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本文(ASTM C890-2006 Standard Practice for Minimum Structural Design Loading for Monolithic or Sectional Precast Concrete Water and Wastewater Structures《用于设计最小负荷结构的整体或分段预制混凝土贮水和废水管道的标准实.pdf)为本站会员(arrownail386)主动上传,麦多课文库仅提供信息存储空间,仅对用户上传内容的表现方式做保护处理,对上载内容本身不做任何修改或编辑。 若此文所含内容侵犯了您的版权或隐私,请立即通知麦多课文库(发送邮件至master@mydoc123.com或直接QQ联系客服),我们立即给予删除!

ASTM C890-2006 Standard Practice for Minimum Structural Design Loading for Monolithic or Sectional Precast Concrete Water and Wastewater Structures《用于设计最小负荷结构的整体或分段预制混凝土贮水和废水管道的标准实.pdf

1、Designation: C 890 06Standard Practice forMinimum Structural Design Loading for Monolithic orSectional Precast Concrete Water and WastewaterStructures1This standard is issued under the fixed designation C 890; the number immediately following the designation indicates the year oforiginal adoption or

2、, in the case of revision, the year of last revision. A number in parentheses indicates the year of last reapproval. Asuperscript epsilon (e) indicates an editorial change since the last revision or reapproval.1. Scope1.1 This practice describes the minimum loads to be appliedwhen designing monolith

3、ic or sectional precast concrete waterand wastewater structures with the exception of concrete pipe,box culverts, utility structures, and material covered in Speci-fication C 478.1.2 This standard does not purport to address all of thesafety concerns, if any, associated with its use. It is therespon

4、sibility of the user of this standard to establish appro-priate safety and health practices and determine the applica-bility of regulatory limitations prior to use.1.3 The values stated in inch-pound units are to be regardedas the standard. The values given in parentheses are providedfor information

5、 only.2. Referenced Documents2.1 ASTM Standards:2C 478 Specification for Precast Reinforced Concrete Man-hole Sections2.2 AASHTO Standard:Standard Specifications for Highway Bridges, 16th Edi-tion32.3 ACI Standard:ACI 318 Building Code Requirements for Reinforced Con-crete43. Terminology3.1 Definiti

6、ons of Terms Specific to This Standard:3.1.1 above ground structuresall structures with theirbase at or above ground.3.1.2 bearing loadsthe foundation pressure reaction to allother loads acting on the structure.3.1.3 below ground structuresall structures other thanthose with their base at or above g

7、round.3.1.4 dead loadsthe mass of the structure and all perma-nent loads imposed on the structure.3.1.5 equipment loadsloads induced into the structure byequipment installed on mounting devices cast into the struc-ture.3.1.6 hydrostatic loadsall pressures due to the weight ofwater or other liquids.3

8、.1.7 lateral earth loadsthe lateral pressure due to theeffective weight of adjacent earth backfill.3.1.8 lifting loadsthe forces induced into the structureduring handling at the precast plant and the construction site.3.1.9 surcharge loadsthe lateral pressure due to verticalloads superimposed on the

9、 adjacent earth backfill.3.1.10 traffc loadsall loads superimposed on the structureor adjacent earth backfill due to vehicles or pedestrians.3.1.11 water and wastewater structuressolar heating res-ervoirs, septic tanks, cisterns, holding tanks, leaching tanks,extended aeration tanks, wet wells, pump

10、ing stations, greasetraps, distribution boxes, oil-water separators, treatment plants,manure pits, catch basins, drop inlets, and similar structures.4. Significance and Use4.1 This practice is intended to standardize the minimumloads to be used to structurally design a precast product.4.2 The user i

11、s cautioned that he must properly correlate theanticipated field conditions and requirements with the designloads. Field conditions may dictate loads greater than mini-mum.5. Design Loads5.1 Dead Loads:5.1.1 Permanent vertical loads typically include the weightof the road bed, walkways, earth backfi

12、ll, and access openingcovers.1This practice is under the jurisdiction of ASTM Committee C27 on PrecastConcrete Products and is the direct responsibility of Subcommittee C27.30 on Waterand Wastewater Containers.Current edition approved Jan. 1, 2006. Published January 2006. Originallyapproved in 1978.

