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Structural load

January 01, 1970

A structural load or structural action is a force, deformation, or acceleration applied to structural elements.[1][2] A load causes stress, deformation, and displacement in a structure. Structural analysis, a discipline in engineering, analyzes the effects of loads on structures and structural elements. Excess load may cause structural failure, so this should be considered and controlled during the design of a structure. Particular mechanical structures—such as aircraft, satellites, rockets, space stations, ships, and submarines—are subject to their own particular structural loads and actions.[3] Engineers often evaluate structural loads based upon published regulations, contracts, or specifications. Accepted technical standards are used for acceptance testing and inspection.

Types edit

In civil engineering, specified loads are the best estimate of the actual loads a structure is expected to carry. These loads come in many different forms, such as people, equipment, vehicles, wind, rain, snow, earthquakes, the building materials themselves, etc. Specified loads also known as characteristic loads in many cases.

Buildings will be subject to loads from various sources. The principal ones can be classified as live loads (loads which are not always present in the structure), dead loads (loads which are permanent and immovable excepting redesign or renovation) and wind load, as described below. In some cases structures may be subject to other loads, such as those due to earthquakes or pressures from retained material. The expected maximum magnitude of each is referred to as the characteristic load.

Dead loads are static forces that are relatively constant for an extended time. They can be in tension or compression. The term can refer to a laboratory test method or to the normal usage of a material or structure.

Live loads are usually variable or moving loads. These can have a significant dynamic element and may involve considerations such as impact, momentum, vibration, slosh dynamics of fluids, etc.

An impact load is one whose time of application on a material is less than one-third of the natural period of vibration of that material.

Cyclic loads on a structure can lead to fatigue damage, cumulative damage, or failure. These loads can be repeated loadings on a structure or can be due to vibration.

Imposed loads are those associated with occupation and use of the building; their magnitude is less clearly defined and is generally related to the use of the building.

Loads on architectural and civil engineering structures edit

Structural loads are an important consideration in the design of buildings. Building codes require that structures be designed and built to safely resist all actions that they are likely to face during their service life, while remaining fit for use.[4] Minimum loads or actions are specified in these building codes for types of structures, geographic locations, usage and building materials.[5] Structural loads are split into categories by their originating cause. In terms of the actual load on a structure, there is no difference between dead or live loading, but the split occurs for use in safety calculations or ease of analysis on complex models.

To meet the requirement that design strength be higher than maximum loads, building codes prescribe that, for structural design, loads are increased by load factors. These load factors are, roughly, a ratio of the theoretical design strength to the maximum load expected in service. They are developed to help achieve the desired level of reliability of a structure[6] based on probabilistic studies that take into account the load's originating cause, recurrence, distribution, and static or dynamic nature.[7]

Dead load edit

 
Dead load

The dead load includes loads that are relatively constant over time, including the weight of the structure itself, and immovable fixtures such as walls, plasterboard or carpet. The roof is also a dead load. Dead loads are also known as permanent or static loads. Building materials are not dead loads until constructed in permanent position.[8][9][10] IS875(part 1)-1987 give unit weight of building materials, parts, components.

Live load edit

 
Imposed load (live load)

Live loads, or imposed loads, are temporary, of short duration, or a moving load. These dynamic loads may involve considerations such as impact, momentum, vibration, slosh dynamics of fluids and material fatigue.

Live loads, sometimes also referred to as probabilistic loads, include all the forces that are variable within the object's normal operation cycle not including construction or environmental loads.

Roof and floor live loads are produced during maintenance by workers, equipment and materials, and during the life of the structure by movable objects, such as planters and people.

Bridge live loads are produced by vehicles traveling over the deck of the bridge.

Environmental loads edit

 
Live snow load

Environmental loads are structural loads caused by natural forces such as wind, rain, snow, earthquake or extreme temperatures.

Other loads edit

Engineers must also be aware of other actions that may affect a structure, such as:

Load combinations edit

A load combination results when more than one load type acts on the structure. Building codes usually specify a variety of load combinations together with load factors (weightings) for each load type in order to ensure the safety of the structure under different maximum expected loading scenarios. For example, in designing a staircase, a dead load factor may be 1.2 times the weight of the structure, and a live load factor may be 1.6 times the maximum expected live load. These two "factored loads" are combined (added) to determine the "required strength" of the staircase.

