General Features of Design

00:33:01
https://www.youtube.com/watch?v=pWecDpoJd9E

Summary

TLDRLa lección número tres cubre el diseño de puentes de carretera de hormigón armado, específicamente los tipos de losa maciza y de vigas T RCC. Se exploran las características generales del diseño y las cargas vehiculares. Uno de los objetivos del curso es capacitar a los estudiantes para diseñar eficazmente puentes considerando estos aspectos comunes y fáciles de entender. Las regulaciones del Código de Carreteras de India (IRC) guían el proceso de diseño, asegurando el uso de estándares adecuados para aspectos como el ancho de la calzada, mediana y aceras, así como las cargas a considerar. Se subraya la importancia de definir claramente las dimensiones del puente, asegurándose de que la estructura puede manejar los vehículos previstos de manera segura. Además, se discute cómo los ingenieros deben sostener un conocimiento profundo de los estándares internacionales, como el Eurocode, aunque se pone un énfasis particular en las normas locales de India, ya que son las más aplicables en el contexto discutido. La lección cubre aspectos importantes de planificación y diseño, resaltando la necesidad de un cálculo preciso de la dimensión vertical que se abordará en lecciones posteriores.

Takeaways

  • 📏 Importancia del diseño adecuado de la dimensión y ancho de los puentes.
  • 🚗 Consideración de cargas vehiculares según normas estándar.
  • 📝 Uso de regulaciones de IRC para guiar el diseño estructural.
  • 🔍 Enfoque en puentes de losa maciza y vigas T de hormigón armado.
  • 📚 Referencia a otros códigos como el Eurocode para diseño estructural.
  • 🛤️ Análisis de carga de tráfico para determinar número de carriles.
  • 🔧 Diseño dirigido a simplificar procesos y asegurar seguridad.
  • ⚖️ Ajuste de especificaciones a condiciones locales y normas de India.
  • 🏗️ Inclusión de elementos como aceras y barandillas en el diseño.
  • 🔹 Cálculo de momento flector y fuerzas de corte para dimensionado adecuado.

Timeline

  • 00:00:00 - 00:05:00

    El tercer módulo del curso se centra en el diseño de puentes de carreteras de concreto reforzado, específicamente los puentes de losa sólida y las vigas T de RCC, considerados comunes y simples para introducir los conceptos básicos del diseño de puentes y la carga vehicular.

  • 00:05:00 - 00:10:00

    Se discute la importancia de determinar el vano efectivo y el vano total de un puente, considerando dimensiones físicas como el ancho de la calzada, barrera de césped, y aceras. Estas medidas son cruciales para calcular los momentos de flexión y la fuerza cortante.

  • 00:10:00 - 00:15:00

    Se aborda la importancia de seleccionar adecuadamente el número de carriles basado en el tráfico estimado que un puente debe soportar. Se presentan cálculos para predecir la cantidad de vehículos que pueden transitar y se sugieren configuraciones de carriles para diferentes escenarios, como un solo carril, doble carril, o puentes de múltiples carriles.

  • 00:15:00 - 00:20:00

    Se discuten las especificaciones de ancho para puentes de uno y dos carriles, señalando la necesidad de considerar también espacio para peatones y barreras de seguridad. Se enfatiza la importancia de igualar el ancho del puente con el de las vías de aproximación para evitar congestiones.

  • 00:20:00 - 00:25:00

    Se revisan las directrices del Indian Roads Congress para determinar características como ancho total y provisión de caminos peatonales, teniendo en cuenta tanto situaciones urbanas como no urbanas. También se discute la importancia de medidores centrales para vías expreso y cómo el puente debe adaptarse a los caminos de acceso.

  • 00:25:00 - 00:33:01

    Se concluye que el diseño de la superestructura de un puente depende del vano y se anuncia que la siguiente sección tratará las cargas y tensiones, cruciales para determinar la profundidad del puente y el cálculo de resistencias necesarias para soportar diferentes tipos de cargas, como vehículos y peso propio del puente.

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Mind Map

Video Q&A

  • ¿Cuál es el enfoque principal de la lección?

    El enfoque principal de la lección es el diseño de puentes de carretera de hormigón armado, específicamente los puentes de losa maciza y de vigas T de RCC.

  • ¿Cuál es el objetivo del curso mencionado en la lección?

