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MASTERING REVIT STRUCTURE 2010 PDF

Tuesday, December 3, 2019


is there mastering revit or 12 or 11 anywhere? I got free pdf for but its way different than just wondering if anybody has in. Mastering Revit structure [electronic resource]. Responsibility: Thomas S. Weir, Jamie D. Richardson, David J. Harrington. Imprint: Indianapolis, Ind.: Wiley . The Revit Structure Interface. ▫ Section 2: schedule). ▫ You can place the views on sheets in a Revit Structure project to . of all Autodesk software.


Mastering Revit Structure 2010 Pdf

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PDF Drive is your search engine for PDF files. Autodesk Revit Structure Fundamentals - SDC Publications Autodesk, Inc. All Rights Reserved. Autodesk Revit Structure Fundamentals - SDC Publications Revit MEP User Guide PDF - Autodesk Autodesk, Inc. All Rights Reserved. Thank you for choosing Mastering Autodesk Revit Architecture REVIT ® Structure 4 These CADclips are designed for the new REVIT user who has not.

As you work in drawing and schedule views, Revit Structure collects information about the building project and coordinates this information across all other representations of the project. The Revit Structure parametric change engine automatically coordinates changes made anywherein model views, drawing sheets, schedules, sections, and plans.

What is meant by parametric? The term parametric refers to the relationships among all elements of the model that enable the coordination and change management that Revit Structure provides.

These relationships are created either automatically by the software or by you as you work. In mathematics and mechanical CAD, the numbers or characteristics that define these kinds of relationships are called parameters; hence, the operation of the software is parametric.

This concept is important because it is this capability that delivers the fundamental coordination and productivity benefits of Revit Structure: change anything at any time anywhere in the project, and Revit Structure coordinates that change through the entire project. The following are examples of these element relationships: Pilasters are spaced equally across a given elevation.

If the length of the elevation is changed, the relationship of equal spacing is maintained. In this case, the parameter is not a number but a proportional characteristic. The edge of a roof is related to the exterior wall such that when the exterior wall is moved, the roof remains connected. In this case, the parameter is one of association or connection. How does Revit Structure keep things updated?

A fundamental characteristic of a building information modeling application is the ability to coordinate changes and maintain consistency at all times.

You do not have to intervene to update drawings or links.

mastering revit structure 2010 pdf

When you change something, Revit Structure immediately determines what is affected by the change and reflects that change to any affected elements. Revit Structure uses 2 key concepts that make it especially powerful and easy to use. The first is the capturing of relationships while the designer works.

The second is its approach to propagating structural changes.

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The result of these concepts is software that works like you do, without requiring entry of data that is unimportant to your design. Element behavior in a parametric modeler Revit Structure uses 5 software element classes: host, component, annotation, view, and datum elements. This implementation provides flexibility for designers.

Revit Structure elements are designed to be created and modified by you directly; programming is not required.

If you can draw, you can define new parametric elements in Revit Structure. Hosts include slabs, walls, and roofs. Components include beams, columns, and braces. Annotations are 2D, view-specific elements that help you produce your documentation. Views are dynamic representations of the model and are always up-to-date.

Datum elements are non-physical items used to establish project context. In Revit Structure, behavior of elements is largely governed by their context in the structure. The context is determined by how you draw the component and the constraint relationships that are established with other components.

Often, you do nothing to establish these relationships; they are implied by what you do and how you draw. In other cases, you can explicitly control them, by locking a dimension or aligning two walls, for example.

Understanding Revit Structure terms Most of the terms used to identify objects in Revit Structure are common, industry-standard terms familiar to most engineers. However, there are some terms that are unique to Revit Structure, and understanding them is crucial to understanding the software.

This section defines the basic terms used in Revit Structure. The project file contains all the information for your structural design, from geometry to construction data. This information includes components used to design the model, views of the project, and drawings of the design.

By using a single project file, Revit Structure makes it easy for you to alter your design and have changes reflected in all associated areas plan views, elevation views, section views, schedules, and so forth. Having only one file to track also makes it easier to manage the project.

Another important term to understand is level.

Levels are infinite horizontal planes that act as a reference for level-hosted elements, such as roofs, slabs, beams, footings, etc. Most often, you use levels to define a vertical height or story within a building. You create a level for each known story or other needed reference of the building; for example, first floor, top of wall, or bottom of foundation. To place levels, you must be in a section or elevation view. South Elevation View of Structure When creating your project, you add Revit Structure parametric building elements to the design.