The size of the load factor is based on the probability of exceeding any specified design load. Dead loads have small load factors, such as 1.2, because weight is mostly known and accounted for, such as structural members, architectural elements and finishes, large pieces of mechanical, electrical and plumbing (MEP) equipment, and for buildings, it's common to include a Super Imposed Dead Load (SIDL) of around 5 pounds per square foot (psf) accounting for miscellaneous weight such as bolts and other fasteners, cabling, and various fixtures or small architectural elements. Live loads, on the other hand, can be furniture, moveable equipment, or the people themselves, and may increase beyond normal or expected amounts in some situations, so a larger factor of 1.6 attempts to quantify this extra variability. Snow will also use a maximum factor of 1.6, while lateral loads (earthquakes and wind) are defined such that a 1.0 load factor is practical. Multiple loads may be added together in different ways, such as 1.2*Dead + 1.0*Live + 1.0*Earthquake + 0.2*Snow, or 1.2*Dead + 1.6(Snow, Live(roof), OR Rain) + (1.0*Live OR 0.5*Wind).

Aircraft structural loads edit

For aircraft, loading is divided into two major categories: limit loads and ultimate loads.[11] Limit loads are the maximum loads a component or structure may carry safely. Ultimate loads are the limit loads times a factor of 1.5 or the point beyond which the component or structure will fail.[11] Gust loads are determined statistically and are provided by an agency such as the Federal Aviation Administration. Crash loads are loosely bounded by the ability of structures to survive the deceleration of a major ground impact.[12] Other loads that may be critical are pressure loads (for pressurized, high-altitude aircraft) and ground loads. Loads on the ground can be from adverse braking or maneuvering during taxiing. Aircraft are constantly subjected to cyclic loading. These cyclic loads can cause metal fatigue.[13]

See also edit

References edit

  1. ^ ASCE/SEI 7-05 Minimum Design Loads for Buildings and Other Structures. American Society of Civil Engineers. 2006. p. 1. ISBN 0-7844-0809-2.
  2. ^ "1.5.3.1". Eurocode 0: Basis of structural design EN 1990. Bruxelles: European Committee for Standardization. 2002.
  3. ^ Avallone, E.A.; Baumeister, T. (eds.). Mark's Standard Handbook for Mechanical Engineers (10th ed.). McGraw-Hill. pp. 11–42. ISBN 0-07-004997-1.
  4. ^ "2.2.1(1)". Eurocode 0: Basis of structural design EN 1990. Bruxelles: European Committee for Standardization. 2002.
  5. ^ "1604.2". International Building Code. USA: International Code Council. 2000. p. 295. ISBN 1-892395-26-6.
  6. ^ "2.2.5(b)". Eurocode 0: Basis of structural design EN 1990. Bruxelles: European Committee for Standardization. 2002.
  7. ^ Rao, Singiresu S. (1992). Reliability Based Design. USA: McGraw-Hill. pp. 214–227. ISBN 0-07-051192-6.
  8. ^ 2006 International Building Code Section 1602.1.
  9. ^ EN 1990 Euro code – Basis of structural design section 4.1.1
  10. ^ EN 1991-1-1 Euro code 1: Actions on Structures – Part 1-1: General actions – densities, self-weight, imposed loads for buildings section 3.2
  11. ^ a b Bruce K. Donaldson, Analysis of Aircraft Structures: An Introduction (Cambridge; New York: Cambridge University Press, 2008), p. 126
  12. ^ Experimental Mechanics: Advances in Design, Testing and Analysis, Volume 1, ed. I. M. Allison (Rotterdam, Netherlands: A.A. Balkema Publishers, 1998), p. 379
  13. ^ Bruce K. Donaldson, Analysis of Aircraft Structures: An Introduction (Cambridge; New York: Cambridge University Press, 2008), p. 129

External links edit

  • Luebkeman, Chris H., and Donald Petting "Lecture 17: Primary Loads". University of Oregon. 1996
  • Fisette, Paul, and the American Wood Council. "Understanding Loads and Using Span Tables". 1997.[2] 2015-05-06 at the Wayback Machine