    El objetivo del curso es ser capaz de diseñar un puente, ya sea de losa maciza o de vigas T de RCC, considerando las cargas y otras características de diseño.

  • ¿Qué regulaciones se mencionan en relación al diseño de puentes?

    La lección menciona las normas IRC (Indian Roads Congress) que incluyen especificaciones y normas de práctica para puentes de carretera.

  • ¿Cuáles son algunas de las dimensiones críticas discutidas en la lección para el diseño de puentes?

    Se destacan los anchos de calzada mínima para puentes de un solo carril (4.25 m) y de dos carriles (7.5 m), y se discuten dimensiones adicionales para senderos peatonales y barandillas.

  • ¿Por qué es importante seguir códigos estándar en el diseño de puentes?

    La lección enfatiza la importancia de usar códigos estándar como IRC para garantizar que todos los diseñadores sigan las mismas pautas, especialmente en lo que respecta a las cargas vehiculares en el diseño de puentes.

  • ¿Se hace referencia a códigos de otras regiones además de India?

    Sí, se mencionan otros códigos internacionales como el Eurocode y estándares de diferentes países, aunque el enfoque principal está en las normas de India.

  • ¿Cómo deben alinearse las dimensiones de un puente con el flujo de tráfico?

    La lección menciona que las dimensiones del puente deben permitir un flujo de tráfico sin congestiones y estar alineadas con el ancho de la carretera en los enfoques.

  • ¿Cómo se tratan las cargas en el diseño de puentes según la lección?

    La lección aborda la importancia de considerar las cargas vehiculares y peatonales específicas, que se regulan por códigos de carga como la norma IRC 6.

