~7:-~8/0245/63/600/065/0129/0139 AIMOR Golo de~sp R,1Gj; Zyegar ik, V *,Rublushteyn, S, Ya, IiTITLE: Clinical and pathopsycholo ical characteristics: of 9 hathenie at ate sdeveloping with chronic Jzradiation SOURCE:/ Vopros7* psilihologii,, no, 5$ 1963P 129-139 tTOPIC TA63: radiation siolmessp chronic radiatioli siolm'ess, ,asthenic-states psychblogicai test,, - mahtal, capacity# reduced mental~. :Capacity, f at igue., memory lobs, emotiorial instability$ personality change .IABSTRAOT; Clinical and experimental yeliologioal inv6stigations; Ps werp made of patients (digtorso X-ray teohniciano:,:~; and'liftborator 0 pert(onnel) o, in the course of eir -work had do,~~ loped chrbniol wh th 0 graduation siolmess because of inadequate Ysafety M~A~sures, In *~add'tion to varioU-6 physiological shiftsi all pationts wers found to 16e in 'an asthenic state. Patients complain~od of wbako6ed memo",* 1~inability to concentrate$ fatigue$ and,emotional lhat4bil#y. :Var ous psychological tests confirm these compl'ainto and clearl-jwlshoiv Card   L 31880-66 gw(m)/ETC(f)/EWP(J)/T D$/WW/RM ACC NR; AP6012534 AUTIM. Vydtankin, N. Razu ev, G. Ai Bychkov. V, -1. 3~3 ORG: Laboratory for Stabilization of Polymtrg4__&.g_ft i(Laboratoriya stabilizataii polimerov Akademii nauk SSSR), ;TITLE: Reactions of bis(triethylg~rm I SOURCE: AN SSSR. Izvestiya. Seriya khimicheskaya, no. 3,~1966,'562-564 JOPIC TAGS: organic synthesis, cadmium compound ;ABSTRACT: Two types of reactions are known for the bimetal organic compound, rbn- :taining Ge-Me bond with monobromo derivatives A n,GeBr + R,'NI (n.6c)it 31 + n W Br (2) .:Equation (1) is followed in2h2s_04act'ion of bis(triethylgermyl)'-mercuff Ld tris :(triethylgermyl)-antimony under the action of heat. Reaction (2) ~6 characteristic I .for triethylgermyl potassium, triphenylgermyl lithium and related compoxmds ~Card 1/2 541.14-i"  L 3 188o-66 ACC NR: AP6012534 ,Bis(triethylgermyl)-cadmium reacts in the same manner with alkyl bromide. Continu- ing the work in this field the authors found that bromobenzene (in contrast to alkyls-_ ,bromides) does not react with bis(trietliylgermyl)-ctidmium,even where the latter de-'i~-..-"~' composes into hexaethyldigermane and metallic cadmium. On the contrary, the photo- .: chemical reaction (1) proceeds very easily under ultraviolet light with b-.omoben- .zene, and produces triethylbromogermane, triethylphenylgermane,Aiphanyl cadmium and cadmium bromide. It was found that bis(triethylgermyl)-c4 dmium,and bis(triethyl- gemyl)-mercury react with Li(Na) in tetrahydrofurane with the formation of,tri- ethylgermyl. lithium (sodium) derivative. SUB CODE: 07/ SUBM DATE: 23Jul65/, ORIG REF: 004/ OTH REF: 007 Card 2/2  I - . 1, : :i :1 :i I I I I I i j~. - '! -- i. 1 , ~-- - -..J~I -- Hollimmk . i ; .. "  Poiand/Physical Chemistry - Thermodynamics. Thermochsimistry. Hqullibrivm Physicochemical Analysis. Phase Tiwaltioms, B-8 Abst Journal: Referat Zhur - Khimiya,, No 19, 1956, 61oi5 Author: M., Zygadlo, J. Institutiont None Title: Investigation of Vapor Pressure of Aqueous Three-Component Solutions Original Periodical: Badania nad przebiegem, peznosci par rozWorair wodnych trojokladnikawych. Przem. chem., 1953, 9, No 12,, 6oMio; Polish Abstract: The authors observed de'viation in magnitude of vapor pressure for 3-component ayatems of following ccuposition:,' Ca(N03)2 - W03 H201 Ca(NO3)2 - IWO - H20; urea-chlorides af,Ca, 14gp Li - H20. It vas ascb--tained chat vapor preBsure of 3-ccmponentsolutiOns is higher than that of initial 53.3% solution of Norwegian saltpeter and lower than that of a 40% solutlcm of saltpeter. It was found that a 45% solution of saltpeter in wd*pr is isobaric, I.e., on Card 1/2  Polfind/Physical Chemistry - Thermodynamics. Thermochemistry. Equilibrium. Pbysicoc-h-aical AnalyBis. Phase Transitions, B-8 Abst Journal: Referat Zhur - Xhimiya, No 191~1956, 61015 Abstract: addition of urea no change in vapor pressured occurs over such a solution. The cause of no change ir. *vapor pressure following ad- dition of urea is due to formation of double salts.and distrit~lu- tion off water between initial salt and the double nal-6, the W4:,'Maving equal vapor pressure. Card 2/2  UP i .BadarAn wtd pmblicgir-a p lijin 0 13.1f mriwmdw windmi I Ir6j- pr fig., ;nVe41hj,,i'uIlI*, HVO t'1111MIr of lique- OIJ3 Salt In Wwo~-c,-,mpcmcInt oyratmg- Wit "'hir. ff mrt4in range of the vapotir pfewwrt (if solutioni oncom )Ir. - -1- 4 1,1 -Im  ;X, C 2'l - ---- -gigg'~ 'Al No. 3; 1 mults of t Ituo. IV C-oal 14 TAUQ No co(n'pa'q 44 _q;4 wAuflca-ot 0!