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Beitrag zur Berechnung der isentropen Expansion des Kältemittels R22 = Contribution au calcul de l'expansion isentropique du fluide frigorigène R22 = Contribution to computation of isentropic expansion of R22 refrigerantKOUREMENOS, D. A; KAKATSIOS, X. K.Klima, Kälte, Heizung. 1985, Vol 13, Num 9, issn 0172-1984, 351Article
Internalization of Coxsackievirus A9 Is Mediated by β2-Microglobulin, Dynamin, and Arf6 but Not by Caveolin-1 or ClathrinHEIKKILÄ, Outi; SUSI, Petri; TEVALUOTO, Tuire et al.Journal of virology. 2010, Vol 84, Num 7, pp 3666-3681, issn 0022-538X, 16 p.Article
On the three exponents of the isentropic change of the refrigerant R22KOUREMENOS, D. A; KAKATSIOS, X. K.International journal of heat and fluid flow. 1986, Vol 7, Num 3, pp 199-207, issn 0142-727XArticle
Prediction of transport properties of R22-DMF refrigerant-absorbent combinationsDORAIRAJ, S; AGARWAL, R. S.International journal of refrigeration. 1987, Vol 10, Num 4, pp 224-228, issn 0140-7007Article
Preliminary crystallographic analysis of coxsackievirus A9SMYTH, M; HALL, J; FRY, E et al.Journal of molecular biology. 1993, Vol 230, Num 2, pp 667-669, issn 0022-2836Article
Integrin αVβ6 is a high-affinity receptor for coxsackievirus A9HEIKKILÄ, Outi; SUSI, Petri; STANWAY, Glyn et al.Journal of general virology. 2009, Vol 90, pp 197-204, issn 0022-1317, 8 p., 1Article
Factors affecting virus plaque confirmation proceduresDAHLING, D. R; SULLIVAN, G; FREYBERG, R. W et al.Journal of virological methods. 1989, Vol 24, Num 1-2, pp 111-122, issn 0166-0934Article
Efficient RGD-independent entry process of coxsackievirus A9ROIVAINEN, M; PIIRAINEN, L; HOVI, T et al.Archives of virology. 1996, Vol 141, Num 10, pp 1909-1919, issn 0304-8608Article
Calculation of the specific heats and adiabatic exponent of halocarbon refrigerant vaporsCONDE, M. R.Journal of heat recovery systems. 1986, Vol 6, Num 2, pp 123-133, issn 0198-7593Article
A CASE OF COXSACKIE A9 VIRUS INFECTION WITH ORCHITISWILLEMS WR; HORNIG C; BAUER H et al.1978; J. MED. VIROL.; USA; DA. 1978; VOL. 3; NO 2; PP. 137-140; BIBL. 8 REF.Article
Evaluation of thermophysical properties of Freon-22HAMMOUDA, N; CHENG, S. C; GROENEVELD, D. C et al.Wärme- und Stoffübertragung. 1993, Vol 28, Num 7, pp 387-395, issn 0042-9929Article
Prediction of evaporation heat transfer coefficient and pressure drop of refrigerant mixtures in horizontal tubesJUNG, D; RADERMACHER, R.International journal of refrigeration. 1993, Vol 16, Num 3, pp 201-209, issn 0140-7007Article
Measurements and calculations of thermodynamic data for the binary refrigerant mixture R22/R114KRUSE, H; GERDSMEYER, K.-D; KÜVER, M et al.International journal of refrigeration. 1989, Vol 12, Num 2, pp 62-70, issn 0140-7007Article
Vorausbestimmung der Eigenschaften von Öl-Kältemittelgemischen = Prédiction des caractéristiques de mélanges huile/fluide frigorigène = Prediction of refrigerant oil mixture characteristicsHESSE, U.Klima, Kälte, Heizung. 1989, Vol 17, Num 11, pp 521-524, issn 0172-1984Article