All elements are considered categories. Revit Structure classifies elements by model component elements and annotation elements. A model component element, such as a beam, brace, or roof, represents the actual 3D geometry of the building. An annotation structural element, such as a text note, loaded tag, or symbol, helps document the model.

Families are classes of elements in a category that group elements with a common set of parameters properties , identical use, and similar graphical representation. Different elements in a family may have different values for some or all properties, but the set of propertiestheir names and meaningis the same. For example, a truss could be considered one family, although the web supports that compose the family come in different sizes and materials.

Most families are component family files, which means you can load them into your project and create them from family templates. You can determine the set of properties and the graphical representation of the family. Other families are called system families. These families, which include slabs, dimensions, roofs, levels, etc. Revit Structure predefines the set of properties and the graphical representation of system families.

You can use the predefined types to generate new types that belong to this family within the project. Each family can have different types. A type can be a specific size of a family, such as a A0 title block. A type can also be a style, such as default aligned or default angular style for dimensions. A family can have several types.

For example, a column could come in several different sizes. Each different size would be a new type within the same family. Instances are the actual items that are placed in the project and have specific locations in the building model instances or on a drawing sheet annotation instances.

The Revit Structure window is arranged to make navigation easy. Even the toolbar buttons are labeled, making it easy to understand what each button represents. Revit Structure uses standard Microsoft Windows conventions. If you have used any other product that follows these conventions, you will soon feel comfortable learning this interface. In the steps that follow, you navigate and become familiar with the Revit Structure user interface. Start a new project 1 On the Standard toolbar, click.

This creates a new project based on the default template. The Title Bar 2 Place your cursor at the top of the user interface and notice the Title Bar contains the name of the project and the view that is currently open. By default, new projects are numbered consecutively until saved with a new name. In addition, the Level 2 structural plan view is the default open view. TIP The project template determines which view is opened and the view names as well.

You can choose commands by placing the cursor over the menu name and clicking. You then click the command name to run the command. Many of the commands also have shortcut keys to speed up the design process. These shortcut keys are listed next to the command on the menu. While working in the drawing area, you simply type the required keystrokes to run the command. Another timesaving tool for selecting commands is to place the cursor in the drawing area and right-click.

The context menu changes depending on the function you are performing and what is currently selected. The Toolbar 4 On the Window menu, click Toolbar. There are 6 toolbars across the top of the window just beneath the Menu Bar. The buttons on the toolbar represent some of the more common commands.

Learning Autodesk Revit Structure 2010

You can control the visibility of the toolbars and turn the toolbar text labels on or off within the Window Toolbar menu. You can use the toolbar grips to resize and move each toolbar. Notice the bar beneath the toolbars contains design options used to draw the structural wall. Navigating the Revit Structure User Interface 5 The Options Bar is context-sensitive and varies depending on the tool or selected component.

Notice the design options available on the Options Bar are now applicable to beams. On the left side of the Options Bar, notice a beam type is specified. Select the drop-down list to view the list of beams. The Type Selector is a context-sensitive drop-down list.

If you select the Beam tool, the Type Selector displays a list of beams available within the project. The list of components in the Type Selector is identical to the components listed in the Families branch of the Project Browser under the respective category. You use the Type Selector in 2 ways. First, you can select a component type before you add it to the building model. For example, if you intend to add a beam, the beam type active in the Type Selector is the beam type that is added when you insert it into the building model.

You can also use the Type Selector to change a component type after it has been added to the building model. We use your LinkedIn profile and activity data to personalize ads and to show you more relevant ads.

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The building information model presents intelligent data for editing and review in views and formats that are appropriate for and familiar to the user. Some examples of these formats are a structural detail or a framing plan. For example, information such as structural beams are represented differently in a framing plan than they are in a structural detail.

While the beam is represented by a symbolic line in plan, and a realistic representation in detail, both are different representations of the same structural element. Managing Change with Building Information Modeling Building information modeling solutions manage iterative changes in a building model throughout the design, construction, and operation phases.

A change to any part of the building model is replicated in all other associated parts. Maintaining a single, internally consistent representation of the building can improve drawing coordination and reduce the number of errors in the documents.

As a result, building documents can be of higher quality, and the costs of changes and coordination reduced. Building information modeling tools can enable the design, construction, and occupancy of the building to proceed with less friction and fewer difficulties than conventional tools. Lesson: Building Information Modeling for Structural Engineering BIM for Structural Engineering BIM for structural engineers follows the same methodology for the entire structural engineering process, focusing on a digital design model that can be used for coordination with architects, and mechanical, electrical, plumbing, and civil engineers.

