Autodesk revit architecture 2017 tutorial pdf free

Go architecrure Solution. Solved by u Solved autodesk revit architecture 2017 tutorial pdf free leothebuilder. Solved by L. If you are looking more for a training manual than there are excellent books available e. Aubin or the Mastering Series. Otherwsie you could consider video courses e. Netherlands Please mention Revit version, especially when uploading Revit files. Revit Architecture Forum. Share your knowledge, ask questions, and explore popular Revit Architecture topics.

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Revit Architecture Ebooks – PDF Drive – Autodesk University (AU) Workshop

The instruction covers construction documentation, advanced detailing, and families, as well as site considerations including grading and top surface features to provide a well-rounded, real-world Revit skill set. The shift from 2D drafting to 3D building information modeling has made Revit a must-have skill for an increasing number of design, engineering, and construction professionals.

This book is designed to teach you the basics quickly, using a real-world workflow, process, and pacing. Step-1 : Read the Book Name and author Name thoroughly. Step-4 : Click the Download link provided below to save your material in your local drive.

LearnEngineering team try to Helping the students and others who cannot afford buying books is our aim. Are you sure you want to delete your template? Cancel Delete. Cancel Overwrite Save. Terms of service. Privacy policy. Cookie policy. Change language. Made with love in Switzerland. Main languages. Revert Cancel. Performing this action will permanently remove your draft from Yumpu. There are 2 types of fill patterns: model and drafting. Model patterns represent actual element appearance on a building, such as brick coursing or ceramic tile on a wall.

Model patterns are fixed and scale with the model. Drafting patterns represent material in symbolic form, such as steel, which consists of a double-diagonal hatching pattern. Drafting pattern density is fixed. Both pattern types are created and applied in a similar way. TIP Drafting patterns represent materials in symbolic form. Model patterns represent actual element appearance on a structure. You can align, rotate, and move model patterns. You can also dimension to model pattern lines.

NOTE This exercise requires the completion of the previous exercise. Notice that no model surface pattern displays on the wall.

Notice that a concrete surface model pattern is not available. The location of these files can vary depending on the path you set during installation. The new model pattern is available in the Name list in the Fill Patterns dialog. Apply the concrete surface pattern 13 In the Project Browser, expand Elevations, and double-click West. Finish 2 is the exterior finish of the wall. It is currently assigned the material Concrete-Precast.

The west wall of the building displays as solid fill. Controlling Object Styles You can use object styles to control the appearance of components and subcomponents. Object styles allow you to control the appearance of multiple components of the same type. For example, there are often multiple trusses within a project.

Rather than continually modify the type properties of each truss, you can change the type properties center chase width of one truss and then apply the change to all trusses. Notice the line color is applied to the wall. You then create a new line style to represent underslab drainage. You have created a new line pattern; now you must apply it. There are 2 ways to apply the line style to the truss. This overrides the appearance of the truss only in the current view.

Notice the underslab drainage lines appear in this view. This turns off the visibility of the underslab drainage lines only in this view. Modifying Annotations In this exercise, you create a new dimension style using units of measurement that differ from the project settings.

You also load a new beam annotation symbol and apply it to show the beam instance number rather than the beam type number. You have created a new dimension style. In the Type Selector, notice that there is a Linear – Metric dimension available. In the preview image, notice that the label displays 1i. This indicates this tag is designed to display the beam instance value rather than the type value.

This tag is used when tagging using the Beams By Category option. Notice that you can choose between the 2 beam tag types loaded into this project.

Under Category, notice the structural framing tag appears twice. Each tag category has a different loaded tag: one displays the type value, the other displays the instance value. The remaining untagged beams are tagged. Specifying Units of Measurement,Temporary Dimensions, and Detail Level Options In this exercise, you modify 3 settings that have a broad impact on the project. In the first section, you specify the project units of measurement – unless there is an override, dimension values display using this setting.

In the second section, you modify the temporary dimension settings. In the final section, you modify the detail level assignments. Modifications to area rounding are displayed in schedules and area tags.

Unless there is an override, dimensions use these project settings. In this project, temporary dimensions now snap to the centerline faces and to the openings.

When you create a new view and specify its view scale, the detail level is specified automatically according to the arrangement in the table. In this table, you use the arrows between the columns to move view scales from one detail level to another. You do not select a view scale to move it. The view scale moves either from the bottom or the top of the column based on the direction. Notice the 1: 50 view scale moved to the Medium column.

