
In this video, we will explore the line, rectangle, and circle tools within the Fusion 360 Sketch commands."
In this video, we will explore the arc and polygon tools within the Fusion 360 Sketch commands
In this video, we will explore the ellipse and slot tools within the Fusion 360 Sketch commands.
In this video, we will see spline and conic curve commands from Fusion 360 Sketch commands. The spline command is the spline command.
In this video, we will see the point and text commands included in the Fusion 360 Sketch commands. The Point command allows you to place a point at any location on your drawing plane. Text allows us to add text.
In this video, we will see the trim, extend and break commands in the Fusion 360 Sketch commands. The trim command is used to trim. Extend command is used to extend the profile. The break command helps us to break lines or other profiles.
In this video, we will see the circular pattern and rectangular pattern commands in the Fusion 360 Sketch commands. Circular pattern command provides circular pattern and rectangular pattern command provides rectangular pattern.
In this video, we will examine the fillet and mirror commands in the Fusion 360 Sketch commands. The fillet command is a rounding process by angling your sharp cornered profiles. Mirror command is mirroring command.
In this video, we will explain the projects, offset and sketch scale commands in the Fusion 360 Sketch commands. We can call the project command the projection. The offset command is the offset command. Sketch scale scales the sketch elements you create in line with the values you enter.
In this video, we will see the extrude command in the Fusion 360 Create commands. It allows you to convert the 2D profiles you have drawn into pieces with 3D volume.
In this video, we will see the revolve command in the Fusion 360 Create commands. The Revolve command creates a solid by rotating the 2D profile you have drawn in the direction of the axis you selected.
In this video, we will see the sweep command in the Fusion 360 Create commands. Sweep is the sweep command.
In this video, we will see the loft command in the Fusion 360 Create commands. Loft command is a command that allows you to combine drawing profiles at certain distances from each other without a specific guide rail or rail.
In this video, we will see the rib command in the Fusion 360 Create commands. This command is the command that allows us to create a support piece for corner edges.
In this video, we will see the web command in the Fusion 360 Create commands. The web command allows us to create support elements.
In this video, we will see the hole thread command in the Fusion 360 Create commands. It is the command that allows us to create a hole.
In this video, we will see the box command in the Fusion 360 Create commands. It is the command to create a box.
In this video, we will see the cylinder command in the Fusion 360 Create commands. It allows us to create a cylinder.
In this video, we will see the sphere command, which is included in the Fusion 360 Creat commands. Sphere creation command.
In this video, we will see the torus command in the Fusion 360 Creat commands. It is the command to create a ring.
In this video, we will see the coil command in the Fusion 360 Create commands. It is the command to create spring.
In this video, we will see the pipe command in the Fusion 360 Create commands. You can use it to make pipes.
In this video, we will see the rectangular pattern command in the Fusion 360 Create commands. You can reproduce 3D solids, surfaces, or operations rectangularly with the rectangular pattern.
In this video, we will see the mirror command in the Fusion 360 Create commands. We can define the mirror command as mirroring.
In this video, we will see the thicken command in the Fusion 360 Create commands. It is a command that you can convert non-volume surfaces into 3D solids with volume by giving thickness.
In this video, we will see the boundary fill command, which is included in the Fusion 360 Create commands. With this command, it allows filling a container, modeling the mold, or filling the design you have created with surface modeling and making it solid.
In this video, we will see the press pull command in the Fusion 360 Modify commands. The press pull command allows you to resize surfaces, parts, chamfers, fillets, holes, and other geometry you create.
In this video, we will see the fillet command in the Fusion 360 Modify commands. You can add fillets to the edges of designs you create with the fillet command.
In this video, we will see the chamfer command in the Fusion 360 Modify commands. It is the chamfer command.
In this video, we will see the shell command in the Fusion 360 Modify commands. Shell thickness is the command to export.
In this video, we will see the draft command in the Fusion 360 Modify commands. We can define the draft command as sloping.
In this video, we will see the scale command in the Fusion 360 Modify commands. We can define the scale command as scaling.
In this video, we will see the combine command in the Fusion 360 Modify commands. With the Combine command, you can perform cutting, joining and intersection operations between the parts you have created.
In this video, we will see the offset faces and replace faces command in the Fusion 360 Modify commands. The offset faces command increases the length or diameter of the surfaces of the 3D models you have created before. With the Replace faces command, it stretches the surface of the solid you have created and adapts it to a different surface that you have chosen.
In this video, we will see the split face command in the Fusion 360 Modify commands. We can define it as a surface separation command.
In this video, we will see the split body command in the Fusion 360 Modify commands. It is the command to split a part into more than one part.
In this video, we will see the silhouette split command in the Fusion 360 Modify commands. It allows us to perform the separation operation.
In this video, we will see the move copy command in the Fusion 360 Modify commands. The move copy command is the move and copy command.
