応用地質 10 巻, 3 号

埼玉県南東部の地盤沈下

Subsidence of the ground is conspicuous in th lowlands of Kawaguchi and in southern part of Saitama Prefecture, causing various kinds of damages. In general, the ground subsidence occur where the humus soil is thick, such as a back marsh. And, the cumulative amount of subsidence is larger when the alluvial deposits are thicker. It is reported that the diluvial deposits are also subsiding lately, although it is questionable.
The ground subsidence is chiefly ascribed to the excessive utilization of underground water. Heavy traffic of these days may also account for the subsidence, but it is merely a superficial phenomenon. In order to prevent the ground subsidence, pumping of underground water must be carried out on a well-laid plan.

福井県芦原台地の地下水

Awara Terrace consists of diluvial sand and conglomerate, which bear unconfined ground-water. The basal bed is Miocene sandstone and early Pliocene pyroclastic substances.
Several deep wells were developed for the sake of irrigation, and the resources of city water have been here looked for. A planning of such deep wells may stand in the way of irrigation owing to ground-water. An agricultural discharge of ground-water brings a recharge with time lag, while the others take water out of strata solely. This paper deals with a difference of theirs to that effect, striking a hydrologic balance by means of an intake rate, a fall of the static level, and all the withdrawal.

和泉砂岩の力学的性質 (I)

砂岩の強度を論ずる場合にGriffithの割れ目の大きさを構成粒子の大きさと関係づけることによつて, Griffithの破壊理論により砂岩の強度を論ずることができることを和泉砂岩で立証した。Griffith理論で論ぜられている表面エネルギーは和泉砂岩では空隙水によつて10～50%低下することが明らかで, この表面エネルギーの低下が強度の低下をもたらしている。和泉砂岩を弾塑性体としてみた場合, 変形量が小さい間は弾性的性質が強く, 塑性ひずみは無視されるほど小さいが, 変形量が多くなると塑性変形による弾性率がだんだん小さくなり, 塑性ひずみの割合は増加する, しかし一度塑性領域まで変形をすると, その応力まででは塑性変形による弾性率が急に増加して, そこはより弾性的になつてゆく, このように応力対変形曲線は応力依存性が強い。