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  • 00:00:00
    [Music]
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    hello everybody today we shall start the
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    lecture number three and let me again
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    clarify that this particular course we
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    have taken for reinforced concrete road
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    bridges and that is a very one part of
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    that bridge engineering why we have
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    taken this particular one as I have told
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    earlier that this particular course
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    reinforced concrete bridges particularly
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    solid slab and our CCTV those are very
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    common so we have taken a one-way you
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    can say that which is popular at the
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    same time we can say which is simple
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    simple in a sense that we know
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    reinforced concrete design so how we can
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    apply to bridges coming to this
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    particular one here another objective of
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    this course that at least we should be
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    able to design a bridge either a solid
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    slab or a RCC T beam bridge considering
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    that aspect there are many more things
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    are there which you will find out in
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    different books but we are mainly
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    interested on the point of view design
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    coming to this particular on here so
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    this is our lecture 3 that we are taking
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    a half an hour module that way you can
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    see and we are introducing here the
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    general features of design and vehicle
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    loading that is our objective here the
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    general features of design and vehicle
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    loading these are important last class
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    we have so new different kind of
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    vehicles we have shown you the thing is
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    that how shall we make it standardized
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    which particular Lord shall we used for
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    our design considering that aspect as I
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    have told you this particular figure I
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    have shown you many times
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    and this one we are considering the deck
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    so we require carriageway footpath and
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    class barrier the thing is that this one
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    that means vehicles the middle part the
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    carriageway part you can consider this
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    then we are having footpath we have
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    considered footpath in both sides and
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    you are having Grass barrier in both
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    sides we can help railing also that we
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    shall come different time that we shall
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    come so our objective is that what will
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    be the first thing that one as you know
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    this is the direction of vehicle so
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    vehicle is moving in this particular
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    direction so whenever it is moving in
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    this particular direction then and that
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    is actually we call it span of the
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    bridge now whenever we are considering
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    the span of the bridge let us just make
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    it very clear in that case whatever you
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    can consider the first thing we are
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    having say span of the bridge
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    if you consider here again let me tell
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    you we are considering here simply
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    supported beams
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    so this is our simply supported beam
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    simply supported beam as you can see
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    that I have given this point at the end
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    that means and if you see that any book
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    whenever so far we have solved this
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    problem any analysis problem instruction
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    assist abilities there you've considered
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    this one that L we consider that L but
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    in a physical system what we really
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    require we require something more that
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    means if this is the one the deck we are
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    talking here mainly say who the solid
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    slab we are talking here we shall have
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    BRE so this is BRE this one another one
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    so obviously this bearing will have
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    certain kind of dimension so if you
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    compare this first figure and if you
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    compare this figure this is the actual
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    reality so we can get obviously it is
