Piping in solidworks analysis pdf free download

This book can also be used to show students the capabilities of fluid flow and heat transfer simulations in freshman and sophomore courses such as Introduction to Engineering. Both internal and external flow problems are covered and compared with experimental results and analytical solutions. Covered topics include airfoil flow, boundary layers, flow meters, heat exchanger, natural and forced convection, pipe flow, rotating flow, tube bank flow and valve flow.

Real-world mechanical engineering industry examples and tutorials have been used to ensure that the users can relate the knowledge gained through this book with the actual mechanical industry designs.

Salient Features: Book consisting of 9 chapters that are organized in a pedagogical sequence. Summarized content on the first page of the topics that are covered in the chapter. More than 30 real-world mechanical engineering simulation problems used as tutorials and projects with step-by-step explanation.

Additional information throughout the book in the form of notes and tips. Self-Evaluation Tests and Review Questions at the end of each chapter to help the users assess their knowledge. Technical support by contacting ' [email protected] '. Additional learning resources at 'allaboutcadcam. Score: 5. The book provides access to over models, their solutions and additional support materials.

Learn by doing, not just by reading. Formulate the skills to create, modify and edit sketches and solid features. Learn the techniques to reuse features, parts and assemblies through symmetry, patterns, copied components, design tables, configurations and more.

The goal is to illustrate how multiple design situations and systematic steps combine to produce successful designs. The focus of examples is on problems commonly found in introductory, undergraduate, Design of Machine Elements or similarly named courses.

In order to be compatible with most machine design textbooks, this text begins with problems that can be solved with a basic understanding of mechanics of materials. Problem types quickly migrate to include states of stress found in more specialized situations common to a design of mechanical elements course.

Paralleling this progression of problem types, each chapter introduces new software concepts and capabilities. Many examples are accompanied by problem solutions based on use of classical equations for stress determination. Unlike many step-by-step user guides that only list a succession of steps, which if followed correctly lead to successful solution of a problem, this text attempts to provide insight into why each step is performed.

This approach amplifies two fundamental tenets of this text. The first is that a better understanding of course topics related to stress determination is realized when classical methods and finite element solutions are considered together. Show original message. Either email addresses are anonymous for this group or you need the view member email addresses permission to view the original message.

Cad solidworks routing- piping- tubing - This course teaches you to use the SolidWorks mechanical design automation software to create routed systems for tubing and piping applications, offered online, in a [PDF] Federal Employer Guide. This course explains how to create, edit and manage piping and tubing routes, from the critical routing components and design requirements to the subassemblies that contain the routes. Solidworks Piping Training Manual Once you have completed the manual downloads, click Next to continue.

If you want to download automatically, you can change the option by going back to the Summary Page and changing Download Options. A short summary of this paper. Untuk rincian tentang konvensi berkenaan dgn For details about typographical conventions and how percetakan dan bagaimana untuk menavigasi melalui to navigate through these tutorials, see Conventions.

If you are new to the SolidWorks software, familiarize jika Anda baru untuk perangkat lunak SolidWorks, yourself with the tutorials in Getting Started first. For membiasakan diri dengan tutorial dalam Memulai examples of What's New in SolidWorks for this release, pertama.

All other tutorials can be untuk rilis ini, lihat Apa Contoh Baru. Semua tutorial completed in any order. Introduction to SolidWorks Introduction to SolidWorks 2. My First Part My First Part 3. Sketching the Circle Sketching the Circle 4. Adding Dimensions Adding Dimensions 5. Extruding the Base Feature Extruding the Base Feature 6. Saving the Part Saving the Part 7. Sketching the Boss Sketching the Boss 8.

Dimensioning the Boss Sketch Dimensioning the Boss Sketch 9. Offsetting Entities Extruding the Ring Boss Sketching the Hole Dimensioning the Hole Sketch Creating a Hole Creating Holes Using the Hole Wizard Modifying and Dimensioning Hole Wizard Holes Modifying and Dimensioning Hole Wizard Adding Fillets Holes Sketching the Tall Cylinder Extrusion Adding Fillets Dimensioning the Tall Cylinder Sketch Adding the Tall Cylinder Extrusion Sketching the Tall Cylinder Hole Dimensioning the Tall Cylinder Hole Sketch A part is a 3D model made up of features You begin this lesson by creating a new part 1.

Click New on the Standard toolbar. The New SolidWorks Document dialog box appears. Click Part. Click OK. A new part window appears. When toolbar buttons have an orange border, for example , you can click them in the tutorial window to flash the corresponding button in the SolidWorks window Sketching the Circle The first feature in the part is a cylinder extruded from a sketched circular profile. The Front, Top, and Right planes appear in the graphics area.

