Saturday, March 30, 2019
Different Types Of Retaining Wall Systems Available Construction Essay
Different symbols Of Retaining surround Sy reports Available Construction EssayAs a Construction Management Consultant of I-Consult Ltd appointed by I- urinate Sdn Bhd, I am required to propose different guinea pigs of prevailing environ system of rules available. My proposal focuses on the site probe, immenseness of retaining debate, social organization methods, blueprint concepts and prophylactic device measures to mitigate functional failures. I am required to propose an withdraw selection of the roughly equal retaining border system utilize to the wit of Directors, in which the project is located at hilly bea which consists of 20 units of lavishness bungalows.In this proposal, I am going to discussthe importance of site investigating,the importance of retaining circumvent,the concept of retaining border,types of retaining sea wallthe most able retaining wall for this hilly project.The Importance of Site investigatingEvery man-made civil takeing gra mmatical construction is found on, in or with strands. The coordinate we launch on the end is man-made. We can nurse to externalise every item that goes into our structure, such as concrete, reinforcement, bricks and even the last wall plug. However, the to a lower placefur to a lower place on which this structure exit stand is not man-made. We usually hurl less knowledge ab protrude it and we undoubtedly cannot image or tick its behavior. The ground below will determine the economies of how tall, how heavy, how safe the final structure is going to be and not the other(a) way round. In short, the pencil eraser and economics of every civil engineering structure is influenced by the properties of the ground on which this structure will stand. These properties of the ground below or sub- mark properties be obtained via Site investigation.In any site investigation clobber, the questions which should be stubborn in determining the investigation program arWhat type o f investigation is needed,Why they argon needed,Where the actual field works should be performed,How the work is to be done.Whether the investigation is sufficient or too much.Site investigation is normally crucial and carried out prior to the commencement of design of a verbalism project. Site investigation has been defined as investigation of the somatogenic characteristics of the site and involves documentary studies, site surveys and ground investigation. It is also refers to the actual come roughly or subsur casing investigation, including on site and laboratory tests. In roomy sense, study of the site history and environment, interpretation and analyses of all available data, and reservation recommendations on the favorable/unfavorable locations, economic and safe design, and prediction of say-so take a chances should also be included in site investigations.First and foremost, a desk study to reveal data which may already exist concerning the site, its geology and his tory, unitedly with a site reconnaissance, is invaluable and can be done in the beginning purchase at minimal cost. This may be followed by campaign pitting, probing or boring as appropriate to the conditions revealed by foregoing studies and in the put down of the development proposals. It is also a precaution to derogate damage that could be caused by these soils could also be communicated at this stage. At least home dwellers would be alerted to potential problems (and the associated costs) from the outset, thus enabling them to hold in informed decisions regarding the most appropriate foundation system for their homes.Site investigation is designed to identify the characteristics of soils or fill frameworks which lie beneath the site, the ground peeing conditions and the founding and extent of other physical features or contaminants which may be present. This education influences the selection and design of an appropriate structural form for the proposed giveing. It is a ferment which should continue on an iterative basis throughout the design and construction phases. Post-construction monitoring can also be of importance in many an(prenominal) instances as part of a validation process.The combined building laden indicated in auspicate 1 must be safely bear out up by the subsoil and also ensure that unreasonable drivings of the building do not occur. If the suffering soil is sufficient supportant and its characteristics under turn on be potential to re chief(prenominal) satisfactory, the problems of support and movement will be easily resolved. However, few soils other than rock can resist these grueling loads and it is usually necessary to collect the resolved loads at their lowest point and transfer them to adequate bearing soil know to be available on a particular site (figure 2). physical body 1 Combined building loads picture 2 method of transferring combined building loads to supporting soil.The general distribution of soil ty pes in the United Kingdom is indicated in figure 3 the soils include peat, clay, slit, sand and gravel. Corresponding safe bearing rack sensations are also given.Figure 3 simplified distribution of versatile types of supporting soilsLastly, site investigation should be undertaken by professional specialists, such as surveyors, geotechnical engineer and ground investigation contractor, and in a phased manner. The ground investigation contractor is creditworthy for providing reliable factual data. The geotechnical consultant should responsible for the planning execution of the investigation program, interpretation and analyses of results, and making appropriate design recommendations to avoid everywhere design as well as unsafe design.Failure of Site InvestigationDue to lack of or inadequacy of guide/code necessary regarding the extent as well as feature of site