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    wise to make the dimension from the
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    centerline of the bearing to the
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    centerline of the other side from the
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    left side to this one so that means we
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    can consider this one as L or effective
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    span whatever we shall calculate that
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    our bending moment shear force we shall
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    compute on the basis of that so we have
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    another one this is another length that
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    is the actual one you have to construct
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    so these dimension that one we can
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    consider that one say you can say the
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    total span I can consider so our bending
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    moment shear force our objective here to
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    find out a physical dimension of this
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    deck where all of them in this figure if
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    you see all of them will come into
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    picture that means this one that it will
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    be carried by this deck your foot path
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    both sides I have given this color
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    different color to distinguish because
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    otherwise it will come the same the
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    thing is that foot path also made of
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    concrete or may be different grade then
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    this class barrier also another grade of
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    concrete like that so that means we
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    shall come forward later on that where
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    is another important aspect that we have
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    to consider that is what will be the
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    grade of concrete what is the grade of
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    steel anyway first we are coming to our
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    physical dimension so these dimension as
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    you know the span is dependent
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    that means span we can understand from
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    the how much we have to actually
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    negotiate how much we have to overcome
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    the situation that but curve one that
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    barrier that barrier that obstacle that
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    how much we have to overcome and that
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    one we call it the span so there is a
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    first parameter that means we can say if
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    it is a candle if it is a river I can
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    say that this much I have to move
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    forward so that way we can consider that
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    one as a span and as you can see that we
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    are having now two different spans one
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    is we are called filling that effective
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    span we can consider and I can call it
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    another one you can continue that total
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    span the total span of the bridge total
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    length of the bridge that is one aspect
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    so length wise if we consider this one
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    that is your C x-axis I can say that
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    means this particular one I can consider
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    that I am moving along the x axis and
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    this is your x axis it is customary to
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    write down this one as Y vertical
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    generally we write down as Y so if you
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    take a cross section a a if you take a
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    cross section then I shall find out this
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    cross section the deck part where we are
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    having this one say your Y X is the one
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    that normal to the page and then we are
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    having this one here said Jade so this
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    is your direction that means your cross
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    section will be in y jetplane
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    longitudinal will be in your say XY
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    plane so and the plan what we are
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    getting that one will be in Jade
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    explained so coming to this one here if
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    we see this figure again let us come
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    back to this figure again that where we
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    are showing this but curved on the
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    screen this figure if you come back here
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    so that means these dimension whenever
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    we are talking we are having two spans
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    effective span and total span from the
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    construction point B obviously you have
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    to get the total span
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    so there is the actual quantity actual
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    dimensional to consider for analysis
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    point of view it will come the effective
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    span and now the question is that one
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    what will be the DS length that means