Any new view created using this scale is automatically assigned the detail level Medium. Modifying Project Browser Organization In a typical project, you often produce multiple packages of related drawings. These drawings and sheets can become so numerous that navigating the lengthy Project Browser list is cumbersome. In order to organize the views and sheets into sets of deliverables, you can use the Project Browser settings to instantly modify how the Project Browser groups and sorts.

In this exercise, you modify the Project Browser organization and create new methods of grouping and sorting the views and sheets. Revit Structure project files do not include ceiling plans. Notice that the sheets are listed alphanumerically based on the sheet number. In the Project Browser, notice that views are grouped based on phase. If you want to save this file, navigate to your preferred directory, enter a unique file name, and click OK.

In this lesson, you modified various project settings that affect project appearance and organization. All the settings that you changed in this lesson are saved with the project. You can also save these settings in a template file. By saving these settings as a template and using it throughout the office, you maintain consistent standards and reduce the amount of repetitive work.

In the lesson that follows, you create an office template. Creating a Structural Template In this lesson, you create a Revit Structure template file and set it as your default template. When you create new projects, the project template is used to provide the initial project settings such as materials, dimensions styles, levels, preloaded families, and view names.

You can save Project Browser organization schemes, named print settings, and rendered scenes in a template. Although Revit Structure provides many templates to choose from, you may decide to modify one or more of these templates to the specific needs of your company.

A well designed template will ensure office standards are maintained and will reduce repetitive work. This lesson is intended to provide you with a blueprint of how to create your structural template. It is mostly conceptual and is designed as a road map with options for your consideration. The lesson begins with choosing the right base template and progresses through many of the most common modifications that you would consider in order to make a template unique to your situation.

Choosing the Base Template In this exercise, you select the starting point for your structural template. Whenever you create a new project or template, a group of settings are used to specify the project environment. For example, when you create a new project, you can select an existing template or begin the project with no template. Even if you choose not to base that project on a template, certain baseline settings are still assigned to the new project.

When you create a new template based on an existing template, the same rules apply. Depending on your needs, choose the option that will help you develop the best template with the least amount of work.

Notice there are a number of different templates to choose from. The template selection may vary depending on your installation. Other than the default template, each is modified in a way to make it useful to a particular industry, such as structural or construction.

The first step in creating your structural template is deciding which template to use as your starting point. If your work requires a variety of templates, you can modify one template and use Transfer Project Standards to copy the changes to other templates. Notice that there are more predefined levels than you normally see in the default template. Notice that the structural analysis template is more complex than the default template.

Other templates, such as the structural template, are simple in respect to the predefined views and schedules, but the view properties have been modified to maximize the use of the structural tools.

If you have additional projects open, close them. TIP This template is the starting point for your new template. If you want to use a template other than the default, you can select it now. Modifying Project Settings In this exercise, you modify the project settings for your new template. These settings control the appearance of components and their subcomponents within a project.

In order to maintain office standards and reduce rework, you can establish the settings that are common to most projects. For example, you can create the materials commonly used in most projects. When you create the material, you can dictate its appearance in all views and renderings.

The specifics regarding each of these are addressed at the end of this exercise. During this exercise, specific modifications are not dictated. You are merely pointed to each area where you can adapt the template to your needs. Observe the materials that are already defined. You may want to rename or modify some of the existing materials. If there are materials that are commonly used within your office or industry, create and modify them as needed.

If you create or modify new materials, you may want to specify their appearance when rendered. You can do this by setting the AccuRender Texture. If there are custom AccuRender materials that you want to add to the template, you can do so by going to the Material menu and selecting New. Choose the appropriate option, and create the AccuRender material. When you save a new AccuRender material designed to be used in an office template, be aware that access to the original material library may be necessary at some point.

You may want to save the material to a library located on a network path. TIP When the material of a component is set to by category, it adopts the material assigned to its object styles category. The Line Weights command controls the display of line widths for each scale of a view.

You can add and delete view scales. In the dialog, there are 3 tabs: one for model component line styles, one for perspective model line styles, and one for annotation symbol line styles.

The Model Line Weights tab controls the line width of structural components, such as beams and columns in orthographic views. The widths are dependent on the scale of the design. You can define the widths of 16 different pens for 6 different drawing scales.

The Perspective Line Weights tab controls the line width of objects in perspective views. The Annotation Line Weights tab controls the line width of annotation symbols, such as section lines and dimension lines. Annotation line widths are independent of the view scale. The arrowheads configured within this dialog can be applied to text notes, tags, and dimensions. To see the details of a particular style, select it from this list. Linear, angular, and radial dimensions are modified separately.