investigation work, geotechnical failures often occurred. These failures sometime led to catastrophic disaster and im posed sincere threat to public safety.For the mountainous Incident in Kuala Lumpur in 1993, the interior designer appointed able civil engineer to be the consulting engineer for Highland Towers. Initially, civil engineers scope of works was restricted to the structural aspect of the trio blocks. But subsequently, the civil engineer was engaged by the developer to submit proposals over the waste pipe of the state. His drain plan was approved. He was also carry by the developer to design and supervise the construction of two retaining walls on the Highland Towers site. The Plaintiffs claimed that the civil engineer was negligent for the following reasons(i) Designing un fitting foundations(ii) Lack of premeditation and concern of the hill and position(iii) Issuing a notice to the governing confirming the drainage works was completed when barely a separate of it was done.By the above acts of preparing, designing and supervising the construction of Highland Towers and the d rainage system of the Highland Towers site, he was negligent and had caused nuisance to them. The civil engineer had used rail piles welded together as foundation to support the trio apartment blocks. This type of piles, which was considered inferior to concrete piles, was authoritative in the engineering and building industry to support high-rise buildings at the material time. Thus, no fault can be attributed to the civil engineer in using the rail piles as he was only adhering to the accepted professional practice at that time. However, on that point was lack of conside balancen by the civil engineer to the hill and the slope directly behind the three blocks. The court ruled that the civil engineer should confine reasonably foreseen the risk of a landslide producing a lateral load against the foundation of the building. For this, he should have exercised care to either design or construct a foundation to accommodate the lateral load or ensure that the slope was reasonably st able. Failure to do so is a breach of his certificate of indebtedness of care he owes to the Plaintiffs since his duty was to ensure the safety of the buildings he designed and build. The civil engineers attempt to deny liability on the ground that he relied on the developer to ensure that other retaining walls were constructed properly was unsuccessful. The judge found that it was incumbent upon the civil engineer to enquire and ascertain whether the work was that of a qualified professional and what its impact susceptibility be on the safety of his declare building.Figure 4 Highland Incident in Kuala Lumpur in 1993What is Retaining beleaguer?A retaining wall is a stabilizing structure designed and constructed to retain soil at a slope that is greater than it would naturally assume, usually at a vertical or near-vertical position. Besides, the retaining wall used to hold the erosion and the movement of soil. The function of retaining wall is to resist the lateral closet of soil when on that point is a desired change in ground elevation that exceeds the natural slope taken by the soil which is called the locomote of repose of the soil. The retaining wall is the wedge of soil resting on this upper run d sustain of the angle of repose that a retaining wall has to support.It is also designed with holler holes which allow collected pee to escape. This releases the concomitantal closet created by a accumulated water and helps in stabilizing the retaining wall.The walls are designed to fling the necessary resistance by using their own sess to resist the thrust or relying upon the principles of leverage. The terminology used in retaining wall construction is shown on figure 5Figure 5 Terminology of Retaining argueConstructing a retaining wall, several types of materials can be used. cavity and concrete are the most common materials used in constructing a retaining wall. Besides, there are also special retaining wall blocks crafted from aggregate mat erials and light concrete which are designed for this purpose. Because each block fits securely with the next, some styles interconnect, making building simpler, less costly and time required. These blocks do not require the addition of daub callable to the fit of these blocks is secure.A retaining wall can be tiers or a series of steps, which allow more efficient erosion control as well as a more in advance(p) design. Different types of plantings, flowers or materials in each tier can be included in the design to bring more color, texture and elicit to the area. By breaking down the amount of soil and pressure, a tiered design also give a better erosion control held by each division of the retaining wall instead of adding the aesthetic value.Today, there are several styles and types of retaining wall blocks, and most people choose preformed blocks. irrelevant today, greathearted stones and railroad ties were often used to construct a tiered retaining wall in the past. Perform ed blocks are affordable and user- friendly, making other methods out of date at all, except the look of rough stone or wood is preferred.The Concept of Retaining WallDESIGN PRINCIPLESThe design of any retaining wall is basically concerned with the lateral pressures of the retained soil and any subsoil water. The purposes to construct a retaining wall are shown as belowIt is unvoiced to precisely identify the properties of any soil because they are inconsistent materials. The calculation of pressure exerted at any point on the wall is a task for the expert, who must take into account the following factorsNature and type of soilHeight of water tableSubsoil water movementsType of wallMaterials used in the construction of the wall.Design calculations related to the expiry thrust of retained material behind a 1m