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    you're in the Jade axis so this is your
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    x axis and this is your Jade axis so how
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    much will be your that Jade axis that
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    particular on your Thunder Y is the
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    depth that one will come later on that
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    one will come later on I mean to say
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    considering the bending moment shear
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    force and different other aspects also
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    that we shall consider later on so this
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    is the one we would like to find out
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    where form we shall get the information
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    question is that - we shall get the
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    information the information we shall get
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    it from this Indian roads Congress New
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    Delhi they published this different
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    codes like say Indian Standard Code we
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    are having this IRC similarly you are
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    having BIS and generally you are having
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    eurocorp also and different other
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    countries also having different codes
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    coming to this part Quran here so
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    standard specifications and code of
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    practice for Road bridges this is our
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    focus and then in section 1 and section
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    2 IRC 5 that is section 1 general
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    features of design IRC 6 6 & 2 that is
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    actually loads and stresses so mainly we
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    shall consider that vehicle note that we
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    shall discuss today that way now our as
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    per our objective for this particular
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    course we shall only consider these two
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    solid slab bridge and RCC T beam because
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    I personally feel that if we can
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    understand this one other one will be
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    easier to understand so solid slab
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    bridge and our CCTV now coming to this
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    one here the single lane double lane
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    triple length so this is the one that we
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    have to consider single lane double lane
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    and triple length let me clarify this
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    one just a general idea say for example
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    how shall we decide that
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    we can decide this one here let us
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    consider that you are having vehicle on
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    the roads you are having vehicles on the
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    road obviously that you should have
  • 00:12:10
    another vehicle you should have another
  • 00:12:16
    vehicle like this it is moving there is
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    a you on road you will find out there is
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    a gap but what we feel that I shall give
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    something say 20 meter that means I
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    shall get this 120 meter that I shall
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    give that means between the two vehicles
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    I shall give let us assume roughly say 5
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    meter so that means this one is coming
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    so 25 meter that means this one we are
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    having 25 meter let us say the vehicles
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    are moving at 60 kilometer per hour that
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    means in a 60,000 meter
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    in a 60,000 meter this is for that means
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    one hour that means I am considering a
  • 00:13:29
    particular one so all the vehicles will
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    move to move from this particular
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    vehicle and the last vehicle it moves so
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    it will take one hour because I am
  • 00:13:40
    assuming all of their moving at 60
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    kilometer per hour so that means here if
  • 00:13:46
    we consider 60,000 divided by 25 that
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    means it will come 2 4 0 0 this is the 1
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    number of vehicles you will find out
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    this information in IRC relevant code
  • 00:14:12
    generally that is done by the
  • 00:14:13
    transportation engineering group but you
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    can immediately you can see that it is
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    coming 2400 that number of vehicles it
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    can be 3000 3500 like that we can
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    consider that so this is a very very
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    comfortable one if you go little more
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    then obviously it will be crowded like
  • 00:14:36
    that now this is a very very decision
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    factor say for example I am assuming
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    that I shall give for each lane I shall
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    give three thousand vehicles in an hour
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    if I consider that if I stand in one
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    place and if we just keep on counting
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    then I shall say that I should not get
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    more than three thousand vehicles
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    passing if it goes more than what means
