Autodesk CAD/CAM for Manufacturing Specialization

Start Date: 02/23/2020

Course Type: Specialization Course

Course Link: https://www.coursera.org/specializations/autodesk-cad-cam-manufacturing

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About Course

Manufacturers are under more pressure than ever to deliver better products faster, at lower cost, and with less waste. The “throw-it-over-the-wall” approach to product development worked well enough in the past. But to compete in the future, you’ll need to connect and automate design and manufacturing processes. Bringing the studio and shop floor together can reduce iterations and errors, enabling you to deliver better products faster. Computers can handle complex tasks to achieve things that are time consuming or in some cases impossible for the human mind. This is the case when we use digital data to create complex tool motions. As we learn how to use technology in this way, we unlock the potential of computer aided manufacturing (CAM). Through this specialization, you'll learn the foundations of CAD and toolpath generation, while developing your technical skills in Autodesk® Fusion 360™. Plus, by completing this Specialization, you’ll unlock an Autodesk Credential as further recognition of your success! The Autodesk Credential comes with a digital badge and certificate, which you can add to your resume and share on social media platforms like LinkedIn, Facebook, and Twitter. Sharing your Autodesk Credential can signal to hiring managers that you’ve got the right skills for the job and you’re up on the latest industry trends like CAD and CAM.

Course Syllabus

Introduction to CAD, CAM, and Practical CNC Machining
3-Axis Machining with Autodesk Fusion 360
Creating Toolpaths for a CNC Lathe
Multi-Axis CNC Toolpaths

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Course Introduction

Ready for the convergence of design and make?. Advance your career by learning computer aided design, manufacturing, and toolpath creation. These skills are the future of design and manufacturing. Autodesk CAD/CAM for Manufacturing Specialization In this specialization, we’ll explore advanced topics in Autodesk® CAD/CAM software, including software-level CAD/CAM tools, a deeper dive into Autodesk® Scaleform™ CAD/CAM software, and an in-depth look at Autodesk™ Fusion 360 CAD/CAM software. We’ll focus on software-level CAD/CAM tools, including CAD-level tools for 3D modeling, and we’ll talk about CAD-level CAD software. We’ll wrap up by taking a deep dive into Autodesk® Fusion 360 CAD/CAM software, and a wrap up to a hands-on project using Fusion 360 SketchUp™ 3D modeling software. Through this course, you’ll understand Autodesk® computer aided manufacturing (CAM) software, and be able to use CAD software to create 3D CAD/CAM models and other objects for various applications, either for personal or professional use. This is the third and last course in the Autodesk® CAD/CAM Specialization.Docking Cartridges and Docking Stacks CAD-Level Tools: End-to-End CAD Tools: Read-Through Autodesk® Fusion 360 CAD/CAM Software: Fusion 360 CAD/CAM Basic Japanese Grammar To help you learn Japanese grammar

