Set and switch sketching units in SolidWorks by adjusting document properties to millimeter, gram, second, then switch to inch, pound, and observe dimension conversions in a simple rectangle sketch.

Explore essential sketcher tools in SolidWorks, including line types, rectangle options, circle and polygon creation, offset, mirror, trim, and constraints with smart dimensions to create fully defined sketches.

Master rotate, move, copy and scale sketch geometry in SolidWorks, using front plane sketching, two-point rectangle, constraints, and linear patterning to create patterned holes and arrays.

Learn to interlink dimensions in SolidWorks for parametric sketches. Double-click a dimension, press equals, and divide by two to keep length and height in sync.

learn to sketch a friction plate in SolidWorks, reading the drawing, and building outer and inner circles, construction lines, and a polar pattern of holes in this sketching exercise.

Master sketching a gear arm in SolidWorks by reading the drawing and constructing key features: outer diameter 44, inner diameter 28.57, slots, arcs, and tangency and coincidence relations.

Learn to build a four-link mechanism in SolidWorks by turning sketch lines into blocks, fixing the base link, and confirming motion with a mechanism check.

Create a 3D sketch in SolidWorks to model a pipe, using 3D sketch space without extra planes, apply dimensions, fillets, and a sweep from a circle on the right plane.

Learn to create a fully constrained 3D surface by sketching on planes, using construction lines and tangent relations, and building a lofted surface with guided curves in SolidWorks.

Master the extrude feature in SolidWorks by building a fully constrained sketch with a symmetric center rectangle and circle diameter 50, then create symmetric and offset extrusions using mid-plane.

Master the extrude cut in SolidWorks by sketching, dimensioning, and using options like blind, through all, up to surface, mid plane, and offset to remove material.

Master the revolve feature in SolidWorks by sketching a center line and profile, then use revolve boss base to create 360-degree parts and set angles to 60, 180, or 270.

Learn how to use the loft feature in SolidWorks to create a solid by transitioning between multiple sketches, merge with existing bodies, and control shape with a guided curve.

Use the sweep tool in SolidWorks to move a circular profile along a guided path, then adjust length and radius to create a parametric pipe that updates automatically.

Learn to create a revolve cut in SolidWorks to remove material around an axis, forming a groove, by sketching on the right plane with rectangle, arc, trimming, and construction axis.

Learn the swept cut in SolidWorks by removing material along a path with a profile, creating a hollow pipe and swapping profiles from circle to hexagon.

Learn how to use the lofted cut in SolidWorks by creating two profiles, such as a hexagon and a circle, and removing material to form a two-profile loft.

Learn how to use the shell feature in SolidWorks by creating a simple part, defining thickness, and applying inward or outward shell with face selection and evaluation.

Learn to create and pattern features in SolidWorks using linear and polar patterns. Apply patterns to extrude boss and extrude cut, with two-direction and circular layouts and practical dimensioning.

Create a plate and apply the hole feature in SolidWorks using the hole wizard, mastering tapped, counterbore, and countersunk holes with precise dimensions and parametric updates.

Explore SolidWorks fillet types including face fillet, constant radius (symmetric and asymmetric), and variable radius fillets, plus applying edge selections, fillet parameters, and mirroring to a part.

Create and adjust section views in SolidWorks by selecting the section view, choosing a plane (right, top, or front), and setting distance, angles, and color, then deactivate or reset.

Model a locating finger in SolidWorks from scratch by sketching a rectangle, extruding a mid-plane pad, creating a symmetric profile, applying a through cut with chamfer and dowel holes.

Model a shaft support in SolidWorks from scratch by sketching on the right plane, using a rectangle, lines, trim, dimensions, and applying revolve and extrude cuts to complete the part.

Model a support bracket in SolidWorks by sketching on the front plane, extruding, applying multi-face fillets, adding ribs, creating through-all holes, and mirroring features with axes.

Learn to convert a toggle lever isometric drawing into a fully constrained solid model in SolidWorks, using sketching, extrude, cut, mirror, and hole features.

This lecture demonstrates modeling an index slide in SolidWorks from scratch, using a front plane base sketch, circle and rectangle features, extrudes and cuts, mirroring, chamfers, and hole wizard holes.

Model this frame guide in SolidWorks from scratch in a beginner-friendly tutorial, covering sketches, extrude, cut, fillet, and holes to build a complete 3D frame.

Model a cut off holder in SolidWorks from scratch by sketching, extruding, cutting through all, mirroring features, and adding a boss, holes, and fillets with precise dimensions.

Model a lever hub in SolidWorks by sketching 108 mm circle on the front plane, extruding to 64 mm, performing extrude cuts, adding holes and chamfers.