length of wall. in that location are two well-established methods can be used to determine the sequential thrustRankines formulaCoulombs graphical representation or wedge t heory. humans PRESSURESThe designer is mainly concerned with the effect of two forms of state pressureACTIVE EARTH PRESSURE are those that tend to move or overturn the retaining wall, and are composed of the creation wedge being retained together with any hydrostatic pressure caused by the presence of groundwater. The latter(prenominal) can be reduced by the use of subsoil drainage behind the wall, or by inserting drainage openings called weep holes through the weightiness of the stem, enabling the water to drain out.PASSIVE EARTH RESISTANCES are re implementist pressures that will react in the form of a resistance to movement of the wall. If the wall tends to move forward, the earth in attend of the toe to balk the forward movement. This pressure can be increased by enlarging the profundity of the toe or by forming a rib on the ass of the origin. nimble earth pressures must equal to passive earth resistances in order to avoid overturning and circular slip. Typical example s of these pressures are shown in figure 6 and figure 7.Figure 6 Active and Passive man Pressures act on rush Retaining WallFigure 7 Active and Passive Earth Pressures act on jut Retaining Wall perceptual constancyThe overall stability of a retaining wall is governed by the result of the action and reaction of a number of loadsEFFECT OF WATERThe design and stability can be affected by ground water behind a retaining wall whether static or percolating through subsoil. The pressure on the sand of the wall will be increased. By cut back the soil crop strength, the bearing capacity of the soil can be reduced it can reduce the frictional resistance between the base and the soil and reduce possible passive pressure in battlefront of the wall. As a result, the issue of drainage of the water behind the retaining wall is the utmost important in the design.SLIP CIRCLE FAILURE fault band failure (shown in figure 8) is sometimes encountered with retaining wall in clay soils, particularly where there is a heavy surcharge of retained material. It takes the form of a rotational movement of the soil and wall along a circular swerve. The arc commences behind the wall and passes under the base, resulting in a tilting and forward movement of the wall. Further movement can be prevented by driving sheet piles into ground in front of the toe, to a depth that will cut the slip circles arc.Moment collectable to weight of retained earth and wall above slip circle arc about O is greater than restoring moment RM.RM=permissible shear stress x length of arc ABC x arc radius OCResult mass above ABC rotates about O. Wall tilts forward and earth heaves in front.Figure 8 Retaining wall failure due to rotational movement.The Importance of a Retaining WallA retaining wall might be built on property for various reasons. Some level of low-down and soil will be held away from home, garden, pool or play area by building a retaining wall.The sheer aesthetics might also be added on it. A mo re operable land will be provided if there have a lot of rolling and slopping yard.The importance of retaining wall is stated as belowRetaining Walls Hold Back the EarthBuildings might be built on a hill or in a vale between several hills. Retaining wall will hold back the earth once the hillside has been dig out to construct buildings. Dirt does back in from the sides of the wall with each shovel full. The more you shovel, the dirt begins to fall back in. the sides are loose and weak, so they will crumble at the slightest provocation.The dirt which remains has to discharge when the side of a hill is dug out. If leftfield alone, it will eventually comes tumbling down. The dirt will be held back and the safety will be ensured.Retaining Walls Provide More Usable bring downA walk-out basement, patio, playground, garden, tennis court or swimming pool might be installed into proposed development. If the land is rolling or hilly, work cannot be begun until the ground is leveled off.A s ort of cliff, where a part of the proposed land which is not dug out is higher than the lower flat land, will then be left out. Adding a retaining wall will have more usable land as well as will add structure and beauty to your new area. Retaining wall can be used as steps into the pool where pool equipments to be held.Retaining Walls Avoid the Ground from airstream AwayIf the area gets a lot of rainfall or near water such as lake, a retaining wall will handle the water from eroding the soil of your landscaping and around your foundation. This could be a safety measure to prevent landslides and river of dirt from floating towards the buildings.Types of WallMass retaining wallsMass retaining walls also known as gravity walls. They rely upon their own mass together with the friction on the underside of the base to get across the tendency to slide or overturn. They are generally economic only up to a height of 1.800m. Mass walls can be constructed of semi-engineering quality bricks bedded in a 13 cement mortar or of mass concrete. Mass concrete could have some light fabric reinforcement to control surface cracking. Natural stone is suitable for small walls up to 1.000m high, but generally it is used as a facing material for walls up to 1.000m high, but generally it is used as a facing material for wall over 1.000m.Typical examples of mass retaining walls are shown in figure 9 and 10Figure 9 Brick Mass Retaining WallsFigure 10 Mass cover Retaining Wall with Stone Facings jut out wallsCantilever walls are usually of reinforced concrete, and work on the principles of leverage. Two basic forms can be considered a base with a large heel so that the mass of the wall with a large toe (figure 10). The figure shows