BIM is integrated with analysis, design, and construction documentation. The design model can also be extended from design through fabrication and construction. Autodesk has a complete portfolio of structural engineering software that supports this end to end workflow.

At the center of the BIM workflow is Autodesk Revit Structure, integrating a multi-material physical and analytical model. This single model can be created on its own, or by leveraging 2D or 3D architectural information.

The Revit Structure model can be used throughout the interactive design process to collaborate with all parties involved. The result is a coordinated and consistent design model that reflects the most upto-date design. The analytical model is used to integrate Revit Structure and widely-used industry standard structural analysis and design applications, such as Autodesk Robot Structural Analysis Professional.

The analytical model contains information such as loads, load combinations, member sizes, and release conditions for use in leading third-party analysis applications. The creation of the analytical model uses engineering rules to produce a consistent analytical representation of the physical structure. Engineers can override initial analytical settings and edit the analytical model before linking to structural analysis packages. Autodesk Robot Structural Analysis Professional software is a collaborative, versatile, and fast structural analysis and design application that incorporates BIM, allowing engineers to readily analyze a wide variety of structures.

Revit Structure is also used to create the construction documents required for the project. Its bidirectional associativity ensures that changes made to the model are automatically updated on every sheet of the construction documents.

Revit Architecture 2010

Revit Structure can also be used in conjunction with AutoCAD to leverage the power and productivity of the widely-used drafting platform, providing a robust and powerful solution for construction documents.

Finally, the same model can be used downstream for fabrication detailing and shop drawings of Chapter 1: Building Information Modeling steel and concrete reinforcement using leading third-party detailing applications as well as AutoCAD Structural Detailing. AutoCAD Structural Detailing software is a powerful solution for faster and efficient detailing and creation of fabrication shop drawings for reinforced concrete and steel structures.

About Bidirectional Associativity A key feature of Revit Structure is bidirectional associativity, which ensures that changes to any elements of the design model are immediately reflected in all views where those elements appear. Definition of Bidirectional Associativity Bidirectional associativity is the ability of the building information model to coordinate changes made in any view and propagate these changes out to all other views.

Bidirectional associativity is applied automatically to every component, view, and annotation. For example, a change in the size and location of a column is reflected in all plans, details, and schedules; all of which are associated with the column and influenced by the change in the column properties.

The beams framing into the column are also affected by the changes and are automatically adjusted. Revit helps ensure that plans, schedules, and building sections and elevations are immediately available, up-to-date, and accurate. Lesson: Building Information Modeling for Structural Engineering Parametric Relationships The term parametric refers to the relationships among the elements of a building design model.

These relationships enable the software to coordinate and manage the changes made to the building model. The relationships are created either automatically by the software or by you. In mathematics and mechanical CAD, the numbers or characteristics that define these relationships are called parameters; therefore, the operation of the software is called parametric.

It is these parametric relationships that deliver fundamental coordination and productivity benefits provided by the building information modeling methodology. Updating the Design Model A fundamental characteristic of Revit Structure software is the ability to coordinate changes and maintain consistency. You do not have to intervene to update drawings or links. When you change something, the bidirectional associativity feature of the software determines the elements that are affected by the change and propagates that change to any affected elements.

Examples of Bidirectional Associativity s s s Flip a section line and all views update. Draw a wall in plan and it appears in all other views including material takeoffs. Change a beam or column type in a schedule and the change propagates throughout the graphical and non-graphical views. Examples of Parametric Relationships s s Beams attached to supporting columns located on column grids.

When a grid moves, the column moves with it and the beams lengths adjust accordingly. A structural truss modeled using constraints that define the number of bays and lengths of diagonals. When the span of the truss changes, vertical members are added where necessary and the diagonal web members adjust accordingly.When the view s Detail Level is set to Coarse, Revit will show a simplified version of the beam: a single line centered on the beam.

The following illustrations show the various ribbon view states. Published on May 21, Includes tools for placing dimensions, detailing, drafting, text, tags, and symbols. You can also use the Type Selector to change a component type after it has been added to the building model. User manuals probably receive the least attention from giddy new people who just love gadgets. Thomas S.

The first thing you will do is load a tag which will display the beam size for each member. The beam you select needs to be parallel to the span of the joists as you will learn in the next step.

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