TY - GEN
T1 - Importance of ground strain in predicting blast-induced strain and stress in pipelines
AU - Dowding, C. H.
AU - Akkaya, U. G.
PY - 2013
Y1 - 2013
N2 - This paper compares measured ground motions and strains in welded, steel pipelines, which were induced by blasting at unusually small-scaled distances. All three studies involved field measurement of the blast response of large (20 to 36 in. or 500 to 900 mm) diameter, pipelines trenched into or placed immediately above rock. Motions were induced by detonations of 5 to 15 lbs (2 to 7 kg) per delay trenching shots and 800 to 900 lbs (360 to 400 kg) per delay surface mining shots. Some of the blasts were detonated as close as 4 ft (1.3 m) from the pipeline. All of these field-scale blasts were detonated at scaled distances less than 30 ft/(lb1/2) or 13.5 m/(kg1/2). More than 30 of the blasts produced peak strains greater than 10 micro mm/mm, and peak particle velocities greater than 1 ips (25 mm/s); some of which were higher than 10 ips (250 mm/s). These measurements demonstrate the importance of absolute distances between pipe and blast, depths of blast hole, proper measurement of propagation and particle velocity, measurement of both hoop and longitudinal strains, equality of ground and pipe strains, and conservativeness of typical regulatory particle velocity control limits.
AB - This paper compares measured ground motions and strains in welded, steel pipelines, which were induced by blasting at unusually small-scaled distances. All three studies involved field measurement of the blast response of large (20 to 36 in. or 500 to 900 mm) diameter, pipelines trenched into or placed immediately above rock. Motions were induced by detonations of 5 to 15 lbs (2 to 7 kg) per delay trenching shots and 800 to 900 lbs (360 to 400 kg) per delay surface mining shots. Some of the blasts were detonated as close as 4 ft (1.3 m) from the pipeline. All of these field-scale blasts were detonated at scaled distances less than 30 ft/(lb1/2) or 13.5 m/(kg1/2). More than 30 of the blasts produced peak strains greater than 10 micro mm/mm, and peak particle velocities greater than 1 ips (25 mm/s); some of which were higher than 10 ips (250 mm/s). These measurements demonstrate the importance of absolute distances between pipe and blast, depths of blast hole, proper measurement of propagation and particle velocity, measurement of both hoop and longitudinal strains, equality of ground and pipe strains, and conservativeness of typical regulatory particle velocity control limits.
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U2 - 10.1201/b14916-8
DO - 10.1201/b14916-8
M3 - Conference contribution
AN - SCOPUS:84878612708
SN - 9781138000568
T3 - Rock Dynamics and Applications - State of the Art: Proceedings of the 1st International Conference on Rock Dynamics and Applications, RocDyn-1 2013
SP - 77
EP - 88
BT - Rock Dynamics and Applications - State of the Art
PB - Taylor and Francis - Balkema
T2 - 1st International Conference on Rock Dynamics and Applications, RocDyn-1 2013
Y2 - 6 June 2013 through 8 June 2013
ER -