typic sections and patterns of reinforcement encountered with these basic forms of cantilever retaining wall. The main steel occurs on the tension face of the wall, and nominal steel (0.15% of the cross-section(a) area of the wall) is very often included i n the opposite face to control the shrinkage cracking that occurs in in-situ concrete work. financial support requirements, bending, fabricating and placing are dealt with in detail in the section on the reinforced concrete. strengthened cantilever walls have an economic height range of 1.200-6.000m. Walls in excess of this height have been economically constructed using prestressing techniques. Any long facing material may be applied to the surface to amend the appearance of the wall, but it must be remembered that such finishes are nonfunctional and add nothing to the structural strength of the wall.Figure 10 strengthened Concrete Cantilever Retaining WallsCounterfort Retaining WallsThese walls can be constructed of reinforced or prestressed concrete, and are considered suitable if the height is over 4.500m. The counterforts are triangular beams placed at suitable centres behind the stem and above the base to enable the stem and base to act as slabs spanning horizontally over or under the counterforts. Figure 11 and figure 12 show a typical section and pattern of reinforcement for a counterofrt retaining wall.If the counterforts are placed on the face of the stem they are termed buttresses, and the whole arrangement is called a buttress-retaining wall. The design and construction principles are similar in the two formats.Figure 11 Reinforced Concrete Counterfort Retaining WallFigure 12 Reinforced Concrete Counterfort Retaining WallReinforced masonry retaining wallsSteel reinforcement may be used in brick retaining walls to resist tensile forces and to prevent the effects of shear. A brick adhere arrangement known as Quetta impound is used to create a uniform distribution of vertical voids. Vertical steel reinforcement is tie to the foundation reinforcement and spaced to coincide with purpose-made voids. The voids are fill up with concrete to produce a series of reinforced concrete mini-columns in spite of appearance the wall when the brickwork is c ompleted.Where appearance is not important, or the wall is to receive a surface treatment, reinforcement and in-situ concrete within hollow concrete block work provide for economical and functional construction. Figure 13 shows the application of standard-profile, hollow, dense concrete blocks lay in stretcher bond as permanent formwork to continuous vertical columns.Figure 13 Reinforced Concrete Block Retaining WallThe height potential and slenderness ratio (effective height to width) for reinforced masonry walls can be enhanced by post-tensioning the structure. For purposes of brick walls there are a number of construction options, includingQuetta bond with steel bar concrete in the voidsStretcher-bonded wide cavity with reinforced steel prohibit coated for corrosion protectionSolid wall of perforated bricks with continuous voids containing grouted steel reinforcement bars.Some examples are shown in figure 14Figure 14 Post-tensioned Brick Retaining WallsConclusionBased on discus sion shown on above, I would like to select Cantilever retaining wall as the most suitable retaining wall for the project where is located at hilly area which consists of 20 units of luxury bungalows.As shown as above, a cantilever retaining wall is a form of masonry installation that holds a large amount of earth in place. The cantilever design is just one of several variations on a retaining wall design, using various principles to manage earth loads. Cantilever retaining wall has an economic height range of 1.200-6.000m. This type of retaining wall is suitable for bungalows because the height is sufficient to support the bungalows.A concrete cantilever retaining wall uses a relatively thin stem of steel-reinforced, cast-in-place, concrete or mortared masonry. In a cantilever retaining wall design, an earth pressure vector acts horizontally against the side of the wall. The bottom part of the wall presents a gravity vector downward. That gravity vector produces an opposite force upward. The resulting vector counters the earth pressure vector, and pushes back against the earth load. This type of retaining wall is more stable compared to the other three types which stated on above in order to build 20 units of luxury bungalows because the loads are distributed equally.Retaining wall design is evaluated to condition the effects of a landslide. Retaining walls can be helpful in defend soil against the kinds of movement associated with these natural disasters. Looking at landslide risk and the risk of liquefaction, the water saturation of earth, is part of assessing how a retaining wall works. Cantilever retaining wall is one that consists of a uniform thickness wall which is tied(p) to a footing. It located at the basement of bungalows. Thus, cantilever retaining wall will hold back the earth. Soil erosion, landslides and environment disasters are less likely to be occurred. In other words, cracking and collapse of 20 units of luxury bungalows are avoided.We ep holes are designed in the cantilever retaining wall to release the additional pressure created by a accumulated water and helps in stabilizing the retaining wall. This ensures the building will not collapse due to the fast flow of water on the hill.In conclusion, a suitable retaining wall is able to stabilize the soil and avoid overturning and sliding of building. Beside, a suitable retaining wall can also help in miserliness the construction cost. Therefore, cantilever retaining wall is the most suitable retaining wall for 20 units of luxury bungalows which are located on the hilly area.
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