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Excavation, Trenching and Shoring Safety and the OSHA Excavation Standard - ... Page 1 of 2 <br /> CHAPTER THREE: WHAT IS SOIL? <br /> Soil is a mixture of sand, gravel, silts,clay, water, and air.The amounts of these ingredients which <br /> determine its"cohesiveness", or how well a soil will hold together. Cohesive soil does not crumble. It can <br /> be molded easily when wet,and is hard to break up when dry. Clay is a very fine grained soil, and is very <br /> cohesive. Sand and gravel are course grained soils, having little cohesiveness and often called granular. <br /> Generally speaking, the more clay that is in the soil being excavated,the better the trench walls will hold <br /> up. <br /> Another factor in soil cohesiveness is water. Soil that is filled with water is termed saturated. Saturated <br /> soil does not hold together well, and is particularly dangerous in excavation work, However,the opposite <br /> can also be true. Soil that has little or no water in it, or oven-dry,can crumble easily, and will not hold <br /> together when excavated. <br /> Soil is heavy.A cubic foot can weigh as much as 114 pounds, and a cubic yard can weigh over 3,000 Ib. <br /> —as much as a pick-up truck! Most workers don't realize the force that will hit them when a cave in <br /> occurs. A person buried under only a few feet of soil can experience enough pressure in the chest area to <br /> prevent the lungs from expanding. Suffocation can take place in as little as three minutes. Heavier soils <br /> can crush and distort the body in a matter of seconds. It's no wonder trench accidents involve so many <br /> deaths and permanently disabling injuries. <br /> OSHA classifies soils into four categories: Solid Rock,Type A,Type B,and Type C. Solid Rock is the <br /> most stable,and Type C soil is the least stable. Soils are typed not only by how cohesive they are, but <br /> also by the conditions in which they are found. Stable rock is practically unachievable in the excavation of <br /> a trench. This is because the excavation of rock typically requires drilling and blasting, which fractures the <br /> rock, making it less stable.Type A soil can be clay, silty clay,or sandy clay. <br /> A soil cannot be considered Type A if it is fissured(cracks)or other conditions exist that can adversely <br /> affect it, such as: <br /> . subject to vibration from heavy traffic, pile driving,or similar effects <br /> having been previously disturbed/excavated <br /> . where it is part of a layered system,where less stable soil is near the bottom of the excavation, <br /> with the more stable soils on top. <br /> . subject to other factors which would make it unstable-such as the presence of ground water, or <br /> freezing and thawing conditions. <br /> Many OSHA compliance personnel believe that construction equipment at the site create enough <br /> vibrations to prevent any soil from being typed as"A". If vibrations can be felt while standing next to an <br /> excavation,the competent person should consider downgrading Type A soil to Type B or C. <br /> Type B soils include both cohesive and non-cohesive soils.They include silts, sandy loams, medium <br /> clays,and unstable rock. Soils that might be classified as A, but have fissures, or are subject to vibration, <br /> may also be classified as"B"soils <br /> Type C soils are the most unstable(and therefore most dangerous)of the four soil types.They are <br /> easily recognized by the continual sloughing of the sides of the walls of excavation. If soil is submerged, <br /> or water is seeping from the sides of an excavation, it's very probably"C"soil. Soil may be classified as <br /> Type C if an excavation is dug in"layered"soils,where different soil types lay on top of each other.When <br /> an unstable soil type is underneath a stable soil type in an excavation, the"weakest link"will soon give <br /> way. <br /> http://www.afscme.org/health/excav04.htm 8/25/2005 <br />