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SolidWorks Surfacing Video Tutorial Part - 5 - Modeling a Dust/Sand Picker in SolidWorks

Sudhir Gill
in Modeling
1 0 Intermediate
In this video tutorial we will be modeling a dust/sand picker in SolidWorks using surfacing tools.
SOLIDWORKS cadgill tutorials tools surface loft picker sand dust tutorial video surfacing solidworks

[Tutorial Video] Solidworks: Socket head cap screw

Huy Pham
in Modeling
1 0 Beginner
I have a channel in youtube about CAD 3D, I hope this useful for you: https://www.youtube.com/channel/UCw_Zp8rsvtI01SnhkM_4FAw I hope this video useful for everyone want to become professional design of engineer
SOLIDWORKS screw tutorial solidworks

[Tutorial Video] SolidWorks 2018 Interview Tool Test 3d Modeling Exercise

jehan kothari
in Modeling
1 0 Beginner
In this video, I am creating a 3d model from the 2d drawing. But I have separately explained on how to approach a 3d model while you are facing an interview tool test. I have step by step explained my modeling process and hope you enjoy it :)
SOLIDWORKS 2d tutorial solidworks beginner modeling 3d

[Tutorial Video] SolidWorks: Cup (2)

Huy Pham
in Modeling
0 0 Beginner
I hope this video useful for everyone want to become professional design of engineer I have a channel in youtube about CAD 3D, I hope this useful for you: https://www.youtube.com/channel/UCw_Zp8rsvtI01SnhkM_4FAw
SOLIDWORKS cup tutorial solidworks

Solidworks Tutorial for Beginners #25: Circular Sketch Pattern. [2019]

CAD Pond
in Modeling
0 0 Beginner
Tutorial 25: This tutorial is to introduce to you the Solidworks "Circular Pattern" tool. At the end of this tutorial, you would be able to understand how this tool works, and how to tailor it towards your desire
SOLIDWORKS sketch circular pattern dassault with solidworks tutorial

Solidworks: Eye Bolt

Huy Pham
in Modeling
0 0 Beginner
I hope this video useful for everyone want to become professional design of engineer I have a channel in youtube about CAD 3D, I hope this useful for you: https://www.youtube.com/channel/UCw_Zp8rsvtI01SnhkM_4FAw
SOLIDWORKS bolt eye tutorial solidworks

Knife Time Lapse |Time-Lapse | Solidworks

CAD Pond
in Modeling
3 0 Intermediate
A time-lapse video highlighting the processes involved in the modeling of a three-bladed knife. Full video loading!
SOLIDWORKS render keyshot blade decorative kitchen knife modeling tutorial

How to model a knife (3 blades) | Solidworks | 1 of 8

CAD Pond
in Modeling
0 0 Intermediate
Part 1. Modeling of a 3-bladed knife using Solidworks.
SOLIDWORKS keyshot blade bread decorative kitchen knife tutorial solidworks

Solidworks Tutorial for Beginners #40: Area Hatch / Fill. [2019]

CAD Pond
in Modeling
0 0 Beginner
Tutorial 40: This tutorial is to demonstrate how to use the Area Hatch and Fill tool.
SOLIDWORKS area region fill hatch modeling tutorial solidworks

Solidworks: Ring

Huy Pham
in Modeling
0 0 Beginner
I hope this video useful for everyone want to become professional design of engineer I have a channel in youtube about CAD 3D, I hope this useful for you: https://www.youtube.com/channel/UCw_Zp8rsvtI01SnhkM_4FAw
SOLIDWORKS tutorial solidworks

SOLIDWORKS PRACTICE PIECE 2

El Pozo
in Modeling
0 0 Intermediate
SolidWorks is a solid modeler, and utilizes a parametric feature-based approach which was initially developed by PTC (Creo/Pro-Engineer) to create models and assemblies. The software is written on Parasolid-kernel. Parameters refer to constraints whose values determine the shape or geometry of the model or assembly. Parameters can be either numeric parameters, such as line lengths or circle diameters, or geometric parameters, such as tangent, parallel, concentric, horizontal or vertical, etc. Numeric parameters can be associated with each other through the use of relations, which allows them to capture design intent.
SOLIDWORKS design 2d certification weldments tutorial 3d cad solidworks