In this video, we will see the align command in the Fusion 360 Modify commands. We can define it as an alignment command.
In this video, we will see the appearance command in the Fusion 360 Modify commands. Appearance command is the view command.
In this video, we will see the physical material command included in the Fusion 360 Modify commands. Adding physical material indicates what material it is made of.
In this video, we will see how to convert parts into assembly parts in the Fusion 360 program.
In this video, we will see the joint command in the Fusion 360 assembly commands. After converting the designs on your page into components, ie assembly parts, the parts become ready for assembly.
In this video, we will see the as built joint command in the Fusion 360 assembly commands. The as built joint command is a command that simplifies assembly. This command makes it easy to mate parts with correct positions.
In this video, we will see the joint origin command in the Fusion 360 assembly commands. Joint origin allows you to add origin points according to your needs.
In this video, we will see the rigid group command in the Fusion 360 assembly commands. Rigid group is one of the most convenient ways of fixing parts relative to each other.
In this video, we will see the drive joints command in the Fusion 360 assembly commands. You can change the mounting angle of freedom with the drive joints command.
In this video, we will process the motion link command, which is included in the Fusion 360 assembly commands.
In this video, we will see the contact set command in the Fusion 360 assembly commands. With the contact sets command, you can create a relationship between the parts that touch or overlap each other in line with the mates and make them move synchronously.
In this video, we will see the motion study command, which is included in the Fusion 360 assembly commands. You can add animations to the designs that you mate with the motion study.
In this video, we will see the offset plane, plane at angle, tangent plane commands in the Fusion 360 construct commands. The Construct menu contains plane, axis and point elements that can help you draw your design.
In this video, we will see the midplane, plane through two edges and plane through three points commands in the Fusion 360 construct commands that allow you to add planes.
In this video, we will see the plane tangent to face at point and plane along path commands included in the Fusion 360 construct commands. You can add extra planes to your design using these commands.
In this video, we will see the axis through two points, axis through edge and axis perpendicular to face at point commands included in the Fusion 360 construct commands. Axis through two points adds a new axis between the two points you selected. The axis through edge command adds an axis along the edge you select. With the axis perpendicular to face at point command, it is positioned perpendicular to the surface you selected and passing through the point you selected.
In this video, we will see the point at vertex, point through two edges and point through three planes commands included in the Fusion 360 construct commands. You can add the extra point element you want to add point at vertex by selecting the corner points. A point will be added to the intersection of the two edge lines you selected with the Point through two edges command. With the Point through three planes command, a point is added to the intersection of the 3 planes you selected.
In this video, we will see the point at center of circle/sphere/torus, point at edge and plane, point along path commands included in the Fusion 360 construct commands. You can add a center point to your circular design with the Point at center of circle/sphere/torus command. With the point at edge and plane command, you must first select a surface and then a linear line. Point along path command helps you add points on any path you choose.
In this video, we will learn the zebra analysis, draft analysis and curvature map analysis commands included in the inspect commands in the Fusion 360 model section.
In this video, we will see the measure, interference and curvature comb analysis commands included in the inspect commands in the Fusion 360 model section. We can define the measure command as a tape measure. You can see the intersection elements of the parts you selected with the Interference command. Curvature comb analysis is the analysis where you can see the curves of curved surfaces with this command.
In this video, we will examine the section analysis, center of mass and component color cycling toggle commands included in the inspect commands in the Fusion 360 model section.
In this video, we will see the decal command from the Fusion 360 insert commands. With the decal command, you can add a logo, image or photo to your designs.
In this video, we will see the attached canvas command from the Fusion 360 insert commands. With the attached canvas command, you can add the pictures you reference to the work plane and draw on them.
In this video, we will see how to import parts from part libraries from Fusion 360 insert commands.
In this video, we will see insert mesh, insert svg, insert dxf commands from Fusion 360 insert commands.
In this video, we will see the interface introduction of the Fusion 360 animation module.
In this video, we will see the storyboard and transform commands in the Fusion 360 animation workspace.
In this video, we will learn how to use the timeline in Fusion 360 animation, add notes, adjust the camera angle and save the video to the computer.
In this video, we will see the flange command from the Fusion 360 sheet metal commands. It allows to form sheet metal sheet.
In this video, we will see the bend command in the Fusion 360 sheet metal commands. With this command, you can fold your sheet metal parts along the lines you have drawn.
In this video, we will see the unfold command in the Fusion 360 sheet metal commands. With this command, you can get the opened version of the part by referencing the bending points of the part you have designed before.
In this video, we will see the creat flat pattern command in the Fusion 360 sheet metal module.
In this video, we will see the sheet metal rules command in Fusion 360 sheet metal. With this command, you can change the sheet metal material properties.
In this video, we will see the Fusion 360 drawing commands.
In this video, we will see the modify commands in the Fusion 360 drawing commands. These commands include move, rotate and delete commands.