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    it is becoming crowded on the basis of
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    that we shall decide that at a
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    particular point we shall decide that
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    how many vehicles are coming and on the
  • 00:15:04
    basis of that we shall decide that
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    number of lanes so number of lanes means
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    single lane
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    mm that means two vehicles can pop move
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    them like that it can go so this
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    is the one we consider that one we have
  • 00:15:33
    to decide that one how shall we consider
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    with a single lane double lane or triple
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    lane if we see that in a remote village
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    Road then we do not have that much of
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    vehicles so what we can do we can go to
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    single then only and if we go to single
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    lane there may say very rare situation
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    it may come that one another vehicle has
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    come so you have to give that side so
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    that other can move so this is the one
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    Clause 112 of IRC 5 that is the one we
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    consider again so as I have told you
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    earlier this is the one that dick which
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    is actually taking care of all the load
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    vehicles then pedestrian that footpath
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    and also your same class barrier like
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    that you are considering
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    so here for a high level bridges
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    constructed for the use of road traffic
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    only the width of carriageway shall not
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    be less than 4 point 2 5 meter for a
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    single lane bridge and 7 point 5 meter
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    for a two-lane bridge and shall be
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    increased by 3 point 5 meter for every
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    additional lane of traffic for a
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    multiple lane bridge so that means here
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    if we really consider that so we are
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    having 3 numbers for point 2 5 meter
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    7 point 5 meter and you are having 3
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    point 5 meter so this is one very
  • 00:17:05
    Pacific single lane when it is only
  • 00:17:07
    single length so obviously it is wise to
  • 00:17:09
    give little more because 3.5 may be
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    sufficient for one lane but whenever we
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    are giving only one length so obviously
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    I have to give little more this is for
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    double lane and this is for additional
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    lanes
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    so we can consider this on here
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    so on the basis of that we can calculate
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    that how much will be your debt length
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    of the width of the bridge so we can
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    decide on the basis of that we can
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    decide on the width of the bridge and
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    then we can find out so that means the
  • 00:17:51
    carriageway you shall decide on the
  • 00:17:52
    basis of that the category of the bridge
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    we shall decide on now additional
  • 00:17:57
    dimensions for footpath whether you are
  • 00:17:59
    giving one footpath in one side whether
  • 00:18:03
    you are giving in both sides because
  • 00:18:05
    pond is another important aspect and on
  • 00:18:07
    the basis of that we decide that whether
  • 00:18:10
    we shall go for whether we shall go for
  • 00:18:14
    that works a footpath in both sides so
  • 00:18:16
    whether we shall do it is not wise to
  • 00:18:19
    give sailing only we give but the thing
  • 00:18:23
    and it is better to give grass barrier
  • 00:18:24
    so that the vehicle will never go out of
  • 00:18:27
    the bridge so that way we consider there
  • 00:18:31
    what we just sell provide for either one
  • 00:18:35
    length two lengths or multiple of two
  • 00:18:37
    lengths this is very very important here
  • 00:18:39
    please note this word multiple of two
  • 00:18:42
    lengths
  • 00:18:42
    the thing is there generally we don't
  • 00:18:45
    give whenever the vehicles are we are
  • 00:18:48
    considering vehicles then whenever we
  • 00:18:53
    are considering vehicles that moving in
  • 00:18:55
    opposite direction then obviously that
  • 00:18:58
    it should be if it is a single lane that
  • 00:19:00
    we know the single lane means we have to
  • 00:19:02
    wait we have to give pass to other one
  • 00:19:05
    if somebody comes on the other side
  • 00:19:06
    double lane means I do not have any
  • 00:19:09
    problem that I shall use one my left
  • 00:19:11
    lane and the other side of the lane will
  • 00:19:13
    be used the who is coming from the
  • 00:19:15
    opposite side now if we go for three
  • 00:19:17
    lanes then you are having one ambiguity
  • 00:19:21
    of one lane one lane left lane you can
  • 00:19:23
    consider that lane for the person who is
  • 00:19:26
    going upward direction you can say that
  • 00:19:29
    one on the right hand side the furthest
  • 00:19:31
    right hand side you can consider that
  • 00:19:33
    one the person who is coming that only
  • 00:19:36
    you can say in that you can say like
  • 00:19:39
    this
  • 00:19:41
    that this is the vehicle and this is the
  • 00:19:45
    one so this one going up this one coming
  • 00:19:51
    down now these four son the vehicle who
  • 00:19:55
    will use it so that's why it is told
  • 00:19:58
    that you use that not multiple of two
  • 00:20:01
    lengths so it should be multiple if you
  • 00:20:02
    use say odd number of lanes three lanes
  • 00:20:05
    then it should be one direction only and
  • 00:20:08
    you will find out in particular in the
  • 00:20:11
    highway the three languages are
  • 00:20:14
    constructed
  • 00:20:21
    Trillian bridge constructed but that is