January 01, 1970
structural, load, structural, load, structural, action, force, deformation, acceleration, applied, structural, elements, load, causes, stress, deformation, displacement, structure, structural, analysis, discipline, engineering, analyzes, effects, loads, struct. A structural load or structural action is a force deformation or acceleration applied to structural elements 1 2 A load causes stress deformation and displacement in a structure Structural analysis a discipline in engineering analyzes the effects of loads on structures and structural elements Excess load may cause structural failure so this should be considered and controlled during the design of a structure Particular mechanical structures such as aircraft satellites rockets space stations ships and submarines are subject to their own particular structural loads and actions 3 Engineers often evaluate structural loads based upon published regulations contracts or specifications Accepted technical standards are used for acceptance testing and inspection Contents 1 Types 2 Loads on architectural and civil engineering structures 2 1 Dead load 2 2 Live load 2 3 Environmental loads 2 4 Other loads 2 5 Load combinations 3 Aircraft structural loads 4 See also 5 References 6 External linksTypes editThis section needs additional citations for verification Please help improve this article by adding citations to reliable sources in this section Unsourced material may be challenged and removed April 2024 Learn how and when to remove this template message In civil engineering specified loads are the best estimate of the actual loads a structure is expected to carry These loads come in many different forms such as people equipment vehicles wind rain snow earthquakes the building materials themselves etc Specified loads also known as characteristic loads in many cases Buildings will be subject to loads from various sources The principal ones can be classified as live loads loads which are not always present in the structure dead loads loads which are permanent and immovable excepting redesign or renovation and wind load as described below In some cases structures may be subject to other loads such as those due to earthquakes or pressures from retained material The expected maximum magnitude of each is referred to as the characteristic load Dead loads are static forces that are relatively constant for an extended time They can be in tension or compression The term can refer to a laboratory test method or to the normal usage of a material or structure Live loads are usually variable or moving loads These can have a significant dynamic element and may involve considerations such as impact momentum vibration slosh dynamics of fluids etc An impact load is one whose time of application on a material is less than one third of the natural period of vibration of that material Cyclic loads on a structure can lead to fatigue damage cumulative damage or failure These loads can be repeated loadings on a structure or can be due to vibration Imposed loads are those associated with occupation and use of the building their magnitude is less clearly defined and is generally related to the use of the building Loads on architectural and civil engineering structures editStructural loads are an important consideration in the design of buildings Building codes require that structures be designed and built to safely resist all actions that they are likely to face during their service life while remaining fit for use 4 Minimum loads or actions are specified in these building codes for types of structures geographic locations usage and building materials 5 Structural loads are split into categories by their originating cause In terms of the actual load on a structure there is no difference between dead or live loading but the split occurs for use in safety calculations or ease of analysis on complex models To meet the requirement that design strength be higher than maximum loads building codes prescribe that for structural design loads are increased by load factors These load factors are roughly a ratio of the theoretical design strength to the maximum load expected in service They are developed to help achieve the desired level of reliability of a structure 6 based on probabilistic studies that take into account the load s originating cause recurrence distribution and static or dynamic nature 7 Dead load edit nbsp Dead load The dead load includes loads that are relatively constant over time including the weight of the structure itself and immovable fixtures such as walls plasterboard or carpet The roof is also a dead load Dead loads are also known as permanent or static loads Building materials are not dead loads until constructed in permanent position 8 9 10 IS875 part 1 1987 give unit weight of building materials parts components Live load edit nbsp Imposed load live load Live loads or imposed loads are temporary of short duration or a moving load These dynamic loads may involve considerations such as impact momentum vibration slosh dynamics of fluids and material fatigue Live loads sometimes also referred to as probabilistic loads include all the forces that are variable within the object s normal operation cycle not including construction or environmental loads Roof and floor live loads are produced during maintenance by workers equipment and materials and during