Jet Propulsion Lab

R. Muracarf and L. L. Taylor, The Hygroscopicity ofTithium and Mmmonium Nitrates and Perchlorates, Progress Rpt. 20-347, Jet Propulsion Lab., Institute of Technology, Pasadena, Calif., 1958. [Pg.55]

R. F. Muraca, J. Neff, and J. S. Whittick, Physical Properties ofEiquid Oyygen D fluoride and Eiquid Diborane—M Critical Review, Report No. NASA-CR-88519, SRI-951581-4, Jet Propulsion Lab., Calif. Inst, of Tech., Pasadena, Stanford Research Inst., Menlo Park, Calif., July 1967. [Pg.222]

Ellion, M. E., 1954, A Study of the Mechanism of Boiling Heat Transfer, Jet Propulsion Lab. Memo. [Pg.532]

Snyder, N. R., and D. K. Edwards, 1956, Post-Conference Comments Conference on Bubble Dynamics and Boiling Heat Transfer, Memo 20-137, p. 38, Jet Propulsion Lab., Pasadena, CA. (2)... [Pg.553]

Western States Sect Combust Inst, Paper, WSCI 65-23 (1965) 27) G.R. Mistier T.F. Seamans, Vacuum ignition characteristics of flox/diborane and oxygen difluoride/diborane, NASA Contract Report 1969, NASA-CR-100678. Avail CFSTI. From SciTechAerosp Rep 7 (12), 2196 (1969) 28) W.B. Powell et al, ClFj-Njli, liquid propellant evaluation and rocket motor development, TechRept 32-305, Jet Propulsion Lab, Calif Inst Tech, Pasadena, Ca, (May 1963) (NASA N63-21722) 29) H. Allen, Jr Pinna, Relative ignitability of typical solid propellants with C1F3, NASA TN-D-1533, NASA, Wash, DC, (Jan 1963) (NASA N63-11616) 30) R.F. Sawyer et al, AIAA J, 6, 11, 2111 (1968) CA 70, 13118 (1969) 31) M.C. Branch ... [Pg.258]

One of the main LP developments of the Jet Propulsion Lab efforts, later commercialized by Aerojet, was the nitric acid-aniline JATO engine. Monopropellant engines were also investigated... [Pg.594]

Jet Propulsion Lab Rept TR 32-1553, March 15, 1972. Order as N 72-20920 from NTIS, USDeptCommerce, Springfield, Virginia 22151 2) L.A. Rosenthal V.J. Menichelli, "Electrothermal Follow Display Apparatus for Elect to explosive Device Testing , JetPropln-Rept TR 32—1554, June 1, 1972. Order as N72-21281 from NTIS 3) G. Cohn, ExplsSc-Pyrots, Vol 6, No 3(1973) (Abstract of Refs 1 2)... [Pg.228]

Burns, "Analysis of Ammonium Nitrate, Progress Rept No 20-365, Jet Propulsion Lab, Pasadena, Calif (1958) 23)F.Pristera et al, AnalChem32, 503(1960Xlnfrared Spectrograms)... [Pg.378]

Refs 1)0-T.Zimmerman I.Lavine, "Supplement II to the 1953 Edition of Handbook of Materials Trade Names Industrial Research Service Inc, Dover, New Hampshire (1957), 26 2)R.F.Muraca et al, "Analysis of Ammonium Nitrate, Jet Propulsion Lab Progress Rept No 20-311 (1957), 4... [Pg.506]

B) R. DeWitt, Uranium Hexafluoride A Survey of the Physico-Chemical Properties , GAT-280, Goodyear Atomic Corp, Portsmouth, Contract AT<33-2>1 (1960) C) L.S. Allen, A Parametric Survey of Criticality-Limited Fast Reactors Employing Uranium Fluoride Fuels , TR32-198, Jet Propulsion Lab, Contract NAS-7-100 (1962) D) C.A. Geffen et al, Assessment of the Risk of Transporting Uranium Hexafluoride by Truck and Train , Battelle, Richland, Contract EY-76-C-06-1830 (1978)... [Pg.113]

Schmidt, J. M., Jet Propulsion Lab., California Institute of Technology, Application of... [Pg.166]

C4. Charvonia, D. A., A study of the mean thickness of liquid films and surface characteristics in annular two-phase flow in a vertical pipe. Purdue Univ., Lafayette, Indiana, Jet Propulsion Lab., Rept. 1-59-1, May 1959. [Pg.229]

San Miguel E.N. Duran, The Experimental and Theoretical Significances Associated with Irradiated Propellants , JPL-TR-32-518, Jet Propulsion Lab, Calif Inst of Technol, Pasadena... [Pg.95]

Memchelli L.C. Yang, Initiation of Insensitive Explosives by Laser Energy , Tech Rept 32-1557, NASA-CR-126741, Jet Propulsion Lab, Pasadena (1972) 214) B.M. Dobratz, Biblio-... [Pg.98]

The ESCA spectrum was obtained by Dr. Grunthaner on HP 7950A ESCA spectrometer at Jet Propulsion Labs in Pasadena, CA. [Pg.302]

Two groups within NASA, one at Goddard Space Flight Center, under the direction of Bill Heaps, and the other at the Jet Propulsion Lab under Laudenslager and McDermid, have respectively developed balloon-borne LIDAR methods for OH and developed eximer laser systems for extending the LIDAR method to lower detection thresholds. This research has important implications for both stratospheric and tropospheric research. Such laser ranging techniques also have important implications for intercomparison studies, particularly with mm-wave and far infrared emission ex periments. [Pg.361]

G9. Gunther, F. C., Photographic Study of Surface Boiling Heat Transfer to Water with Forced Convection. Jet Propulsion Lab., Cal. Inst. Tech., Pasadena, California, Progr. Rept. No. 4-75, 1950. [Pg.57]

Question by J. Stephens, Jet Propulsion Lab. Would it not be possible to form all slush in the rocket tank ... [Pg.535]

The AMF, with guidance from Jet Propulsion Lab (JPL), developed a small cylindrical lithium ion rechargeable battery. A new company (QuaUion, Inc.) was formed and financed by Alfred Mann to manufacture and improve these unique highly reliable batteries. Today, these batteries can be safely recharged if discharged to zero volts and are expected to operate for over 10 years. These batteries were designed specifically for the BPB (Figure 34.2). [Pg.540]

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