13、 Last previous edition approved in 1999 as C 89091 (1999)e1.2For referenced ASTM standards, visit the ASTM website, www.astm.org, orcontact ASTM Customer Service at serviceastm.org. For Annual Book of ASTMStandards volume information, refer to the standards Document Summary page onthe ASTM website.3

14、Available from the American Association of State Highway and TransportationOfficials, 444 N. Capitol St., Washington, DC 20001.4Available from the American Concrete Institute, Box 19150, Detroit, MI48219-0150.1Copyright ASTM International, 100 Barr Harbor Drive, PO Box C700, West Conshohocken, PA 19

15、428-2959, United States.5.1.2 Recommended unit weights of materials for design areshown in Table 1.5.2 Traffc Loads:5.2.1 The vehicle and pedestrian loadings are shown inTable 2.5.2.2 The arrangement and spacing of vehicle wheels areshown in Fig. 1 and Fig. 2.5.2.3 Distribution of Wheel Loads throug

16、h Earth Fills:5.2.3.1 For structures where vehicle wheels contact the topsurface of the structure, the vehicle wheel loads will bedistributed over an area as shown in Fig. 3. The loaded areawill be:A 5 W 3 L (1)where:A = wheel load area, ft2(m2),W = wheel width, ft (m), andL = wheel length, ft (m).5

17、.2.3.2 For below ground structures where backfill separatesthe vehicle wheels and the top surface of the structure, thevehicle wheel loads will be distributed as a truncated pyramidas shown in Fig. 4.The loaded area will be:A 5 W 1 1.75 H! 3 L 1 1.75 H! (2)where:A = wheel load area, ft2(m2),W = whee

18、l width, ft (m),L = wheel length, ft (m), andH = height of backfill between wheels and structure, ft (m).5.2.3.3 When several distributed wheel load areas overlap,the total wheel load will be uniformly distributed over acomposite area defined by the outside limits of the individualareas. Such a whee

19、l load distribution is shown in Fig. 5.5.2.3.4 When the dimensions of the distributed load area orthe composite distributed load area exceed the top surface areaof the structure, only that portion of the distributed load withinthe top surface area will be considered in the design.5.2.4 The effects o

20、f impact will increase the live wheel loadsdesignated as A-16, A-12, and A-8 as shown in Table 3.TABLE 1 Unit Weights of MaterialsMaterial Weight, lbf/ft3(N/m3)Concrete (plain or reinforced) 150 (23 600)Lightweight Concrete (reinforced) 100 to 130 (15 700 to 20 400)Cast Iron 450 (70 700)Steel 490 (7

21、7 000)Aluminum 175 (27 500)Earth Fill 100 to 150 (15 700 to 23 600)Macadam 140 (22 000)TABLE 2 Vehicle and Pedestrian Load DesignationsDesignation Load, max UsesA-16 (HS20-44)A16 000 lbf (71 200 N) per wheel heavy trafficA-12 (HS15-44)A12 000 lbf (53 400 N) per wheel medium trafficA-8 (H10-44)A8 000

22、 lbf (35 600 N) per wheel light trafficA-03 300 lbf/ft2(14 400 Pa) walkwaysAThe designations in parentheses are corresponding ASSHTO designations.DesignationLoad at A Load at B Load at Clbf N lbf N lbf NA-16 (HS20-44)A4 000 17 800 16 000 71 200 12 000 53 400A-12 (HS15-44)A3 000 13 300 12 000 53 400

23、8 000 35 600A-8 (H10-44)A2 000 8 900 8 000 35 600 6 000 26 700AThe designations in parentheses are corresponding ASSHTO designations.FIG. 1 Single Vehicle Traffic Loads and SpacingC8900625.3 Hydrostatic Loads:5.3.1 The water pressure acting on any point on the outsidesurface of the structure is:PW5