Model a feed rod bearing from scratch in SolidWorks, using a front plane sketch to form a filleted triangle, extrude features, add a bore, ribs, and final fillets.

Model a counter bearing bracket in SolidWorks from scratch, using sketches, extrudes, fillets, holes, and hole wizard for 19 mm holes, 45 and 82 mm hole-to-hole distance, and isometric view.

Create an anchor bracket in SolidWorks from scratch, guiding beginners through sketching on the front plane, tangents, extrudes, slots, and fillets to complete a solid model.

Learn to model a socket bearing in SolidWorks with a beginner-friendly workflow using sketching, fillets, extrusion, and hole wizard drilling.

Model a locating v-block in SolidWorks by creating a constrained front plane sketch, applying tangency and symmetry, extruding, and adding mirrored cuts and two slots.

Design and model a hinge block in SolidWorks by sketching features on the front plane, extruding, applying construction geometry, and executing multiple cuts, holes, and a counterbore.

Model a centering wedge in SolidWorks through constrained sketching, extruding, and datum plane setup, then apply radius, fillet, and slot operations to complete the design.

Model a truck wheel in SolidWorks from scratch, building sketches, dimensions, and features, then revolve, extrude cut, pattern holes, and apply fillets for a complete wheel.

Model a column support in SolidWorks by sketching construction geometry, extruding a 12 mm boss, creating a rib, polar pattern, and drilling three 12 mm holes.

Model an idler pulley in SolidWorks from scratch, using sketches, constraints, revolve, and fillets, then verify the section view matches the drawing.

Learn to model a stock guide in SolidWorks from scratch, including sketching a full profile, revolving it, adding cuts and mirror features, drilling two 9 mm holes, and applying fillets.

Model a fixed bearing cup in SolidWorks from scratch by sketching a profile, revolving it, and adding three through holes equally spaced on a 108 PCD with a circular pattern.

Model this control guide in SolidWorks from scratch by sketching construction circles and arcs, constraining dimensions, extruding, performing extrude cuts, applying fillets, and creating a slot and holes.

Model a mounting bracket in SolidWorks from scratch by sketching a base, extruding 10 mm, adding a 30-degree slot, and drilling three 13 mm holes.

Model a holder block in SolidWorks from scratch using sketches, extrudes, and extrude cuts, with isometric views, dimensions, and features like holes and tangency for beginners.

model a slotted guide in SolidWorks from scratch, using construction circles, arcs with tangency, and extrude-cut operations to form the boss and the 22 mm slot.

Model a pivot guide in SolidWorks by building a front profile, applying sketches, dimensions, fillets, a midplane extrusion, and adding a slot and holes with extrude cut.

Model a jaw block in SolidWorks from scratch by sketching on the top plane with construction lines and arcs, extruding 35 mm, and creating a 16 mm blind hole.

Model a guide clip in SolidWorks from scratch, including sketching two construction circles, applying dimensions, extruding, extrude cut, holes, fillets, and slots.

Learn to model an ejector bracket in SolidWorks from scratch, creating sketches, extrusions, holes, fillets, and datum planes with precise dimensions.

Model a stud guide in SolidWorks from scratch by forming the boundary with circles, arcs, and tangents using equal constraints, then apply extrude, extrude cut, rib, boss, chamfer, and mirror.

Learn to model a shifter in SolidWorks from scratch by creating base features, extruding to 40 mm, defining datum planes, mirrors, and cuts, and applying a chamfer.

learn to model a shaft bracket in solidworks from scratch, using base sketches on the front plane, midplane extrusions, datum planes, converted geometry, and an M10 clearance hole.

Model a control bracket in SolidWorks from scratch using revolve base, extrude, bore, fillet, mirror, and slot features, with construction lines, convert entities, and tangent constraints.

Model an offset trip lever in SolidWorks by sketching on the right plane with three point arcs and tangents, extruding, adding features and holes, and applying fillets.

Model a guide link in SolidWorks from scratch by sketching on the top plane, extruding, applying fillets, creating holes and slots, and using extrude cut and Hole Wizard.

Model a shifter from scratch in SolidWorks, starting with a circular base, adding ribs and midplane features, and finishing with extrude cuts, fillets, and a drilled hole.

Model a rear support bracket in SolidWorks from scratch using sketches on the front plane and mid-plane extrusion. Apply fillets and mirror operations to finalize the part.

Learn to model an index guide in SolidWorks from scratch for beginners, using sketches, circles, arcs, tangents, fillets, and extrude and extrude cut features to view the isometric model.

Model a shoe block from scratch in SolidWorks by sketching on the top plane, extruding the shape, adding features with sketches, fillets, datum planes, and extrude cuts.