Prediction of evaporation heat transfer coefficient and pressure drop of refrigerant mixturesJUNG, D; RADERMACHER, R.International journal of refrigeration. 1993, Vol 16, Num 5, pp 330-338, issn 0140-7007Article
A combined method for rescue of modified enteroviruses by mutagenic primers, long PCR and T7 RNA polymerase-driven in vivo transcriptionHEIKKILÄ, Outi; KAINULAINEN, Markus; SUSI, Petri et al.Journal of virological methods. 2011, Vol 171, Num 1, pp 129-133, issn 0166-0934, 5 p.Article
CHAMPS SPATIO-TEMPORELS ET CARACTERISTIQUES DYNAMIQUES DES FONCTIONS DE FOYER DES FORTS TREMBLEMENTS DE TERREZAPOL'SKIJ KK.1973; DOKL. AKAD. NAUK S.S.S.R.; S.S.S.R.; DA. 1973; VOL. 210; NO 6; PP. 1338-1341; BIBL. 3REF.Serial Issue
ANALYSIS OF METHODS OF CALCULATING THE MAGNITUDE FREQUENCY RELATION1970; PRACE GEOFYS. UST. CESKOSL. AKAD. VED; CESKOSL.; DA. 1970; NO 319-344; PP. 229-256; H.T. 1; ABS. ALLEM.; BIBL. 24REF.Serial Issue
Wärmeübergang bei Kondensation stehender Dämpfe = Heat transfer when condensing stagnant vaporsZABLOUDIL, O.ÖIAZ. 1993, Vol 138, Num 11, pp 425-428, issn 0721-9415Article
FREISETZUNG ZELLULAERER ENZYME WAEHREND DER VERMEHRUNG VON COXSACKIEVIRUS A9 IN FL-ZELLEN. II.ABHAENGIGKEIT DER ENZYMFREISETZUNG VON ZELLDICHTE, VIRUSKONZENTRATION, PH-WERT UND SERUMGEHALT DES INKUBATIONSMEDIUMS = LIBERATION DE L'ENZYME CELLULAIRE AU COURS DE LA MULTIPLICATION DU COXSACKIEVIRUS A9 EN CELLULES FL. II.INFLUENCE DU NOMBRE DE CELLULES, DE LA CONCENTRATION DE VIRUS, DU PH ET DE LA TENEUR EN SERUM DU MILIEU DE CULTURE SUR CETTE LIBERATIONKLOCKING R; SCHWEIZER H; SPROSSIG M et al.1974; ARCH. GES. VIRUSFORSCH.; OESTERR.; DA. 1974; VOL. 46; NO 3-4; PP. 353-359; ABS. ANGL.; BIBL. 10REF.Article
General equation for the design of capillary tubesYILMAZ, T; ÜNAL, S.Journal of fluids engineering. 1996, Vol 118, Num 1, pp 150-154, issn 0098-2202Article
A whole cell immunization-derived monoclonal antibody that protects cells from coxsackievirus A9 infection binds to both cell surface and virionsROIVAINEN, Merja; ALAKULPPI, Noora; YLIPAASTO, Petri et al.Journal of virological methods. 2005, Vol 130, Num 1-2, pp 108-116, issn 0166-0934, 9 p.Article
Photoinactivation of three viruses by rose bengalLEWIS, A. L; WELLINGS, F. M; MARTIN, D. F et al.Journal of environmental science and health. Part A, Environmental science and engineering. 1988, Vol 23, Num 2, pp 127-137, issn 0360-1226Article
DFT studies on the location and acid strength of Brönsted acid sites in MCM-22 zeoliteDANHONG ZHOU; YING BAO; MINGMEI YANG et al.Journal of molecular catalysis. A, Chemical. 2006, Vol 244, Num 1-2, pp 11-19, issn 1381-1169, 9 p.Article
STUDIES ON THE INTERACTION BETWEEN COXSACKIEVIRUS A9 AND HELA CELLS. I. PLAQUE-FORMING ABILITY OF COXSACKIEVIRUS A9 IN HELA CELL CULTURES.MATSUMOTO M; NAKANO M; NISHIKAWA F et al.1976; JAP. J. MED. SCI. BIOL.; JAP.; DA. 1976; VOL. 29; NO 2; PP. 67-76; BIBL. 15 REF.Article