Move the pointer over the Top plane to highlight it, then click to select it. The display changes so that the Top plane is facing you. A sketch opens on the Top plane. Click Circle on the Sketch toolbar. The Circle PropertyManager opens in the left pane. Move the pointer over the origin. The pointer changes to. This indicates a coincident relation between the center of the circle and the origin.

Click to place the center point on the origin. Move the mouse and notice a preview of the circle dynamically follows the pointer. Click to finish the circle and click in the PropertyManager.

The size of your sketch entities does not need to be exact. For example, this circle does not need to be Click Smart Dimension on the Sketch toolbar.

Select the circle. Notice the preview of the diameter dimension. Move the pointer to where you want the dimension and click to add the dimension. In the Modify box, type , then click and click in the graphics area. Click Exit Sketch on the Sketch toolbar. You exit the sketch when you are done with the 2D profile and are ready to create the 3D cylinder.

The settings for the extrusion appear in the PropertyManager in the left panel. In the PropertyManager, under Direction 1: a. Select Blind in End Condition. Set Depth to 7. Notice the shaded preview of the extrusion. The first feature is complete. Boss-Extrude1 appears in the FeatureManager design tree in the left panel. Saving the Part 1. Click Save on the Standard toolbar. In the dialog box, type Pressure Plate for File name.

Click Save. The extension. Select the top face of the part. Click Top on the Standard Views toolbar. The ring boss is concentric with the base cylinder because you started both at the origin. In the completed sketch, the symbol indicates this relationship. Click to place the center of the circle.

Move the pointer to create the circle. Dimensioning the Boss Sketch 1. Move the pointer and click to place the dimension. In the Modify box, type 75, then click and click in the graphics area. Offsetting Entities The sketched circle represents the outside of the ring. Next create the inside of the ring using the Offset Entities tool. Click Offset Entities on the Sketch toolbar. In the PropertyManager, under Parameters: a. Set Offset Distance to 5. Select Reverse to offset the circle to the inside 3.

Select the sketched circle. Click Trimetric on the Standard Views toolbar for a better view of the model.

In the PropertyManager, under Direction 1, set Depth to Click Sketching the Hole Create a circle for the center hole. Click Extruded Cut on the Features toolbar. In the Modify box, type 25, then click and click in the graphics area.

Click Exit Sketch Sketch toolbar. Click Trimetric Standard Views toolbar. The following steps give you practice creating Hole Wizard holes.

However, because these holes are not part of the model design, you remove them after placement. Click Top Standard Views toolbar. Click Hole Wizard Features toolbar. Under Hole Specifications, select M6 in Size. Under Options: a. Select Head clearance. Set Head Clearance to 1. Gbr-8 6. Select the Positions tab. In the graphics area, click the base cylinder inside the ring boss, then click again above the center hole to place a hole.

The hole position does not need to be exact. You later move the hole to the centerline. Move the pointer under the center hole so the inference centerline appears, then click to place another hole 9. Press Esc to stop inserting holes.. Gbr Drag the first hole onto the inference centerline. Click to close the Point PropertyManager. On the Type tab, select M4 in Size. Click Zoom to Area View toolbar and zoom in on the two holes.

Click Smart Dimension Sketch toolbar. Select the center of the top hole and the origin, then click to place the dimension 6. In the Modify dialog box, set the value to 22, then click. Repeat steps 5 and 6 for the bottom hole. Click Yes to confirm the deletion. Press F to zoom out Adding Fillets Add a fillet feature to round off the edges of the part 1. Click Fillet on the Features toolbar. Select the top face of the ring boss and the outside face of the base.

Select the top face of the base cylinder. The centerline acts as a construction line for the next circle. It keeps the center of the circle vertical with respect to the origin. Move the pointer over the origin until the pointer changes to and click to start the centerline. Move the mouse above the start of the centerline. The pointer changes to to indicate the centerline is vertical.

Click again to end the line. Make the line about 45mm long. Move the pointer over the endpoint of the line not the endpoint by the origin. Click to start the circle. Move the pointer to define the circle and click to finish. Click in the PropertyManager. In the Modify box, enter 27 for the circle dimension, click , and click in the graphics area.

Select the vertical centerline. In the Modify box, type 35 to position the circle, click , and click in the graphics area. Adding the Tall Cylinder Extrusion Now that the sketch is done, make the extrusion for the tall cylinder boss.

