Journal of Natural Disaster Science

Journal of Natural Disaster Science Vol.21, No.2, 1999

Predicting and Reducing Liquefaction-Induced Damage to Houses:
The Nihonkai-Chubu Earthquake

Kenzo YOSHIKAWA, Takao ITO, and Akie ASADA
Tohoku Institute of Technology

(Received 27 August, 1999 and in revised form 22 October, 1999)

Abstract

A comparison of two practical analysis methods for predicting liquefaction with the recorded liquefaction that occurred during the 1983 Nihonkai-Chubu Earthquake was made. Based on findings of surveys, that included bore and standard penetration tests grain size analyses, and interviews with residents, comparative calculations were made using two practical methods for predicting liquefaction: the procedure given in the Japan Highway Bridge Code and the technique which uses residual pore water pressure data.

The comparison of survey findings with those of the analysis showed a coincidence rate of 23% for the procedure of the Japan Highway Bridge Code and 31% for the method using pore water pressure data at kso=0.15, the value usually used at present in the two practical methods.

When, however, kso=0.22, the ratio of the maximum acceleration to gravity acceleration, obtained at ground surface during the 1983 Nihonkai-Chubu Earthquake was used, the results of the comparison were 81% for the former procedure and 80% for the latter method. We conclude that the occurrence of liquefaction can be accurately estimated by both these methods, if there is close agreement between the value of kso and the ratio of maximum to gravity acceleration at the ground surface for a future massive earthquake.

A practical method for predicting and reducing liquefaction-induced damage to houses also is proposed. It is derived from the relationship between the thickness of the non-liquefied layer H1 and that of the liquefied layer H2 obtained from survey findings,: bore and Japanese standard penetration tests, grain size analyses, and interviews with residents.

Which kinds of foundations that had been built before the earthquake, remained intact during the 1983 Nihonkai-Chubu Earthquake also are reported. On the basis or these findings, a practical method for reducing liquefaction-induced damage to houses is proposed.

Key words

liquefaction, 1983 Nihonkai-Chubu Earthquake, comparison of surveys with analysis