In this video, we will see the geometry commands in the Fusion 360 drawing commands. These commands include center line, center mark, center mark pattern and edge extension.
In this video, we will see the dimensions commands in the Fusion 360 drawing commands.
In this video, we will continue with the dimensions commands in the Fusion 360 drawing commands.
In this video, we will see the text and symbols commands in the Fusion 360 drawing commands.
In this video, we will see the Fusion 360 animation to drawing, insert and tables commands.
In this video, we will see the commands in the tables section in the Fusion 360 drawing section.
What is Fusion 360?
Fusion 360 is a cloud-powered 3D modeling, CAD, CAM, CAE, and PCB design platform that brings together the entire product development process into a single, integrated environment. Designed for engineers, designers, and manufacturers, Fusion 360 provides the tools needed to conceptualize, design, engineer, simulate, and fabricate products more efficiently than ever.
With Fusion 360, professionals can seamlessly move from initial sketches to fully realized, production-ready designs, reducing the time and cost of development. Whether you're creating complex mechanical assemblies, custom electronics, or advanced generative designs, Fusion 360 enables you to optimize every step of the workflow.
Why Choose Fusion 360?
Comprehensive Design & Engineering – Ensure aesthetics, form, fit, and function throughout the product development cycle.
Integrated Electronics & PCB Design – A full suite of electronics design tools, including schematic capture, PCB layout, and component library management.
Faster Production & Prototyping – Minimize material waste and optimize manufacturing efficiency with powerful CAD/CAM tools.
Cloud Collaboration & Data Management – Keep teams connected in real-time and manage product data across locations with ease.
Simulation & Testing – Validate your designs digitally to reduce the need for costly physical prototypes.
Key Features of Fusion 360
1. Flexible & Powerful 3D CAD
Fusion 360 provides an intuitive, easy-to-use CAD environment that supports multiple modeling approaches, including:
Direct modeling – Instantly edit geometry without constraints.
Surface modeling – Create and modify complex curved surfaces.
Parametric modeling – Build designs driven by intelligent parameters.
Mesh & freeform modeling – Work with organic and complex shapes effortlessly.
2. Integrated CAD & CAM for Advanced Manufacturing
Move seamlessly from design to manufacturing with built-in CAM tools for CNC machining, 3D printing, and more:
High-quality CNC machining – Supports 2-axis, 3-axis, 3+2, 4-axis, and full 5-axis milling.
Additive manufacturing – Includes FFF (Fused Filament Fabrication) and PBF (Powder Bed Fusion) for metal 3D printing.
Toolpath optimization – Improve machine efficiency and reduce production time.
3. Unified Electronics & PCB Design
Fusion 360 eliminates the need for multiple software solutions by offering fully integrated electronics and PCB design tools, including:
Schematic capture & PCB layout – Full-featured design tools for creating PCBs with up to 16 layers.
Push-button SPICE simulation – Easily test circuit functionality with built-in SPICE (Simulation Program with Integrated Circuit Emphasis) tools.
Electronics cooling simulations – Ensure reliable performance by analyzing and managing thermal constraints.
4. Advanced Simulation & Analysis
Test and optimize your designs digitally before committing to physical prototypes:
Structural analysis – Verify component strength and durability.
FEA (Finite Element Analysis) – Optimize geometry with cloud-based AI and machine learning.
Electronics cooling & thermal simulations – Predict thermal behavior and improve heat dissipation strategies.
5. Generative Design for Smarter Engineering
Leverage AI-powered generative design tools to explore multiple solutions that meet engineering constraints:
Topology optimization – Reduce material usage while maintaining structural integrity.
Automated design exploration – Generate multiple viable designs and compare them based on manufacturing feasibility and cost.
6. Seamless Cloud Collaboration & Data Management
Work effortlessly with distributed teams and manage projects efficiently with real-time cloud collaboration:
Version control & data tracking – Keep a complete history of design changes.
Cross-platform accessibility – Work on projects anytime, anywhere, from any device.
Secure team collaboration – Share files, assign tasks, and communicate within a unified workspace.
7. High-Quality Rendering & Documentation
Communicate design intent clearly with photo-realistic rendering and technical documentation tools:
Real-life rendering technology – Produce stunning, high-resolution images for presentations.
Exploded views & animations – Create detailed visualizations of assemblies for better understanding.
Technical drawings & annotations – Generate production-ready blueprints with precise dimensions.
Transform Your Product Development Workflow with Fusion 360
Whether you are designing mechanical parts, electronic devices, or industrial-grade products, Fusion 360 streamlines the entire process from concept to production. By integrating CAD, CAM, CAE, and PCB design into one cloud-based platform, it eliminates software silos, improves efficiency, and helps teams bring innovative products to market faster.
Start exploring the limitless possibilities of Fusion 360 today!