Create a shifter link in SolidWorks from scratch, starting on the front plane with two circles (2 in and 2.7 in), then extrude, add datum planes, mirror, and cut features.

Model a ratchet wheel in SolidWorks from scratch using sketches and basic extrude and mirror features. Add bolt circle, keyway, six holes on the PCD, and a 24-tooth polar pattern.

Model a support bracket in SolidWorks from scratch by sketching the base plate on the top plane, extruding, and applying a revolve cut with holes and fillets.

Model a male threaded pipe fitting in SolidWorks from scratch, using revolve and extrude features, hole wizard for the bore, cosmetic thread, and section views.

Model a v-belt pulley in SolidWorks from scratch using revolve boss base, revolve cut, and linear pattern to form a keyway and holes (pcd 60, dia 12) matching reference drawing.

Model a counter shaft drive hub in SolidWorks from scratch by creating a base sketch, extruding, adding holes and chamfers, and applying a circular pattern.

learn to model an auxiliary fork in SolidWorks from scratch, using construction circles, arcs, and tangency. apply extrusion, mid planes, mirrors, and extrude cuts to create the final solid.

Model a guide bracket in SolidWorks by sketching the base profile, constraining dimensions, extruding and cutting features, adding a boss, holes, ribs, and fillets.

Model a control block in SolidWorks from an isometric drawing. Use extrude features and bores, construction geometry, and extrude cuts to finish.

Learn to model a bearing bracket in SolidWorks from scratch, building the base profile, fillets, center holes, slots, and mirror features through extrude and cut operations.

Design a bend pipe with flange in SolidWorks by sketching, sweeping, and extruding the profile, then adding flanges, ribs, holes, and a circular pattern.

Model a lead screw bracket in SolidWorks from scratch using sketches, extrudes, extrude cuts, fillets, and hole features to finalize a precise bracket.

Learn to model a socket form roller in SolidWorks from scratch using construction circles, datum planes, extrude, projections, tangencies, holes, and fillets.

Model a lever bracket in SolidWorks from scratch, creating a base profile with construction circles, tangents, and coincidences, then extrude, fillet, rib, and counterbore holes using Hole Wizard.

Learn to model a bearing bracket in SolidWorks from scratch by creating the base profile, extruding features, adding holes, fillets, and mirroring to complete the bracket.

Model a gripper rod center in SolidWorks from scratch, using sketches, extrudes, mirroring, and hole wizard to create countersunk, standard, and counterbore holes with fillets for a complete part.

Model a mounting bracket in SolidWorks from the drawing by sketching, extruding, filleting, adding rib features, mirroring, and creating holes with Hole Wizard and counterbores.

Model an electronic enclosure in SolidWorks by converting an orthographic drawing into a 3d extruded profile. Apply sketches, extrude cuts, holes, and fillets with dimensions to match the isometric view.

Explore multibody modeling in SolidWorks by creating separate solid bodies within one part, merging or unmerging features, and drafting multiple bodies in a single drawing.

Model a coffee mug in SolidWorks from scratch, extruding a circular base, shelling to 4 mm, and creating a handle with a datum plane and swept profile.

Master surface modeling in SolidWorks by building a nozzle from a sketch using lofted and swept surfaces, split lines, applying tangency, knitting surfaces, revolving, trimming, and thickening to 0.5 mm.

Model a helical compression spring in SolidWorks using a helix and spiral and a sweep, adjusting pitch, revolutions, and wire diameter to customize the spring.

Apply material to a part via the material library, view mass properties and weight, create custom materials, and apply or adjust appearances on faces or the whole part.

Learn to design weldments in SolidWorks by creating structural members, gussets, endcaps, and welds, adding bottom I-beams, and generating a cut list with sub elements.

Create a sheet metal component in SolidWorks by building a base flange with default settings. Then unfold and fold bends, mirror features, and validate with a flat pattern.

Learn to create an equation driven polar pattern in SolidWorks, linking pattern quantity and angle to automatic updates for equal spacing.

Create a lofted part in SolidWorks by connecting four profiles with the loft command, using multiple planes and constrained sketches to form the solid.

Learn to create a rack in SolidWorks using 3D sketching, path and profile sweeps, and subsequent extrusion, patterning, and mirroring to assemble a complete rack.

Explore the basics of assembling parts in solidworks by inserting components, applying mates, using linear patterns, and leveraging assembly features, reference geometry, and bill of materials.

Modify a part inside a SolidWorks assembly by editing it within the assembly. Enter edit part mode, adjust the fillet radius from ten to five, and exit to apply changes.