The tag assignments in this dialog dictate the default tag for each category. For example, when you add a structural framing tag with the tag option selected, the beam is tagged using the tag assigned to the structural framing category in this dialog. You can override tag assignment using the Type Selector.

Notice many categories do not have loaded tags. You can have multiple tags loaded for any category. When more than one tag has been loaded for a category, the last loaded tag becomes the default tag.

In the Tags dialog, you can override the assignment by selecting a different tag from the drop-down list. TIP In the drawing area, you can modify the location of temporary dimension witness lines. When you create a new view, the detail level of that view is automatically assigned using this table. The detail level is based on view scale. You can override the detail level at any time by specifying the Detail Level parameter in the View Properties command.

View scales are organized under the detail level headings Coarse, Medium, or Fine. Using the arrows between the columns, you can move view scales from one detail level to another. NOTE You cannot select specific scales in this dialog. To move the view scales, click the arrows between columns. The view scales move from the lower-left to the upper-right and vice-versa.

In a typical project, you often produce multiple packages of related drawings. In certain projects, engineers view plans using different orientations in different countries.

This parameter makes it possible for you to select a different view direction. For example, you can view the project from the slab looking up up direction , or from the roof looking down down direction.

Additional project settings 78 On the Settings menu, there are several additional commands that control the project environment. Although these settings can be saved within a template, you should consider each carefully before applying changes to a template. For example, you can save rendered scene settings to a template. However, you may only want to add generically named settings that would be applicable to most projects.

In such a case, you must decide if the time investment is offset later by the reduction in repetitive work. Each of these areas is covered later in this lesson or in other tutorials. Use the table below as a checklist, and make modifications in each area as necessary. Links to associated tutorials are provided. You can find additional information in Help. Each command is available on the Settings menu. Settings Menu Associated Tutorial Considerations Command Project Parameters This command is covered in an exercise If necessary, you can add project and shared later in this lesson.

View Templates This command is covered in an exercise Create and modify the view templates to control the later in this lesson. If you have not completed the previous exercise, do so before starting this exercise. Depending on the intended use of this template, you may want to load families into the template to save time later or ensure consistency throughout the office.

You can load any family or group into a template. Obviously, you should only load components that tend to be used in every project and are not likely to change. For example, you could load detail components, titleblocks, and beams.

You may want to modify slab types to add a more diverse selection within the template. Although the options are endless, there are some important thoughts to consider. It is important to understand that you should not load every conceivable family into a template file.

Although this is possible, it is not recommended because it would increase the file size significantly before the first component was added to the project. In addition, each component loaded will add to the length of the relative Type Selector list. For example, if you loaded every beam type you could find, you would have to scroll through a lengthy list of beams every time you changed a beam within a project. This would be cumbersome and counterproductive. You should think very carefully about what families or groups to load and modify within a template.

Load and modify families 1 Use the project started in the previous exercise, and on the Modelling tab of the Design Bar, click Beam. If this selection is satisfactory, you can move onto the next component type. However, you may want to delete, modify, or add to this selection. You can do this in several ways: select a component type and click Properties to modify or add a new type, or use the Project Browser to delete an existing type.

In the steps that follow, you do both. Use the instructions in the table below to perform these steps. Navigate to the directory containing the beam type, select it, and click Open. Make modifications, and click OK. Click Duplicate, enter a name, and click OK. Modify type properties, and click OK. You may want to open other Design Bar tabs and make modifications to components not available on this tab. You can also load families and groups from the File menu.

Notice that you have the option to Load Family or Load Group. Loading from the library is quickest when you know exactly what families you want to load. Press ESC twice to return to the template. You can use the Project Browser to modify family types.

Notice that there is a titleblock symbol loaded. The titleblock name may vary depending on the template you started with. This titleblock is currently part of the template.

Notice it has Revit in the upper-right corner. You may want to load a titleblock applicable to your office and then delete this titleblock. To do so, right-click the component, and click Delete. Modifying Views and View Templates At the beginning of this lesson, you created new projects using different templates, and you noticed that each template had a unique set of predefined views. In this exercise, you create the views required for your template. In addition, you create and apply the underlying view templates that control the initial appearance of the views.

View templates help standardize the look of all views by providing the initial settings for a view. You can also apply a template to an existing view at any time using the Apply View Template command. The view inherits view properties such as View Scale, View Range, Discipline, Detail Level, and the visibility settings of categories and subcategories.