24、WW3 HW(3)where:PW= hydrostatic pressure, lbf/ft2(Pa),WW= unit weight of water, lbf/ft3(N/m3), andHW= distance from the ground water surface to the pointon the structure under consideration, ft (m).5.3.2 The liquid pressure acting on any point on the insidesurface of the structure is:PL5 WL3 HL(4)whe

25、re:PL= liquid pressure, lbf/ft2(Pa),WL= unit weight of the liquid, lbf/ft3(N/m3), andHL= distance from the liquid surface to the point on thestructure under consideration, ft (m).5.4 Lateral Earth Loads:5.4.1 The lateral earth pressure on the walls of a buriedstructure for the portion of the walls a

26、bove the ground watersurface will be:PE5 K 3 WE3 HE(5)where:PE= lateral earth pressure, lbf/ft2(Pa),K = coefficient of lateral earth pressure,WE= unit weight of the earth backfill, lbf/ft3(N/m3), andHE= distance from the surface of the earth backfill to thepoint on the structure walls under consider

27、ation, ft(m).5.4.2 The lateral earth pressure on the walls of a buriedstructure for the portion of the walls below the ground watersurface will be:PE5 K 3 WE3 HE2 HW!# 1 K 3 WE2 WW! 3 HW# (6)where:PE= lateral earth pressure, lbf/ft2(Pa),K = lateral earth pressure coefficient,WE= unit weight of the e

28、arth backfill, lbf/ft3(N/m3),HE= distance from the surface of the earth backfill to thepoint on the structure under consideration, ft (m),WW= unit weight of water, lbf/ft3(N/m3), andHW= the distance from the surface of the ground watertable to the point on the structure under consider-ation, ft (m).

29、5.4.3 Laboratory and field testing has shown that the valueof the lateral earth pressure coefficient depends on the yieldingof the wall of the structure relative to the earth backfill. Wallsof sectional precast concrete structures can yield by rotating,translating, or deflecting. Walls of monolithic

30、 precast concretestructures can yield by deflecting.FIG. 2 Multiple Vehicle SpacingFIG. 3 Wheel Load AreaFIG. 4 Distributed Load AreaFIG. 5 Composite Distributed Load AreaTABLE 3 Wheel Load Increases for ImpactHeight of Backfill Between Wheel and Structure Increase0 to 12 in. (0 to 305 mm) 30 %13 to

31、 24 in. (330 to 610 mm) 20 %25 to 35 in. (635 to 890 mm) 10 %36 in. (915 mm) or greater 0 %C8900635.4.3.1 The lateral earth pressure on a structure where thewalls cannot yield will be considered as the at-rest pressure.The value of the lateral earth pressure coefficient for thiscondition can be esti

32、mated by Jakys equation of:KO5 1 2 sin f (7)where:KO= at-rest lateral earth pressure coefficient, andf = internal friction angle of the earth backfill, degrees.The value of KOshall be as computed or 0.50, whichever isgreater.5.4.3.2 The lateral earth pressure on a structure where thewalls can yield

33、sufficiently will be considered as the activepressure. The value of the lateral earth pressure coefficient forthis condition can be estimated by Coulombs or Rankinesequation of:KA5 1 2 sin f/1 1 sin f (8)where:KA= active earth pressure coefficient, andf = internal friction angle of the earth backfil

34、l, degrees.The value of KAshall be as computed or 0.30, whichever isgreater.5.5 Surcharge Loads:5.5.1 When traffic can come within a horizontal distancefrom the structure equal to one half of the height of thestructure, a lateral surcharge pressure will be applied to thewall of the structure. Latera

35、l surcharge pressures for thedesignated vehicle wheel loads are shown in Table 4.5.5.2 Lateral surcharge loads from traffic will be considerednegligible below a vertical distance 8 ft (2.4 m) below thewheel.5.6 Lifting Loads:5.6.1 The lifting load induced into the structure will be notless than the