SOLIDWORKS PRACTICE PIECE 4

El Pozo
in Modeling
0 0 Intermediate
SolidWorks is a solid modeler, and utilizes a parametric feature-based approach which was initially developed by PTC (Creo/Pro-Engineer) to create models and assemblies. The software is written on Parasolid-kernel. Parameters refer to constraints whose values determine the shape or geometry of the model or assembly. Parameters can be either numeric parameters, such as line lengths or circle diameters, or geometric parameters, such as tangent, parallel, concentric, horizontal or vertical, etc. Numeric parameters can be associated with each other through the use of relations, which allows them to capture design intent. Design intent is how the creator of the part wants it to respond to changes and updates. For example, you would want the hole at the top of a beverage can to stay at the top surface, regardless of the height or size of the can. SolidWorks allows the user to specify that the hole is a feature on the top surface, and will then honor their design intent no matter what height they later assign to the can. Features refer to the building blocks of the part. They are the shapes and operations that construct the part. Shape-based features typically begin with a 2D or 3D sketch of shapes such as bosses, holes, slots, etc. This shape is then extruded or cut to add or remove material from the part. Operation-based features are not sketch-based, and include features such as fillets, chamfers, shells, applying draft to the faces of a part, etc. screen shot captured from a SolidWorks top-down design approach. Building a model in SolidWorks usually starts with a 2D sketch (although 3D sketches are available for power users). The sketch consists of geometry such as points, lines, arcs, conics (except the hyperbola), and splines. Dimensions are added to the sketch to define the size and location of the geometry. Relations are used to define attributes such as tangency, parallelism, perpendicularity, and concentricity. The parametric nature of SolidWorks means that the dimensions and relations drive the geometry, not the other way around. The dimensions in the sketch can be controlled independently, or by relationships to other parameters inside or outside of the sketch. In an assembly, the analog to sketch relations are mates. Just as sketch relations define conditions such as tangency, parallelism, and concentricity with respect to sketch geometry, assembly mates define equivalent relations with respect to the individual parts or components, allowing the easy construction of assemblies. SolidWorks also includes additional advanced mating features such as gear and cam follower mates, which allow modeled gear assemblies to accurately reproduce the rotational movement of an actual gear train. Finally, drawings can be created either from parts or assemblies. Views are automatically generated from the solid model, and notes, dimensions and tolerances can then be easily added to the drawing as needed. The drawing module includes most paper sizes and standards (ANSI, ISO, DIN, GOST, JIS, BSI and SAC).
SOLIDWORKS design 2d certification weldments tutorial 3d cad solidworks

#Solidworks smart library function

jaouad jad
in Design & CAD
1 0 Intermediate
How to create a library design feature in SOLIDWORKS. cam lock and nut system
SOLIDWORKS intelligente fonction feature function smart tutoriel solidworks tutorial

Solidworks: Sheet Metal (3)

Huy Pham
in Modeling
1 0 Beginner
I hope this video useful for everyone want to become professional design of engineer I have a channel in youtube about CAD 3D, I hope this useful for you: https://www.youtube.com/channel/UCw_Zp8rsvtI01SnhkM_4FAw
SOLIDWORKS metal sheet tutorial solidworks

SOLIDWORKS PRACTICE PIECE 7

El Pozo
in Modeling
0 0 Intermediate
SolidWorks is a solid modeler, and utilizes a parametric feature-based approach which was initially developed by PTC (Creo/Pro-Engineer) to create models and assemblies. The software is written on Parasolid-kernel. Parameters refer to constraints whose values determine the shape or geometry of the model or assembly. Parameters can be either numeric parameters, such as line lengths or circle diameters, or geometric parameters, such as tangent, parallel, concentric, horizontal or vertical, etc. Numeric parameters can be associated with each other through the use of relations, which allows them to capture design intent. Design intent is how the creator of the part wants it to respond to changes and updates. For example, you would want the hole at the top of a beverage can to stay at the top surface, regardless of the height or size of the can. SolidWorks allows the user to specify that the hole is a feature on the top surface, and will then honor their design intent no matter what height they later assign to the can. Features refer to the building blocks of the part. They are the shapes and operations that construct the part. Shape-based features typically begin with a 2D or 3D sketch of shapes such as bosses, holes, slots, etc. This shape is then extruded or cut to add or remove material from the part. Operation-based features are not sketch-based, and include features such as fillets, chamfers, shells, applying draft to the faces of a part, etc. screen shot captured from a SolidWorks top-down design approach. Building a model in SolidWorks usually starts with a 2D sketch (although 3D sketches are available for power users). The sketch consists of geometry such as points, lines, arcs, conics (except the hyperbola), and splines. Dimensions are added to the sketch to define the size and location of the geometry. Relations are used to define attributes such as tangency, parallelism, perpendicularity, and concentricity. The parametric nature of SolidWorks means that the dimensions and relations drive the geometry, not the other way around. The dimensions in the sketch can be controlled independently, or by relationships to other parameters inside or outside of the sketch. In an assembly, the analog to sketch relations are mates. Just as sketch relations define conditions such as tangency, parallelism, and concentricity with respect to sketch geometry, assembly mates define equivalent relations with respect to the individual parts or components, allowing the easy construction of assemblies. SolidWorks also includes additional advanced mating features such as gear and cam follower mates, which allow modeled gear assemblies to accurately reproduce the rotational movement of an actual gear train. Finally, drawings can be created either from parts or assemblies. Views are automatically generated from the solid model, and notes, dimensions and tolerances can then be easily added to the drawing as needed. The drawing module includes most paper sizes and standards (ANSI, ISO, DIN, GOST, JIS, BSI and SAC).
SOLIDWORKS design 2d certification weldments tutorial 3d cad solidworks
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