Select the circle to define the Selected Contours. Select the top face of the tall cylinder extrusion. Click Circle on the Sketch toolbar 4. Move the pointer to the edge of the tall cylinder and leave it there until the center point of the tall cylinder appears as shown. Move the pointer over the new center point. Move the pointer and click to finish the circle. In the Modify box, type 15, click , and click in the graphics area. Adding the Tall Cylinder Hole Create a hole in the tall cylinder that cuts through the entire part.

Adding Fillets to the Tall Cylinder 1. Click Hidden Lines Visible on the View toolbar. This shows the edges needed for the fillet. The radius is already set to 2mm to match the last fillet you added to the model. Click Shaded With Edges on the View toolbar Creating a Circular Pattern Create six tall cylinder extrusions with cuts and fillets evenly spaced about the central axis of the part using the Circular Pattern tool.

Click View, Temporary Axes. This shows all of the system-generated axes in the part. You select one as the central axis of the pattern. Select the temporary axis in the center of the part for Pattern Axis. Set Number of Instances to 6. Click in Features to Pattern 5. In the flyout FeatureManager design tree in the graphics area, select the last three features Fillet2, Cut-Extrude2, and Boss-Extrude3. Click View, Temporary Axes to turn off the system axes. Select two edges as shown.

You need to select one edge on the inside of the ring and one edge on the outside of the ring. Click to add a 2mm fillet. The part is complete. My First Drawing For your first drawing, you create the drawing shown below. The drawing contains many views, centerlines, center marks, and dimensions.

If Pressure Plate. Click Options on the Standard toolbar. Under Tangent edges in new views, select Removed to hide transition edges between rounded or filleted faces, then click OK.

SolidWorks creates a drawing and begins the process to place a model view. Click Section View on the Drawing toolbar. Move the pointer over the outside edge of the pressure plate until the center point appears.

Move the pointer above the center point of the plate. Click to start the section line. Move the pointer straight down below the plate. Click to end the section line. Move the pointer to the right to place the view and click to finish. Under Section Line, click Flip direction to reverse the direction of the section view. Click Detail View on the Drawing toolbar. Move the pointer over the section view and click to place the center of the detail circle.

Move the pointer to define the detail circle and click to finish. Move the pointer to place the detail view and click to add the view. Accept the default file name and click Save. Click Yes if prompted to save referenced models to also save the part. Creating an Isometric View Create a shaded isometric view 1. Click Model View on the Drawing toolbar. Click Next. Under Display Style, click Shaded.

Move the pointer to place the view. If the view is not in the correct location on the drawing sheet, you can drag the view. Move your pointer over the view until the pointer includes , then drag the view. Click Center Mark on the Annotation toolbar. In the Top view, click the outside edge of one of the tall bosses in the pattern as shown.

Click in the graphics area to propagate the center marks to all the other holes in the pattern. Adding Centerlines Add centerlines to the section view and detail view 1. Click Centerline on the Annotation toolbar. In the section view, select the two edges of the top hole. A centerline appears between the two edges. Repeat for other holes in the section and detail views to add three more centerlines.

On the Document Properties tab, select Dimensions. Clear Add parentheses by default to display reference dimensions in drawings without parentheses, then click OK. Click Smart Dimension on the Annotation toolbar. Move the pointer to the outside edge of the top view and click. Move the pointer to place the dimension and click.

The diameter dimension appears. Add the three other diameter dimensions: a. Select the edge of the circle. Move the pointer to place the dimensions and click. Move to the detail view and select the left edge of the plate. Select the right edge of the plate. The length dimension 37 appears.

Place the two other dimensions on the detail view. Modifying the Text of Dimensions 1. Select the cylinder boss diameter 27 dimension.

Type 6x, then click. The dimension now indicates that there are six cylinders of the same size in the drawing.

Repeat steps 1 through 3 for the cylinder boss hole diameter 15 dimension. This completes the drawing 5. Select the center hole diameter 25 dimension. Type THRU, then click. The dimension now indicates a through all cut. Lesson 1 - Parts — Overview 2. Setting up a new part document A. Creating the base feature B.

Adding a boss feature C. Creating a cut feature D. Adding fillets E. Adding a shell feature F. You can begin with the first section or skip to a later section to bypass tasks you already know how to do. Setting up a new part document Creating the base feature Adding a boss feature Creating a cut feature Adding fillets Adding a shell feature Editing features Completed Part A.