~ q luffon.-It-*" v6o tmeent rpt!dtiar CIC "~JL ------- -*I- eit~ M cawZm_dFt ory WA~Jmlml, (nax 7, -.v Inew el Lmuo ~T~   Poland/Cheinical Technology. Chemical Prodmcts and Their Ayplication -- Industrial organic synthesis, 1-14 Abst Journal: Referat Zhur - KhimiYa, No 2, 1957, 5668 Author: Mazgaj, W.,, Sa--nowaki, M., Zygadlo., J. Institution: None Title: Preparation of Hydrogen Cyanide from Metbanel Ammonia and Air Original PubUcation: Przem. chem., 1955, 11, No 8, 462-4& Abstrac-~: Preliminary data are presented,concerning the initiated laboratory experiments on an orientative determination of the conditions of a synthesis of 'HCN from CH4, %and air., over aPt catalyst with a carrier. It has been aecerts ed that this method is very economical in ccmparison with the syntheses from foirmamide or calcium cyavamide. The synthesis can be condu6ted in a simple.,'fully alltomatic and ef- ficient apparatus, by a cwtinuous operation of thelprocess over a period of many months. Possibility of repeated regeneration of the catalyst bas been ascertained. Diagram of the unit is included. Card 1/1  ~M'FT :s. by l!"Piti. at tf~.~,f 2[)d bl, tr,, , - " 'Its .. Ligr C t )r%,14 wittl 0 'f W t to ur, rom. till --I Irl , I 3r rj,,~ IF. I L'1 2-S). I., ~" ), ~' -, , co; 4 4t ; 1 .:1 6 w 0 4 If -nd I 21 yj N ~ wmq cr cv pr"Muft. of - ---------   D L f F it OW11 L-r 1 1-1 ;41 AGW CO dt j:4 1~: ~.sz IIR Nil 111213u,~o km ;M. Oil. by 90 113. "ritiri MON 'Mot. l"'. me ratl a of O~fi till 1: t,5. B p9t. UrL4 101h. I . :,: c 4 (N 4 O(NE P( Wh let. W11.3 knmill 74hy,061cupi F. tir. I J! tall ravcmbly~witlj tillit of Ca(K4),)2,4jt lt~ and (A illuo-diallt; therdait, i Lvkit bt it. d 11 11 We w 1 1.10 -iiltl 1T % w i 7. - n! moil   it - sla M polvAj nd w U i . a r a 326 , Pola-11d). P r'&tq1ytS7 4 6 -1' -15em TaIlIbIt ~4 '. I ~' was pritpired on Lab a sea L W~ , t the reaction MI + 01 + I Z 0 (air) ;:4 14 +3 t". . S 1 4 If, 0 + 113.3 cal. It was'found that 47,70 of the Clj, daii-ji tred way,but that 5v not react in this des: /0 thereof ~ oxidized COaud 42%toCOti; also 2.22% C114irtmahis i to 4nt-bnnrcd~ Can Lornsakre v'r, It Is wievA that the, proc(!Sl ' roditetion (raid HCHO-ar with ~ICN d CaMs btv'2t tht sL , Zif- '~Q ' ' 0 A J  POLAND / Physical Chem"stry. Thermodynam Ics. Equilf-; B-8 brium. Phase Transitions. Physicochemical Analysis. Abs Jour: Ref Zhur-Rhimiya, No 8,, 1959p ~6453,. Author : Sarnowskt, MI., Scienska, 1,, and Inst : Not given. Title : The Study of Nonideal Ternary Solutions, 1. Uevla- tions from Raoultts Law as Criteria for the Feasi- bility of the Preparation of New Complex Compounds in Electrolyte-Urea-Water Systimse Orig Pub: Roczniki Chem, 31., No 3,, 949-958 (1957) (in Polish with English an-d-Russian summaries), Abstract: Continuing previous work on the meas ,urement of solutions and on the vai,ior pressures over ternary study of deviations from ideality connected with com'Dlex formation (RZhKhim, 19564 463Z7) 77533; IC57$ 571502 the authors have studied the increa3e in vapor pressure over a solution of an electrolyte Card 1/2 zz  POLAND Physical Chemlst~y~,The~mbdynzmtcsi Equill- B-8 brium. Phase Trd~sltl6ftg. Pilys"Edochemical Analysis Abs Jour: Ref Zhur-1(himiya, No 80' 195�., ~6453. Abstract: following the addition of solid COMHO2. It has been found that deviations from Raoul s law are closely related to the possibil,ity of.complex for- mati. on in the solid state, App'lying this assump- tion to the investigation of electr6lyte-urea-water systems, the authors have succeeded in Is o 1~tin nine previously unknown compounds: LiBr.3CO (~N]4 ?' LIBr-C0(NH2)z*Hp0, Li1-?_C0(N1i?)k, LiI-4CO(NH2)Z, Cd(NO3)?OCO(NHZ)Zo3HZO,t Cd(NO'3~j,,4CO(NH?);!, and Mn(NO,3)Z-4CO(NHZ)?O'ZHzO, CaClz-2CO(1qHZ)2'H20, . , 1Ag(NO3YZCO(NHZY6H.0, Crystalline LiNO,30;rO( N]iZ)Z has also been isolated; the compound',has previously been detected by thermal analysis. See also RZhKhim, 1955 54891; 1956, 3405.*-- From a summary, by the authors. Card 2/2  V- J1 `7 -T And-Rio4tiltlaw priliZilps ollita systaffiP. 1. ltj~ Raoult-law 0operdes as a cj*e"ita 17 oszlbfllq Ila- of fi I flum Of, qOmAlPx, compounds'An j elect,'r, I t s R 39A. "I'"Z' " '?' Ai