In this exercise, you will first modify view templates, and then create new views that will automatically use those templates. These settings are applied when you create a new plan view by adding a new level. At any time, you can apply a view template to any view. These values represent the starting point for each plan view.

By modifying the view templates according to your specific needs, you save time and increase consistency. Keep in mind that these settings are the default settings for this view type. Applying a view template to a view is a one-time action. When the view template is applied the view properties of the target view are instantly reset to match those of the template.

After the template is applied, the view is not linked to the template in any way. Subsequent modifications to the view template do not affect any current views unless you reapply the view template. There is no limit to the number of times you can apply a view template to a view, nor is there a limit to the number of view templates that you can apply.

TIP To apply the template to multiple views, select the view in the Project Browser, and press Ctrl while selecting additional views.

Then right-click and select Apply View Template. This option means that every time a new plan view is created, this view template will be used to set the initial view properties.

Black levels have no associated views. You can rename this view, if desired. You can also duplicate or delete the view. Rename, duplicate, or delete them as needed. Make sure you are still in the Level 2 view. The associated floor plan will use the Structural Plan view template to set its initial view properties. Create 3D views 25 To add 3D views to the template, click on the View toolbar. If necessary, you may want to modify the view properties of any new views.

You can use this tool, Dynamically Modify View, to orient and save the view. You may want to consider adding the schedules that you use most often, and modify their properties accordingly. This can save time and ensure office standards are maintained.

You are prompted to select a titleblock. If you have already loaded your titleblocks into the template, select one, and click OK. TIP You can add sheets to the template and delete the titleblock. To do so, select the default titleblock, and click OK. After the sheet is created, select the titleblock and delete it. You can still add views to the sheet. Subsequent sheets are numbered consecutively based on the previous sheet. Modifying Structural Settings You can create custom cutback distances for braces, beams, and columns.

You can also create custom brace symbols for use in plan views and for parallel line offset distances. You may want to add symbolic settings to a template. You may want to consider adding the settings that you use most often, and modify their properties accordingly.

The Export Layers command maps Revit Structure categories and subcategories to specific layer names that are available after exporting to other CAD programs.

The layer names are stored in a text file exportlayers. The layer mapping files reside in the Data folder of the Revit Structure program installation directory.

The layer names are stored in a text file exportlayersdgn. When you save these mappings to a text file, they become the set mappings for the project. These settings are retained within the project template; therefore, you do not need to worry about where the text file is saved.

Set as many pen-line weight mappings as desired. Setting up Shared and Project Parameters In this exercise, you refine the template further by setting up shared parameters, project parameters, and related multi-category tags and schedules.

Using shared parameters, you can define additional parameters that are not included in either the pre-defined instance and type parameters within family components or within the project template. You can add these shared parameters to any family regardless of category. Their definitions are stored in an external file ensuring consistency across families and projects. Their values may also be aggregated and reported using multi-category schedules. For example, you could use shared parameters to add specific parameters to an existing family component for scheduling and tagging when those parameters are not initially present by default.

Project parameters are those parameters either instance or type that are used within a single project for the purposes of scheduling information specific to that project. They cannot be shared with other projects, and unlike shared parameters, they cannot be used to tag objects. Multi-Category Tags employ shared parameters to permit tagging of any family component regardless of category.

When scheduling, you normally schedule a single category: rooms, doors, windows, and so on. When you create a multi-category schedule, it lists components regardless of category by using an external parameter as a filter.

In this exercise, detailed instructions are not supplied because each office has a unique set of needs. If you do not need to make changes to shared or project parameters, you can skip this exercise and move on to the last exercise of this lesson, Creating Named Print Settings. If a file already exists, you can browse to that file and modify it as needed.

This allows you to name the external parameter file. If this template will be used by multiple people within an office, you may want to save the file to a network location. After the file is named, you can begin creating parameter groups. For each parameter group, you can create a list of parameters. Create and load multi-category tags 29 Create required multi-category tags in the Family Editor.

For information on creating multi-category tags, see the tutorial referenced in the introduction of this exercise, or consult the Help documentation. The tag is now part of the template. Notice that the shared parameters created in previous steps are included under Available fields. Creating Named Print Settings In this exercise, you create named print settings, and add them to your default template file. This can be beneficial if you have numerous printers in a large networked office.