  • 00:20:25
    for one direction all traffic
  • 00:20:33
    unidirectional
  • 00:20:41
    it is never used for both so that's why
  • 00:20:44
    you will find out highways that you will
  • 00:20:46
    find out trillion bridges you'll find
  • 00:20:48
    out for upper up up as well as for down
  • 00:20:51
    that two trillion bridges you will find
  • 00:20:53
    out particularly in the highways you'll
  • 00:20:55
    find out and that is the one and that is
  • 00:20:57
    for one direction so that means one
  • 00:20:59
    exclusively for the up up direction
  • 00:21:01
    another one excluded for the down
  • 00:21:04
    direction that way you can consider
  • 00:21:06
    three languages with two directional
  • 00:21:08
    traffic shall not be considered that is
  • 00:21:10
    the one you will find out the
  • 00:21:17
    carriageway on east side of the world
  • 00:21:18
    shall provide at least tool and software
  • 00:21:21
    with their of cell individually comply
  • 00:21:23
    with the minimum requirements stipulated
  • 00:21:25
    above the width of central purged median
  • 00:21:28
    when providers shall not be less than
  • 00:21:30
    1.2 meters so if we have something say
  • 00:21:33
    medial portion so it should not be less
  • 00:21:35
    than 1.2 meter cross section of Tulane
  • 00:21:41
    and multi languages cell satisfy the
  • 00:21:43
    following that means for all minor
  • 00:21:45
    bridges of total length up to sixty
  • 00:21:47
    meter as I have told you that the
  • 00:21:49
    different categories of that one based
  • 00:21:51
    on the span we have discussed out of
  • 00:21:53
    that we have discussed that one so sixty
  • 00:21:55
    meter you can consider that one as a
  • 00:21:57
    minor beach with between the outermost
  • 00:22:00
    process of the base shall be equal to
  • 00:22:02
    the full roadway width of the approaches
  • 00:22:05
    subject to a minimum of 10 meter 10
  • 00:22:07
    meter for Hill roads other distros and
  • 00:22:10
    2l meter for other cases so this is your
  • 00:22:12
    that guideline so as you can see that
  • 00:22:16
    means our objective here whenever you
  • 00:22:19
    are deciding that with the width will be
  • 00:22:21
    such their Road so it should not be more
  • 00:22:24
    than the bridge with if it happens then
  • 00:22:27
    obviously there will be a congestion of
  • 00:22:29
    traffic during movement so there so I
  • 00:22:33
    that always you should have the next
  • 00:22:35
    should not be actually the less than the
  • 00:22:38
    body that is the one we should not have
  • 00:22:42
    for two languages having total length
  • 00:22:45
    more than sixty meters that is we call
  • 00:22:47
    it actually your say major which you can
  • 00:22:50
    say the width of the bridge shall
  • 00:22:54
    provide
  • 00:22:54
    for seven point five meter category plus
  • 00:22:58
    a minimum of 1.5 meter with white
  • 00:23:01
    footpath on either side wherever
  • 00:23:03
    required so you have to give minimum say
  • 00:23:05
    at least say 1.5 meter foot but
  • 00:23:07
    sometimes they restrict but that is not
  • 00:23:09
    the right choice so the thing is that
  • 00:23:13
    here as I have told you many times that
  • 00:23:15
    breeds actually one important aspect the
  • 00:23:19
    road part you can easily expand it but
  • 00:23:22
    whereas the bridge part once it is done
  • 00:23:26
    you'll not be it is very difficult until
  • 00:23:29
    unless you expand it so there is a
  • 00:23:32
    certain kind of expansion actually
  • 00:23:33
    possible that one nowadays many that
  • 00:23:37
    state highways or national law is they
  • 00:23:39
    are doing that what color one so that's
  • 00:23:41
    how it is always wise to go for certain
  • 00:23:43
    kind of diamonds and that word core one
  • 00:23:45
    in this case I have told you one point
  • 00:23:48
    five meter wide footpath sometimes they
  • 00:23:50
    make 60 point seven five or one meter
  • 00:23:52
    that is not a wise decision for two
  • 00:23:56
    languages having total length more than
  • 00:23:58
    sixty meter in urban situations the
  • 00:24:01
    overall width between the outermost
  • 00:24:03
    phases of the bill shall be equal to the
  • 00:24:05
    full roadway width of the approaches so
  • 00:24:08
    whatever you are having that full Road a
  • 00:24:10
    width of the approaches now the thing is
  • 00:24:12
    that whenever you are talking say full
  • 00:24:14
    roadway width in that case what happen
  • 00:24:17
    actually that seven point five meter
  • 00:24:19
    that is for the double lane and that is
  • 00:24:20
    very very common and then you can go for
  • 00:24:25
    your say 11 meter no that way we can
  • 00:24:29
    consider for the three lane generally
  • 00:24:31
    then but that one again should be
  • 00:24:33
    actually unidirectional that particular
  • 00:24:35
    one we should consider here so coming to
  • 00:24:38
    this but Quran here so that full roadway
  • 00:24:41
    whatever you are talking say seven point
  • 00:24:42
    five meter or whatever one you are
  • 00:24:45
    considering that one that should be omit
  • 00:24:50
    for multi-lane bridges in both urban and
  • 00:24:54
    non-urban situations the overall width
  • 00:24:57
    between the outermost faces of the
  • 00:24:59
    bridge shall be the same as the full
  • 00:25:01
    roadway width of the approaches wherever
  • 00:25:04
    footpaths are provided there with shall
  • 00:25:06
    not be less than one
  • 00:25:07
    one parameter the width of the median in
  • 00:25:10
    the bridge portion shall be kept same as
  • 00:25:12
    that in the approaches so that
  • 00:25:14
    particular one we should keep it in our
  • 00:25:16
    mind for bridges on expressways the
  • 00:25:23
    prohibitions of that are shall be
  • 00:25:25
    satisfied the Carriger would shall not
  • 00:25:28
    be less than the width of the
  • 00:25:29
    carriageway in the approaches plus hard
  • 00:25:31
    shoulders so these are the guidelines
  • 00:25:33
    whatever given in IRC pipe so this is
  • 00:25:37
    most important on for and that I have
  • 00:25:40
    given here that pattern on here for
  • 00:25:42
    expressways so with respect to the
  • 00:25:44
    earlier clause that we shall consider so
  • 00:25:47
    the idea is very simple that we can
  • 00:25:51
    consider this one this is very simple
  • 00:25:54
    that means you you can consider that one
  • 00:25:56
    here that your you can consider that two
  • 00:26:01
    Road with that we can find out so it is
  • 00:26:04
    very simple four point two five meter
  • 00:26:05
    once more let me tell you seven point
  • 00:26:08
    five meter and then three point five
  • 00:26:10
    meter that is the guiding factor on the
  • 00:26:12
    basis of you have to do it and then your
  • 00:26:14
    width of the approach Road that is
  • 00:26:16
    actually very very important here now
  • 00:26:18
    coming to this one here just to infer
  • 00:26:23
    mean this is the one we call it actually
  • 00:26:24
    your sacred failure gas video can help
  • 00:26:28
    this type of dimension this one I have
  • 00:26:30
    taken from IRC five and then we are
  • 00:26:33
    having that this is a very very standard
  • 00:26:35
    dimension that record on one city you
  • 00:26:38
    can do it
  • 00:26:38
    you can use it for all your project if
  • 00:26:41
    you want to do it so these are the
  • 00:26:43
    things you can go under and this is your
  • 00:26:45
    real input here you have considered this
  • 00:26:48
    one say here that you can take out this
  • 00:26:50
    one that means the bridge and because