Creating and Saving a Part Document 1. Click New Standard toolbar. Click Save Standard toolbar. In the dialog box, type Tutor1 for File name. In tutorials, click toolbar buttons with orange borders for 20 example to flash the corresponding button in the SolidWorks window.

Creating the Base Task Extrude a rectangle with one corner on the origin and dimensioned as shown Sketching the Base 1. The Front, Top, and Right planes appear and the pointer changes to.

As you move the pointer over a plane, the border of the plane is highlighted. Why start a sketch with an extrusion? Select the Front plane. Click Corner Rectangle Sketch toolbar. Move the pointer to the sketch origin.

The pointer is on the origin when it changes to. What if the pointer does not change? Click the origin and drag the pointer up and to the right. Notice that it displays the current dimensions of the rectangle. You do not have to be exact with the dimensions. Release the Corner Rectangle tool. Dimensioning the Base 1. Click Select on the Standard toolbar. What are the colored squares with symbols?

The sides of the rectangle that touch the origin are black. Because you started sketching at the origin, the vertex of these two sides is automatically coincident with the origin, as shown by the symbol. This relationship constrains the sketch. What does constrain mean? Why is the rectangle different colors? Drag one of the blue sides or drag the vertex to resize the rectangle.

Select the top edge of the rectangle. Click above the line to place the dimension. The Modify dialog box appears. What if the Modify dialog box does not appear?

Set the value to The sketch resizes to reflect the mm dimension. Click Zoom to Fit View toolbar to display the entire rectangle and center it in the graphics area. Repeat steps , with a vertical line, setting the height of the rectangle to mm. The Boss-Extrude PropertyManager appears in the left pane, the view of the sketch changes to Trimetric, and a preview of the extrusion appears in the graphics area.

The new feature, Boss-Extrude1, appears in the FeatureManager design tree and in the graphics area. Where did the sketch go? Adding the Boss You can now verify your model. Task Extrude a boss, centered on the model and dimensioned as shown. Click the front face of the model to preselect the sketch plane for the next feature. Click Normal To Standard Views toolbar. Click Circle Sketch toolbar. Click near the center of the face and move the pointer to sketch a circle.

Release the circle tool 7. Move the pointer outside the model to see the current dimension. Click to place the dimension. In the Modify dialog box: a. Constraining the Boss 1. Still using Smart Dimension , select the top edge of the face, select the circle, and click to place the dimension. Repeat steps 1 and 2, selecting the right edge of the face and the circle. The circle turns black, and the status bar indicates that the sketch is fully defined.

Extruding the Boss 1. The Boss-Extrude PropertyManager appears in the left pane, and a preview of the extrusion appears in the graphics area. Set Depth to Boss-Extrude2 appears in the FeatureManager design tree.

Task Cut a hole through the entire part with a radius 10mm less than the boss Extruding the Hole 1. Click Extruded Cut Features toolbar. Select the front face of the circular boss.

Move the pointer to the center of the boss. The pointer changes to indicate that the center of the circle is coincident with the center of the boss. Drag to create the circle and release the tool. Click Smart Dimension and set the diameter of the hole to The sketch closes and the Cut-Extrude PropertyManager appears 8.

Click Fillet Features toolbar. Under Fillet Type, select Constant radius. Select the front face of the base. Under Items To Fillet: a. Set Radius to 5. Select Full Preview. The face is highlighted and a preview of the filleted face is displayed 5. Select the four edges at the corners of the base. As you move the pointer over hidden lines, they highlight so you can select them.

As you select each edge, its name is added to Edges, Faces, Features and Loops and the preview is updated. Under Items to Fillet, set Radius to 1. Right-click on either the inner or outer edge of the boss face and click Select Other. Select the face of the boss from the pop-up list. Click Zoom to Selection View toolbar. Click Rotate View View toolbar.

Drag the pointer to rotate the part until you can see the back. Release the tool. Select the back face. Click Shell Features toolbar. Under Parameters, set Thickness to 2. The shell operation removes the selected face and leaves a thin-walled part. Creating a Section View of the Shell 1. Click Section View View toolbar.

In the PropertyManager, under Section 1, click Top 4. Drag the handle up to show the section view. You can rotate and zoom the section view. Only the display of the part is cut, not the model itself.

Click Section View View toolbar to clear the section view. Double-click Boss-Extrude1 in the FeatureManager design tree. The feature dimensions appear in the graphics area.

Double-click In the Modify dialog box, set the value to 50 and click. Click Rebuild Standard toolbar to regenerate the model with the new dimension. You want to change the radius of just the edge fillets.