For each printer, you can set options such as sheet sizes, paper placement, and the percent of actual size. You can also create named settings for printing to a DWF writer.

By creating named settings within the template, you need only select a setting, make minor modifications if necessary, and print. Your template is complete. The only remaining task is to save it. If you need to share this file with others, you should save it to a network path.

The changes you made to the template are now the starting point for this project. You can also set this template as your default template. TIP Another way to create a template is to delete all model geometries from an existing project, and save it as a template file.

This can provide a good starting point for a template. In addition, you can use the Transfer Project Standards tool to move standards from one project to another. In this lesson, you modified settings, loaded components, and saved them to a template. By investing the time to individualize your template, you help ensure the office standards are maintained and reduce repetitive work that would be done by each employee for each project.

The imported file is used as a background template for creating the structural elements of the model. NOTE For training purposes, some structural columns were added to the model at off-grid locations in conjunction with architectural columns. Notice that Level 2 is bold. This is the active view that displays in the drawing area. The file becomes view specific and will behave like an annotation.

Selecting Link instead of import allows you to view, drag, copy, paste, and rotate the view as one object. However, you cannot select individual elements in the linked model. The halftone of the imported drawing is used as a background for placing columns.

You can save the open file if you wish. Exterior facade outlines, stairs, and elevator opening symbols, and a few basic interior walls and doors display in the view. Notice the column adjusts to the change. You can save the open file if desired. Linking a Revit Building File In this exercise, you learn how to link to a 3-dimensional 3D drawing created in Revit Building for use as a background. You can copy grids, levels, columns, walls, and floors from the original design and monitor any changes made to those elements.

Exterior facade outlines, stairs and elevator opening symbols, and a few basic interior walls and doors display in the view. This is the keyboard shortcut for Zoom to Fit. Elements available for monitoring are separated into 5 categories Levels, Grids, Columns, Walls, and Floors. On each tab the Original Type column identifies the type for the Revit Building file, and the New Type for the corresponding element available in the template selected. Each tab provides various parameters that can be set for that specific element.

Also, you can exclude element types you do not want to copy. NOTE Architectural columns typically extend through multiple layers of a model. A column may span from level 1 to level 10 of a structure and may present a problem when the analytical model is generated. Therefore, columns need to be split at each level. To select more than one grid, click Multiple on the Options toolbar, press Ctrl, while making selections.

After you select the grid, an eyeball symbol is displayed to indicate a relationship with the original element. NOTE A warning message may indicate that the loaded type has been renamed. The warning can be ignored. To select more than one level, click Multiple on the Options toolbar, press Ctrl, and select each level.

NOTE If you are prompted that the element type already exists in the project, and that the type from the new project will be used, click OK. To select more than one element, click Multiple on the Options toolbar, press Ctrl, and select each element. After selecting each element, an eyeball symbol is displayed to indicate a relationship with the original element. NOTE All copied elements are monitored for possible changes.

The coordination monitor function provides notification that updates have occurred. In the next tutorial, a new dataset is supplied. You begin by adding columns from Ground Level to Level 2.

You copy columns and use the paste-align command to add structure to other levels. You also learn how to splice the columns. After you copy columns, you add horizontal framing to an area of Level 2, and then copy this framing to other levels. Completed model Adding Grid Lines to the Imported Drawing In this exercise, the imported drawing is a halftone, that you use as a background drawing for placing columns.

Notice the grid line is highlighted with a blue value within the grid head. As you select subsequent grid lines, they are labelled in alphabetical sequence.

Notice it is labeled B. Zoom in and out as needed. The last vertical grid is K. Notice it is grid L. Notice that the sequencing has adjusted from alphabetical to numeric. The bottom grid should be grid 5. Adding Structural Columns In this exercise, you load a new column type from the Revit Structure Library and add columns at each grid intersection. These columns extend from an elevation to a splice elevation just above Level 2. This is the shortcut key for Zoom to Fit.

NOTE When you use the Grid Intersection tool to place columns, Revit Structure places the tops of the columns at the current level, and the bases of the columns at the level below. Notice that columns are placed at each grid intersection. In addition, there are a few extraneous columns on grid line intersections that are exterior to the structure. TIP You may have to zoom into the grid intersection to right-click one of the columns.

A welded connection graphically adds a splice symbol to the columns. In a coarse detail view, the welded connection is visible as 2 vertical lines at the splice location. NOTE If necessary, you can adjust the height by clicking the temporary dimension and modifying the level elevation. Level 3 should be mm above Level 2.

 
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