Build a belt roller support assembly in SolidWorks by importing components and applying mates. Use concentric, parallel, and width mates, then lock rotations to fix the degree of freedom.

Insert fasteners in a SolidWorks assembly using the design library toolbox to fit an M6 bolt, washer, and hex nut, then apply mates to secure the bracket and base plate.

Create exploded views in SolidWorks by selecting components, adjusting steps along the y direction, and saving animated explosions as video files.

Create configurations in a SolidWorks assembly for a plunger at 0, 30, 60, and 90 degrees. Add configurations, suppress constraints, and apply angle mates to showcase precise positional variations.

Learn how to create an exploded line sketch in SolidWorks to connect bolt, washer, hole, and nut along the same axis, revealing assembly relationships for exploded views.

Create a single part with multiple configurations, such as hinge inner and outer cuts, and assemble them in SolidWorks using configured components and width mates to save time.

Analyze interference in SolidWorks assemblies using interference detection, isolate conflicting parts, and apply chamfers to resolve issues, ensuring no interference between components.

Replace a component inside a SolidWorks assembly by copying the part as a new revision, applying chamfers, and replacing the original with the updated part to remove interference.

Model a part in SolidWorks from scratch by sketching a base profile, extruding midplane, and adding holes. Then produce a 2d drawing with isometric and auxiliary views.

Model a simple part in SolidWorks, create its sketch, extrude features, add holes, chamfers and fillets, and generate a detailed drawing for drafting with isometric and auxiliary views.

Model a part in SolidWorks from an orthographic drawing by creating the base sketch, extruding, adding fillets, cuts and holes, then produce the detailed part drawing with dimensions.

Explore SolidWorks part modeling and drafting by building a support from scratch, creating sketches, extrudes, mid-plane features, mirrors, fillets, holes, and a detailed multi-view drawing in third-angle projection.

Create a gear pump base in SolidWorks by sketching, extruding, and applying fillets, grooves, and holes, then generate complete 2D drawings with isometric and sectional views.

Learn to model a SolidWorks part from an orthographic drawing, create 3d features (pads, pockets, holes), apply fillets and chamfers, then generate a matching 2d drawing with tolerances and callouts.

Model a SolidWorks part from sketch to pad, add features like extrudes, cuts, holes, and fillets, and create a corresponding isometric view and 2D drawing.

Model a spanner in SolidWorks from sketches to isometric view; build 3d parts, perform extrudes and extrude cuts, apply fillets and a polar pattern, then generate a drawing with dimensions.

Learn SolidWorks part modeling and drafting from scratch, creating a 3D model and its 2D drawing using sketches, extrudes, extrude cuts, fillets, holes, and mid plane references.

Learn essential drawing settings in SolidWorks, including ISO A4 templates, view placement, scale, and drafting standards with balloons, layers, blue dimensions, and exportable presets.

Learn to create a custom drawing template in SolidWorks by editing the sheet format. Update the title block with your name and save the template for future use.

Detail a base plate in SolidWorks by applying a template, setting ISO third-angle projection, importing drafting standards, placing dimensions and tolerances, and preparing the title block and mass properties.

Detail a manufacturable bracket in SolidWorks by creating base and projected views, setting a custom scale, applying millimeter dimensions, and adding tolerances, surface finish, and datum references.

Detail a roller in SolidWorks by applying dimensions, tolerances (H7), datum for concentricity, surface finish, and geometric tolerance; create base and isometric views with material and weight.

export a SolidWorks drawing to AutoCAD by saving as dwg or dxf, selecting the dwg option, using the lowest AutoCAD version for easy opening, and keeping a 1:1 output scale.

Learn how to export a solidworks drawing to pdf using the file save as method, and verify the exported pdf is correct.

Detail a bush in SolidWorks by applying ISO modified detailing settings, base view, dimensions, tolerances, surface finish, and datum A for concentricity, S7/G6 fits.

detail a pin in solidworks by creating a detailed drawing with sections, hidden-line removal, ISO standards, g6 tolerances, center marks, datum features, surface finish, and mass properties.

Create an assembly drawing for a belt roller support in SolidWorks. Use an ISO modified setting, center lines, smart dimensions, and a bill of materials for views and title block.

Apply model-based definitions (MBD) in SolidWorks to annotate a 3D base plate with dimensions using Smart Dimension, defining overall length, edges, holes, radii, and tolerances.

Detail a sheet metal part in SolidWorks by creating a drawing and placing views. Develop the flat pattern, set templates and scales, and export DXF for CNC bending.

Learn to create an exploded view drawing in SolidWorks, add balloons and a bill of materials, adjust the scale and layout, and export the final drawing as a PDF.