36、total dead weight of the precast unit distributedover not more than three lifting points.5.7 Cumulative Loadings:5.7.1 The cumulative vertical loading possible on the top orbase of a structure are shown schematically in Fig. 6 and Fig.7, respectively.5.7.2 The cumulative horizontal loadings possible

37、 on thewalls of a structure are shown schematically in Fig. 8.6. Loading Combinations for Above Ground Structures6.1 The design load for the top of the structure will considerthe cumulative effects of dead loads, snow loads, and either apedestrian live load if applicable, or a nominal live load of 2

38、0lbf/ft2(958 Pa). Local area building codes will be used forsnow loads.6.2 The design load for the walls of the structure willconsider both of two individual load cases.6.2.1 Load Case A Load Case A will consider a structurefull condition and will include only the internal hydrostaticloads.6.2.2 Loa

39、d Case B Load Case B will consider a structureempty condition and will include either the effects of wind loador horizontal vehicle impact if applicable. Local area buildingcodes or a nominal external pressure of 30 lbf/ft2(1436 Pa)will be used for wind loads.6.3 The design load for the base of the

40、structure willconsider the applicable individual load case.6.3.1 Load Case A Load Case A is an empty structureresting on the ground and will consist of a bearing loaduniformly distributed over the base.6.3.2 Load Case B Load Case B is a full structure raisedabove the ground and will include the cumu

41、lative effects ofdead loads and internal hydrostatic loads.7. Loading Combinations for Below Ground Structure7.1 The design load for the top of the structure will considerthe cumulative effects of dead loads, snow loads, and trafficloads. Local area building codes will be used for snow loads.7.2 The

42、 design load for the walls of the structure willconsider both of two independent load cases.7.2.1 Load Case A Load Case A is a structure fullcondition and will include the cumulative effects of maximuminternal hydrostatic loads, minimum external hydrostatic loads,and minimum lateral earth pressure l

43、oads.7.2.2 Load Case B Load Case B is a structure emptycondition and will include the cumulative effects of maximumexternal hydrostatic loads, maximum lateral earth pressures,and lateral surcharge loads.7.3 The design load for the base of the structure willconsider the cumulative effects of the bear

44、ing load and theexternal hydrostatic load.8. Special Loading Considerations8.1 The structural design loading for unique applicationswill also consider thrust, vibration, and ice loads applicable.8.2 The structural design for below ground structures willalso consider buoyancy effects, if applicable,

45、and proportionthe structure to assure an adequate flotation safety factor.TABLE 4 Lateral Surcharge PressuresDesignation Lateral Surcharge PressureA-16 (HS20-44)A80 lbf/ft2(3830 Pa) per wheelA-12 (HS15-44)A60 lbf/ft2(2873 Pa) per wheelA-8 (H10-44)A40 lbf/ft2(1915 Pa) per wheelAThe designations in pa

46、rentheses are corresponding ASSHTO designations.FIG. 6 Cumulative Vertical Top LoadsFIG. 7 Cumulative Vertical Base LoadsC8900648.3 The structural design loading will also consider thestresses due to the effects of concrete shrinkage and thermalmovement. The reinforcing steel provided in areas of th

47、estructure subject to such stresses will equal or exceed theminimum amounts required by the referenced reinforced con-crete design standards in Section 4.8.4 Lifting inserts which are embedded or otherwise at-tached to the structure will be designed for four times themaximum load transmitted to the

48、inserts.ASTM International takes no position respecting the validity of any patent rights asserted in connection with any item mentionedin this standard. Users of this standard are expressly advised that determination of the validity of any such patent rights, and the riskof infringement of such rig

49、hts, are entirely their own responsibility.This standard is subject to revision at any time by the responsible technical committee and must be reviewed every five years andif not revised, either reapproved or withdrawn. Your comments are invited either for revision of this standard or for additional standardsand should be addressed to ASTM International Headquarters. Your comments will receive careful consideration at a meeting of theresponsible technical committee, which you may attend. If you feel that your comments have not received a fair hearing

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