  • 00:26:52
    the Dahlia possibilities are really the
  • 00:26:55
    vehicles will come vehicles will make
  • 00:27:01
    come to the footpath but in this case
  • 00:27:04
    that vehicle will never come to the
  • 00:27:05
    footpath so that may pedestrians can go
  • 00:27:08
    in a comfortable manner without any
  • 00:27:10
    anxiety so that way you can consider
  • 00:27:12
    here this is your single head this is
  • 00:27:16
    the double head or vertical post double
  • 00:27:19
    head double side there may be both
  • 00:27:20
    that is possible that means this is you
  • 00:27:23
    know one side this is also on one side
  • 00:27:25
    and this one whenever you are using the
  • 00:27:27
    both sides that particular one vehicles
  • 00:27:29
    are moving that you can consider that so
  • 00:27:33
    coming to this one here before that I
  • 00:27:36
    thought I shall tell you this what is
  • 00:27:39
    called just a minute so this part code
  • 00:27:42
    on here so now we have got this
  • 00:27:45
    information that I know the span that
  • 00:27:48
    how much we have to negotiate how much
  • 00:27:50
    we have to overcome how much obstacle we
  • 00:27:52
    have to move on the basis of the span is
  • 00:27:54
    decided the next one we are getting this
  • 00:27:57
    one here say that your in this person
  • 00:28:01
    foot path whether this is given or not
  • 00:28:02
    then class barrier then you are having
  • 00:28:05
    really on the basis of that the deck
  • 00:28:07
    width will be decided and then we can
  • 00:28:10
    find out this dimension that we can find
  • 00:28:13
    out that means our first part that we
  • 00:28:16
    can say that we can find out the
  • 00:28:17
    dimension we can go and get it that
  • 00:28:20
    question is coming here depending on the
  • 00:28:23
    span the super structure will be decided
  • 00:28:26
    and as I have told you that one that
  • 00:28:28
    here we are considering a simple one
  • 00:28:30
    that RCC salt slab the one I am showing
  • 00:28:33
    and second one we shall consider our
  • 00:28:36
    CCTV because that you can find out if we
  • 00:28:39
    go little more then we require that the
  • 00:28:41
    depth is coming quite high and that one
  • 00:28:44
    is not at all acceptable from the
  • 00:28:45
    economic point of view that we can
  • 00:28:47
    consider so coming to this packard on
  • 00:28:51
    here this is the one general
  • 00:28:52
    considerations we are doing here the
  • 00:28:55
    second part we shall consider that one
  • 00:28:58
    obviously it is coming that one here
  • 00:29:00
    just quickly let me come back there that
  • 00:29:04
    I can tell you so for this particular
  • 00:29:07
    case we have considered only say here I
  • 00:29:11
    have given the general features of
  • 00:29:13
    design for IRC 5 that mainly we have
  • 00:29:15
    considered the second part we shall
  • 00:29:18
    consider that on your say loads and
  • 00:29:21
    stresses that we we shall consider in
  • 00:29:24
    the second part of our that to this
  • 00:29:27
    topic and Indian Road Congress having so
  • 00:29:31
    many codes
  • 00:29:33
    and we shall also consider here that
  • 00:29:36
    other codes ooh you I shall show you
  • 00:29:39
    that other course particularly say euro
  • 00:29:41
    code and most of the cases you will find
  • 00:29:43
    out that B is that good of Indian
  • 00:29:48
    standard or say you're that IRC that is
  • 00:29:52
    mainly followed that once say they have
  • 00:29:54
    followed that you know code and you will
  • 00:29:55
    find out that he wants our objective
  • 00:29:58
    here that step-by-step we are moving
  • 00:30:01
    towards that design that not only from
  • 00:30:04
    the only you know from the planning
  • 00:30:06
    stage that means how to decide that what
  • 00:30:10
    type of span what type of bridge we
  • 00:30:12
    shall decide that is the first part and
  • 00:30:15
    on the basis of that we required the top
  • 00:30:18
    portion so far I have given you the plan
  • 00:30:20
    of the bridge that means if you look
  • 00:30:22
    from the top of the bridge I shall get
  • 00:30:24
    the span of the bridge and width of the
  • 00:30:27
    beach so far I have not told you what
  • 00:30:30
    will be the depth of the bridge that one
  • 00:30:32
    will come into picture when we know that
  • 00:30:34
    loading or what type of loading are
  • 00:30:36
    coming different kinds of loading will
  • 00:30:38
    come into picture mainly we shall
  • 00:30:40
    consider the self weight of the bridge
  • 00:30:42
    and the other one we shall consider you
  • 00:30:45
    know that one that you will say that
  • 00:30:47
    vehicle loading that we shall consider
  • 00:30:49
    so in the next one we shall consider
  • 00:30:52
    that loads and traces particularly your
  • 00:30:55
    same vehicle loading because there are
  • 00:30:57
    so many vehicles are going the custom is
  • 00:30:59
    that what will be the load due to the
  • 00:31:02
    vehicle that is one important part that
  • 00:31:04
    we have to consider so that everybody
  • 00:31:07
    all designers will follow that one and
  • 00:31:09
    that is obviously very very important
  • 00:31:11
    here say for example just to give you
  • 00:31:13
    idea from Indian Standard Code that is
  • 00:31:17
    875 whenever we talk say residential
  • 00:31:20
    building then obviously we consider say
  • 00:31:22
    for example 200 kg per square meter or
  • 00:31:25
    250 K physical parameter D maybe 300 kg
  • 00:31:28
    per square meter depending on the
  • 00:31:29
    situation if it is a balcony then it is
  • 00:31:32
    400 kg per square meter or 4 kilo Newton
  • 00:31:35
    per square meter if it is a staircase 4
  • 00:31:37
    kilo Newton per square meter we say that
  • 00:31:40
    one that balcony is crowded let us say
  • 00:31:43
    you are having a balcony if you are then
  • 00:31:45
    balcony then
  • 00:31:46
    it is in the roadside there is a
  • 00:31:48
    possibility that occasional it may
  • 00:31:50
    happen that people are all crowded on
  • 00:31:54
    the balcony to see what is going on
  • 00:31:55
    there well there is a processor and that
  • 00:31:57
    is something going on so that way they
  • 00:32:00
    can understand so that way there one is
  • 00:32:02
    that normal loading another one we call
  • 00:32:04
    it's a crowded so for balcony then we
  • 00:32:07
    can have say welcoming for Clemente or
  • 00:32:09
    first kilometer then similarly
  • 00:32:10
    highfalutin first kilometer similarly in
  • 00:32:13
    the footpath also we should have that
  • 00:32:15
    how much load we shall consider for the
  • 00:32:16
    footpath how much load we shall consider
  • 00:32:18
    for the your vehicles so that is the one
  • 00:32:22
    and which we shall get it from this code
  • 00:32:24
    that IRC six six and two loads and
  • 00:32:29
    stresses by Indian Road Congress New
  • 00:32:35
    Delhi again so we have only taken this
  • 00:32:37
    one that we are having bearing code then
  • 00:32:39
    we are having concrete code like that we
  • 00:32:42
    are having different code but we shall
  • 00:32:44
    introduce the codes which are liquid for
  • 00:32:46
    our this particular course okay with
  • 00:32:49
    this let me conclude this particular one
  • 00:32:51
    then we shall go to the next one that is
  • 00:32:53
    loads and stresses thank you very much
Tags
  • puentes
  • hormigón armado
  • diseño estructural
  • cargas vehiculares
  • normas IRC
  • ancho de calzada
  • dimensiones de puentes
  • losa maciza
  • vigas T RCC
  • ingeniería de puentes