the life of the structure by movable objects such as planters and people Bridge live loads are produced by vehicles traveling over the deck of the bridge Environmental loads edit nbsp Live snow load Environmental loads are structural loads caused by natural forces such as wind rain snow earthquake or extreme temperatures Wind loads Snow rain and ice loads Seismic loads Hydrostatic loads Temperature changes leading to thermal expansion cause thermal loads Ponding loads Frost heaving Lateral pressure of soil groundwater or bulk materials Loads from fluids or floods Permafrost melting Dust loads Other loads edit Engineers must also be aware of other actions that may affect a structure such as Foundation settlement or displacement Fire Corrosion Explosion Creep or shrinkage Impact from vehicles or machinery vibration Construction loads Load combinations edit A load combination results when more than one load type acts on the structure Building codes usually specify a variety of load combinations together with load factors weightings for each load type in order to ensure the safety of the structure under different maximum expected loading scenarios For example in designing a staircase a dead load factor may be 1 2 times the weight of the structure and a live load factor may be 1 6 times the maximum expected live load These two factored loads are combined added to determine the required strength of the staircase The size of the load factor is based on the probability of exceeding any specified design load Dead loads have small load factors such as 1 2 because weight is mostly known and accounted for such as structural members architectural elements and finishes large pieces of mechanical electrical and plumbing MEP equipment and for buildings it s common to include a Super Imposed Dead Load SIDL of around 5 pounds per square foot psf accounting for miscellaneous weight such as bolts and other fasteners cabling and various fixtures or small architectural elements Live loads on the other hand can be furniture moveable equipment or the people themselves and may increase beyond normal or expected amounts in some situations so a larger factor of 1 6 attempts to quantify this extra variability Snow will also use a maximum factor of 1 6 while lateral loads earthquakes and wind are defined such that a 1 0 load factor is practical Multiple loads may be added together in different ways such as 1 2 Dead 1 0 Live 1 0 Earthquake 0 2 Snow or 1 2 Dead 1 6 Snow Live roof OR Rain 1 0 Live OR 0 5 Wind Aircraft structural loads editFor aircraft loading is divided into two major categories limit loads and ultimate loads 11 Limit loads are the maximum loads a component or structure may carry safely Ultimate loads are the limit loads times a factor of 1 5 or the point beyond which the component or structure will fail 11 Gust loads are determined statistically and are provided by an agency such as the Federal Aviation Administration Crash loads are loosely bounded by the ability of structures to survive the deceleration of a major ground impact 12 Other loads that may be critical are pressure loads for pressurized high altitude aircraft and ground loads Loads on the ground can be from adverse braking or maneuvering during taxiing Aircraft are constantly subjected to cyclic loading These cyclic loads can cause metal fatigue 13 See also editHotel New World disaster caused by omitting the dead load of the building in load calculations Influence line Probabilistic design Mechanical load Structural testing Southwell plotReferences edit ASCE SEI 7 05 Minimum Design Loads for Buildings and Other Structures American Society of Civil Engineers 2006 p 1 ISBN 0 7844 0809 2 1 5 3 1 Eurocode 0 Basis of structural design EN 1990 Bruxelles European Committee for Standardization 2002 Avallone E A Baumeister T eds Mark s Standard Handbook for Mechanical Engineers 10th ed McGraw Hill pp 11 42 ISBN 0 07 004997 1 2 2 1 1 Eurocode 0 Basis of structural design EN 1990 Bruxelles European Committee for Standardization 2002 1604 2 International Building Code USA International Code Council 2000 p 295 ISBN 1 892395 26 6 2 2 5 b Eurocode 0 Basis of structural design EN 1990 Bruxelles European Committee for Standardization 2002 Rao Singiresu S 1992 Reliability Based Design USA McGraw Hill pp 214 227 ISBN 0 07 051192 6 2006 International Building Code Section 1602 1 EN 1990 Euro code Basis of structural design section 4 1 1 EN 1991 1 1 Euro code 1 Actions on Structures Part 1 1 General actions densities self weight imposed loads for buildings section 3 2 a b Bruce K Donaldson Analysis of Aircraft Structures An Introduction Cambridge New York Cambridge University Press 2008 p 126 Experimental Mechanics Advances in Design Testing and Analysis Volume 1 ed I M Allison Rotterdam Netherlands A A Balkema Publishers 1998 p 379 Bruce K Donaldson Analysis of Aircraft Structures An Introduction Cambridge New York Cambridge University Press 2008 p 129External links editLuebkeman Chris H and Donald Petting Lecture 17 Primary Loads University of Oregon 1996 1 Fisette Paul and the American Wood Council Understanding Loads and Using Span Tables 1997 2 Archived 2015 05 06 at the Wayback Machine Retrieved from https en wikipedia org w index php title Structural load amp oldid 1220498765, wikipedia, wiki, book, books, library,

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