Master Autodesk Fusion 360 - Engineering Model and Assembly

Start a beginner-friendly first exercise in Fusion 360 that covers basics, sketches an l-shaped profile, extrudes to 100 mm, adds a semicircle and concentric circle, and subtracts material.

Sketch rectangle and circles in Fusion 360, extrude to 10 mm, add a slot and a 20 mm radius circle, mirror across middle plane using top, front, and side views

Master Autodesk Fusion 360 by sketching half the model, mirroring it across a construction line, and extruding to 140 millimeters, then apply a polished copper finish.

Practice modeling in Autodesk Fusion 360 by creating a side-view extruded block (70 mm) and adding a top channel slot with 30 mm depth, using smart dimensions and brass appearance.

Model this fifth exercise in Fusion 360 by sketching from the top view, extruding features, applying straight cuts, 45-degree chamfers, and a 50 by 10 mm rectangle, finished in aluminium.

Start a new Fusion 360 design, sketch a 60 by 40 rectangle with end features, and extrude to 10 and 30 mm while applying fillets and concentric circles.

Engage in Fusion 360 modeling by sketching from side and front views, creating a 50×20 mm rectangle with a 10 mm hole, and extruding to 10 and 20 mm depths.

Model a part in Autodesk Fusion 360 by sketching 30×50×50 profile, extruding 40 mm, adding fillets radius 20, and drilling a 20 mm hole with a 10 mm bottom cut.

Practice modeling in Autodesk Fusion 360 by creating a top-view rectangle with a symmetric slot, extruding to depth, adding back faces, a triangular feature, and final detailing.

Master Autodesk Fusion 360 by modeling a 50 by 75 mm block with a 25 mm hole, using side view sketches, extrusions, fillets, projection, and a polished copper finish.

Start from top view to form a 70 by 40 rectangle with a 20 mm hole, extrude to 50 mm, add 25 mm fillet, and 40 by 20 mm slot.

Model a simple part in Fusion 360 by using front and side views, sketch concentric circles with a tangent, and extrude features to specified depths.

Learn to model a symmetric part in Autodesk Fusion 360 by sketching concentric circles, defining tangents for a slot, and extruding to 5 and 15 mm depths.

Model a multi-feature part in Fusion 360 by sketching concentric circles and a center-to-center slot, applying smart dimensions, tangent arcs, and multi-depth extrusions to complete the design.

Model a slot-shaped part in Autodesk Fusion 360 using the top view, add concentric circles and multiple holes, extrude in stages, apply fillets, and finish with a metallic appearance.

Model a hub in Fusion 360 from the top view, using construction lines, concentric circles, and tangent constraints, then mirror and extrude 20, 30, and 70 mm with different materials.

Master Fusion 360 exercise 25 models a symmetric front-view part with concentric circles, tangents, and constraints, then uses multi-direction extrusion and materials like brass and nickel.

Model Fusion 360 part by creating concentric circles on offset planes, extruding sections, and adding chamfers, holes, and a six-hole circular pattern; finish with fillets and a brass appearance.

Model a front-view based Fusion 360 part by sketching concentric circles and lines, extruding symmetrically, adding multiple planes, fillets, and mirrored features.

Model a Fusion 360 part by starting from the side view, creating concentric circles with defined diameters, extruding 150 mm, adding pockets, and applying a metallic appearance.

Fusion 360 exercise 33 builds a front sketch, extrudes 50 mm, adds a 26 mm pipe with 3 mm wall, creates a through hole, and applies titanium nitride coating.

Create a symmetric front-view slot in Fusion 360 using construction lines, offset, and smart dimensions, then extrude and mirror features into a complete brass model.

Model and assemble a complete Fusion 360 project, including base plate, angle plate, bushings, washers, shoulder screw, and nut. Use mirroring, revolute joints, and rigid joints to finalize the assembly.

Design a four-part vice in Autodesk Fusion 360, modeling base, vice, scrollbar, and screw; use extrude, revolve, cut, and mirror, then assemble with slider and rigid joints.