RU2139516C1 - Process determining specific resistance of soil to bearing strain - Google Patents

Abstract

FIELD: study of strength properties of hard materials by application of mechanical force to them, by indentation of tips of testing fixtures under constant load into tested material. SUBSTANCE: process includes recording of value of load P that ensures dipping of plunger into soil, determination of volume V of soil crushed by plunger and calculation of relation of load P submerging plunger into soil to volume V of crushed soil. Conical plunger is used in agreement with process for which value of angle φ of friction of material of plunger against soil is found, length l of part of plunger buried in soil is measured and value of specific resistance of soil to bearing strain is calculated by dependence

Description

 The invention relates to the study of the strength properties of solid materials by applying mechanical forces to them, in particular when pressing the tips of test devices under constant load into the test material.

 There is a method of determining the soil resistivity to crushing, which includes recording the value of the steady load P, which immerses the plunger in the soil, measuring the depth h of plunger immersion until the load P stabilizes, determining the volume V of the crumpled soil plunger and calculating the ratio of the load P to the volume V of crumpled soil . The volume V of crumpled soil is calculated by multiplying the area S of the end surface of the plunger by the depth h [1 (p. 10-15)].

 The known method for determining the resistivity of the soil to crushing does not provide the possibility of measurements along the entire depth of the arable horizon. In addition, the known method does not take into account the friction force that occurs during the movement of the plunger in the soil.

 The objective of the present invention is to improve the accuracy and provide the ability to measure the resistivity of the soil to crush along the depth of the entire fertile layer.

где α - угол при вершине конуса плунжера.The problem is achieved due to the fact that in the method of determining the soil resistivity to crushing, containing the registration of the load value P, which immerses the plunger in the soil, according to the invention, a conical plunger is used, for which the value of the friction angle φ of the plunger material on the soil is determined, the length l part of the plunger cone embedded in the soil, and the value of the specific soil resistance to crushing is calculated by the dependence

where α is the angle at the apex of the plunger cone.

 The drawing shows a diagram of the force interaction of the conical plunger with the soil.

Under the influence of the load P applied along the rod, the plunger plunges into the soil, crushes it and compresses it into the field monolith. The soil prevents the penetration of a conical plunger into it, as a result of which the reaction forces of the soil R ₁ arise, evenly distributed over the surface of the part of the cone immersed in the soil. The force P is balanced by the reaction forces of the soil R ₁ . The elementary forces of the soil reaction R ₁ are located relative to the normals of the elementary sites S _{1 of the} conical surface at an angle of friction φ of the plunger against the soil and are inclined toward the top of the plunger cone.

Сила P, внедряющая плунжер в почву, равна P = R/secγ расходуется не только на непосредственное, чистое смятие почвы, которое наблюдается в направлении действия сил N₁, но и на предварительное уплотнение в боковом направлении, которое происходит в результате преодоления почвенными частицами сил трения F₁, возникающих в следствии смещения почвы относительно поверхности конического плунжера.On any elementary surface section of the submerged part of the plunger cone, the elementary soil reaction force R ₁ is the result of two forces: the force N ₁ acting normal and the friction force F ₁ acting tangentially to this surface. As a result, elementary soil particles under the influence of the surface of the cone will be pressed into the soil monolith along the orientation lines of the corresponding R ₁ , i.e., they will move both in the direction of action of the friction force F ₁ and in the direction of the normal N ₁ . The forces R ₁ act at an angle γ to the direction of the force P. The angle

The force P, introducing the plunger into the soil, equal to P = R / secγ, is spent not only on direct, clean soil crushing, which is observed in the direction of the action of forces N ₁ , but also on the preliminary compaction in the lateral direction, which occurs as a result of overcoming by soil particles of forces friction F ₁ arising from the displacement of the soil relative to the surface of the conical plunger.

Forces N ₁ compresses soil aggregates located in adjacent conical concentric surfaces. The friction forces F ₁ tend to shift tangentially a denser layer of soil relatively less dense and at the same time crush each layer in a plane perpendicular to the normal to the surface of the cone.

Thus, the force R = ΣR _i = ΣP _i secγ = Psecγ actually provides real soil crushing as a result of the introduction of the plunger cone into the measured soil horizon. Force P is the force that is recorded when the plunger is immersed in the soil.

так, как впрессовывание в измеряемый почвенный горизонт объема почвы, равного объему внедренной части конуса вызвало появление данной силы реакции R.The volume equal to the volume of the embedded part of the plunger cone is taken as the volume of crushed soil V

so, as the soil volume is pressed into the measured soil horizon equal to the volume of the embedded part of the cone, this reaction force R.

где α - угол при вершине конуса плунжера.The ratio of the force R really necessary for crushing the soil with volume V to this volume gives the value of the specific resistance of the soil to crushing

where α is the angle at the apex of the plunger cone.

 The method of determining the soil resistivity to crushing is as follows.

 In a known manner, the angle of friction φ of the plunger material on the soil is determined [2 (p. 5-7)]; the angle α is measured at the apex of the cone of the plunger 1 (see drawing).

где α - угол при вершине конуса плунжера.The cone of the plunger 1 is installed in a vertical position, abut against the surface of the field (soil) 2 and act on it through the rod 3, from top to bottom, by a force P of a magnitude that ensures a smooth and reliable immersion of the cone of the plunger 1 in the soil 2 to a predetermined depth. The force value P is recorded, the length l of the part of the cone of the plunger 1 immersed in the soil 2 is measured, and the value of the specific resistance of the soil to crushing ρ is calculated by the expression

where α is the angle at the apex of the plunger cone.

 The cone of the plunger 1 can be immersed in the soil 2 at any depth, and the force P can be recorded at any time, regardless of the nature and time of its change during the immersion of the plunger in the soil.

Sources of information
1. Razmyslovich I.R., Avlasenko T.V. and other Workshop on agricultural machinery and implements (theory and calculation of agricultural machinery). - Minsk, Urajay, 1972, p. 144.

 2. Lyubimov A. I. et al. Workshop on agricultural machinery. -M .: Kolos, 1971, p. 207.

Claims (1)

A method for determining the soil resistivity to crushing, including recording the load value P, which immerses the plunger in the soil, characterized in that a conical plunger is used, for which the value of the friction angle φ of the plunger material on the soil is determined, the length l of the part of the plunger cone embedded in the soil is measured, and the value of the soil resistivity to crushing is calculated by the dependence

where α is the angle at the apex of the plunger cone.