By Ralph A., Jr. Scott, Laurence J. Doemeny
content material: Blast strain results : an summary / W.E. Baker --
Fragmentation results : an outline / Michael M. Swisdak, Jr. and Joseph G. Powell, Jr. --
Architectural regular info for military ammunition crops / Richard W. Sime --
Explosives garage buildings / Richard L. Wight --
strengthened concrete in blast-hardened constructions / James E. Tancreto --
Blast-resistant glazing / Gerald E. Meyers --
meantime layout standards for polycarbonate blast-resistant glazing / Gerald E. Meyers and James E. Tancreto --
Thermal results : an outline / W.R. Herrera and L.M. Vargas --
distant blending and dealing with strategies for pyrotechnic fabrics / Thomas E. Shook, Loy M. Aikman, Max Frauenthal, David Garcia, Joe G. Janski, and F.L. McIntyre --
Engineering layout for white phosphorus filling operations and amenities / Harold D. McKinney --
layout and use of high-speed detection structures for explosives operations / Kenneth M. Klapmeier and Bernhard G. Stinger --
Ultra-high-speed hearth suppression for explosives amenities / Gary A. Fadorsen --
Systematic method for accurately designing a chemical surety materiel laboratory / George E. Collins, Jr. --
Laboratory layout / Frances H. Cohen --
layout issues for poisonous laboratories / William J. Maurits --
layout of blast-containment rooms for poisonous chemical ammunition disposal / Paul M. LaHoud --
Intrinsically secure electric circuits in explosives amenities / Kenneth W. right --
Electrostatic stories in military ammunition vegetation / William O. Seals, James Hokenson, and George Petino --
Ionizing air for static cost neutralization whereas processing delicate fabrics / B.V. Diercks --
layout and use of ammunition bizarre gear to guard staff / Mark M. Zaugg --
cleansing procedure strains within the explosives / Roy W. Wheeler.
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Additional resources for Design Considerations for Toxic Chemical and Explosives Facilities
ACS Symposium Series; American Chemical Society: Washington, DC, 1987. 2. SWISDAK A N D POWELL 61 Fragmentation Effects: An Overview In c a s e s where l a r g e s u p e r s o n i c v e l o c i t i e s a r e encountered (M>2), the d r a g c o e f f i c i e n t remains f a i r l y c o n s t a n t and t h e d a t a p r e s e n t e d i n the a b o v e - c i t e d l i t e r a t u r e a r e adequate. However, i n s i t u a t i o n s where fragment t r a j e c t o r i e s a r e b e i n g c a l c u l a t e d , the fragment spends a g r e a t d e a l of i t s f l i g h t time ( a p p r o x i m a t e l y 75%) i n the s u b s o n i c regime where the v a r i a t i o n s i n d r a g c o e f f i c i e n t have a major e f f e c t .
VJ (c) Louvres W 2 v? w (d) Interlocked I-Beams Figure 36. D e f i n i t i o n of Vent Area Ratios f o r Various Suppressive S h i e l d S t r u c t u r a l Configurations. (Ref. ; ACS Symposium Series; American Chemical Society: Washington, DC, 1987. 1. 9 percent. The incident p o s i t i v e phase impulse i n psi-ms outside a sup pressive s h i e l d i s given by (Ref. 38) '^Ηίέ)0·98^)0·008^)0·"5]»173 <3» where W i s i n pounds of TNT and the other terms are as previously defined. 2 percent.
I, pp. 365-394. 34. Whitney, M. , Friesenhahn, G. , Baker, W. , and Vargas, L. , "A Manual to Predict Blast and Fragment Loadings from Accidental Explosions of Chemical Munitions Inside an Explo sion Containment Structure," Vols. I & II, Final Report, Contract No. DACA87-81-0099, April 1983. 35. Keenan, W. , and Tancreto, J. , "Blast Environment from Fully and Partially Vented Explosions in Cubicles," Technical Report R828, Naval Civil Engineering Laboratory, Pt. Hueneme, CA, Nov. 1975. 36. Volz R.