Explosively-induced ground vibration in civil engineering construction

New, Barry Michael

January 1984

Research has been undertaken to improve techniques used in the prediction of ground vibration caused by civil engineering construction works. In particular, the effects of explosive excavation of rock for subsurface structures is considered. Factors affecting the input and propagation of explosive energy in the rock mass are investigated, and recommendations made on procedures for trial blasting and the most effective data processing and presentation for the derived predictive equations. These developments are supported by blasting trials at two major road construction sites, where vibration measurements were taken during conventional and innovative blasting operations. A critical review of contemporary dynamic structural damage and intrusion criteria is provided. It is concluded that vibration prediction and control techniques, together with workable damage/intrusion criteria, can be applied which substantially mitigate vibration hazard. The distribution of vibration associated risk between employer and contractor is discussed and contractual options presented. Techniques to determine the engineering properties of rock masses by analysis of stress waves from explosive and hammer impact sources have been developed and successfully tested. The advantages and limitations of the most promising seismic methods are discussed and field seismic classifications are compared with known rock mass properties and established geotechnical classification systems. The research shows that both rock mass properties and 'site specific' laws of vibration decay may be obtained during the trial blasting sequence of a site investigation programme.

623.452

Explosions

Detonation mechanisms in a condensed-phase porous explosive Mécanismes de détonation dans un explosif poreux en phase condensée.

Lee, Julian.

January 1997

Thèses (Ph.D.)--Université de Sherbrooke (Canada), 1997. / Titre de l'écran-titre (visionné le 20 juin 2006). Publié aussi en version papier.

Explosions. Explosifs.

An investigation and application of the crustal transfer ratio as a diagnostic for explosion seismology

McCamy, Keith,

January 1967

Thesis (Ph. D.)--University of Wisconsin--Madison, 1967. / Typescript. Vita. eContent provider-neutral record in process. Description based on print version record. Includes bibliographical references.

Seismology Explosions.

Observations of the initiation and structure of detonation in decane aerosol-oxygen mixtures

Loflin, Thomas George,

January 1970

Thesis (M.S.)--University of Wisconsin--Madison, 1970. / eContent provider-neutral record in process. Description based on print version record. Includes bibliographical references.

Explosions. Aerosols.

Experimental investigations on gas explosions in partially confined regions

Park, Dal Jae, Safety Science, Faculty of Science, UNSW

January 2007

The primary objectives of the described research were to examine the underlying physical phenomena occurring during flame/obstacles interactions in various chambers of low L/D ratio and to develop a new empirical equation for explosion venting. A literature review suggested that the propagating flame/obstacle interactions in enclosures with large L/D ratio (&gt 2) result in flame acceleration and subsequent pressure build-up during a gas explosion. However, the interactions in practical situations with small L/D &lt 2 were not extensively studied. In this thesis the first investigation involved the flame interaction with different single and multiple obstacles in a 1/20th model of real enclosure. Results provided the basis for flame propagation, local flame displacement speed probability density functions (pdfs), mean flame velocity and explosion pressure. The second investigation of the study involved the flame interaction with multiple bars within chambers of different L/D ratios. The results provided mean flame velocities on each stage, as a function of nondimensional time, and pressure developments as a function of L/D ratio. The final investigation is associated with gas explosion venting. The predictive ability between existing models on explosion venting and experimental results obtained in this thesis were undertaken and found to be deficient. Consequently a new empirical model for predicting explosion venting was developed. The new model was validated with experimental data published in literature.

Explosions.

Flame.

Ventilation.

Explosions -- Safety measures.

Experimental investigations on gas explosions in partially confined regions

Park, Dal Jae, Safety Science, Faculty of Science, UNSW

January 2007

The primary objectives of the described research were to examine the underlying physical phenomena occurring during flame/obstacles interactions in various chambers of low L/D ratio and to develop a new empirical equation for explosion venting. A literature review suggested that the propagating flame/obstacle interactions in enclosures with large L/D ratio (&gt 2) result in flame acceleration and subsequent pressure build-up during a gas explosion. However, the interactions in practical situations with small L/D &lt 2 were not extensively studied. In this thesis the first investigation involved the flame interaction with different single and multiple obstacles in a 1/20th model of real enclosure. Results provided the basis for flame propagation, local flame displacement speed probability density functions (pdfs), mean flame velocity and explosion pressure. The second investigation of the study involved the flame interaction with multiple bars within chambers of different L/D ratios. The results provided mean flame velocities on each stage, as a function of nondimensional time, and pressure developments as a function of L/D ratio. The final investigation is associated with gas explosion venting. The predictive ability between existing models on explosion venting and experimental results obtained in this thesis were undertaken and found to be deficient. Consequently a new empirical model for predicting explosion venting was developed. The new model was validated with experimental data published in literature.

Explosions.

Flame.

Ventilation.

Explosions -- Safety measures.

The explosive power of selected grain dust in a 20-liter spherical explosion chamber

Lewis, Brenda Lorie

January 2011

Photocopy of typescript. / Digitized by Kansas Correctional Industries

Dust explosions

Grain dust

Simulation of conductive environments using transmission line modelling

Scaramuzza, Richard Alan

January 1993

No description available.

621.382

Nuclear explosions

Study of mechanisms of grain dust explosion as affected by particle size and composition / by David Wayne Garrett.

Garrett, David Wayne

January 2011

Typescript (photocopy). / Digitized by Kansas Correctional Industries

Grain dust

Dust explosions

On the blast initiation of gaseous detonations

Ramamurthi, Krishnaswami.

January 1976

No description available.

Explosions.

Gas dynamics.