Course Tag

Related Wiki Topic

Article Example
CAD/CAM in the footwear industry 3D CAD/CAM is the core technology for shoe sole mould in the footwear industry and develops towards specialization.
CAD/CAM in the footwear industry Benefits of CAD/CAM in the mould manufacturing are:
CAD/CAM in the footwear industry CAD/CAM in the footwear industry is the use of computers and graphics software for designing and grading of shoe upper patterns and, for manufacturing of cutting dies, shoe lasts and sole moulds. CAD/CAM software is a PC-based system, which is made up of program modules. Today, there are 2D and 3D versions of CAD/CAM systems in the shoe industry.
CAD/CAM dentistry CAD/CAM dentistry is a field of dentistry and prosthodontics using CAD/CAM (computer-aided design and computer-aided manufacturing) to improve the design and creation of dental restorations, especially dental prostheses, including crowns, crown lays, veneers, inlays and onlays, fixed bridges, dental implant restorations, dentures (removable or fixed), and orthodontic appliances. CAD/CAM complements earlier technologies used for these purposes by any combination of increasing the speed of design and creation; increasing the convenience or simplicity of the design, creation, and insertion processes; and making possible restorations and appliances that otherwise would have been infeasible. Other goals include reducing unit cost and making affordable restorations and appliances that otherwise would have been prohibitively expensive. However, to date, chairside CAD/CAM often involves extra time on the part of the dentist, and the fee is often at least two times higher than for conventional restorative treatments using lab services. CAD/CAM is one of the highly competent dental lab technologies.
CAD/CAM dentistry The article "CEREC CAD/CAM in Dentistry" original dissertation Data capture stabilising device for the CEREC CAD/CAM chairside camera fully explains all pros and cons of the system and is detailed in (materials, fit, software, hardware, etc.).
CAD/CAM dentistry As in other fields, additive manufacturing (3D printing) first entered CAD/CAM dentistry in the form of laboratory experiments, but its use has since expanded; and chairside use, although not yet widespread, is advancing.
CAD/CAM dentistry Like other CAD/CAM fields, CAD/CAM dentistry uses subtractive processes (such as CNC milling) and additive processes (such as 3D printing) to produce physical instances from 3D models.
CAD data exchange In a true PLM environment, CAD to CAM data exchange must provide for more than the transfer of geometry. Product Manufacturing Information, whether generated by the designer for use by manufacturing, or generated by the manufacturing organization for use by design, must be a part of the data exchange system. STEP-NC was designed to carry GD&T and other PMI through CAD and CAM into a CNC.
Comparison of CAD, CAM and CAE file viewers This is an overview of notable viewers for files, that are produced by Computer aided design (CAD), Computer-aided manufacturing (CAM) and Computer-aided engineering (CAE) applications.
CAD/CAM dentistry Although CAD/CAM dentistry was used in the mid-1980s, early efforts were considered a cumbersome novelty, requiring an inordinate amount of time to produce a viable product. This inefficiency prevented its use within dental offices and limited it to labside use (that is, use within dental laboratories). As adjunctive techniques, software, and materials improved, the chairside use of CAD/CAM (use within dental offices/surgeries) increased. For example, the commercialization of Cerec by Siemens made CAD/CAM available to dentists who formerly would not have had avenues for using it.
Autodesk Autodesk's manufacturing industry group is headquartered in Lake Oswego, Oregon. The company's manufacturing software is used in various manufacturing segments, including industrial machinery, electro-mechanical, tool and die, industrial equipment, automotive components, and consumer products. Products include Fusion 360, the Autodesk Product Design Suite, Autodesk Factory Design Suite, Autodesk Inventor Suite, Autodesk Inventor Professional Suite, AutoCAD Mechanical, Autodesk Vault, Alias Products, Simulation Mechanical, CFD, and Moldflow.
CAD/CAM in the footwear industry Commercial suppliers of CAD CAM for the footwear industry are listed on Shoeinfonet.com:
CAD Overlay In 1995, Softdesk Inc. acquired Image Systems Technology and in 1996 Autodesk acquired Softdesk. CAD Overlay was subsequently rebranded as Autodesk CADOverlay.
CAD, GIS, & GPS Magazine CAD, GIS & GPS Magazine is a portal in Arabic, concerned with engineering software related to computer aided design (CAD) software, like AutoCAD, MicroStation, and Archicad. The portal also focuses on geographical information system (GIS) software such as ArcView, ArcGIS, Autodesk Map, MapInfo, and GeoMedia, in addition to global positioning system (GPS) technology, remote sensing (RS) software like ERDAS Imagine, and computer-aided manufacturing (CAM) software, such as Inventor and Mechanical Desktop.
CAD/CAM dentistry Chairside CAD/CAM restoration differs from conventional dentistry in that the prosthesis is typically luted or bonded the same day. Conventional prosthesis, such as crowns, have temporaries placed from one to several weeks while a dental laboratory or in house dental lab produces the restoration. The patient returns later to have the temporaries removed and the laboratory-made crown cemented or bonded in place. An in-house CAD/CAM system enables the dentist to create a finished inlay in as little as an hour in some cases. Bonded veneer CAD/CAM restorations are more conservative in their preparation of the tooth. As bonding is more effective on tooth enamel than the underlying dentin, care is taken not to remove the enamel layer. Though one-day service is a benefit that is typically claimed by dentists offering chairside CAD/CAM services, the dentist's time is commonly doubled and the fee is therefore doubled.
CAD/CAM in the footwear industry Latest improvements in the CAD/CAM technology are:
Autodesk Vault After the asset acquisition of truEInnovations by Autodesk in 2003, Autodesk began to further the integration of the product into the manufacturing product line, starting with Autodesk Inventor.
Autodesk Vault "Note: For the 2011 Release, Autodesk Vault Manufacturing was Renamed to Autodesk Vault Professional. This was also formerly known as Autodesk Productstream in prior releases. The family was subsequently simplified for the 2014 Release with the retirement of Autodesk Vault Collaboration"
CAD/CAM in the footwear industry No specialised open sources suppliers are listed, although Wikipedia lists several free general purpose products for 2D CAD/CAM and some for 3D.
Autodesk In the 1990s, with the purchase of Softdesk in 1997, Autodesk started to develop specialty versions of AutoCAD, targeted to broad industry segments, including architecture, civil engineering, and manufacturing. Since the late 1990s, the company has added a number of significant non-AutoCAD-based products, including Revit, a parametric building modeling application (acquired in 2002, from Massachusetts-based Revit Technologies for $133 million), and Inventor, an internally developed parametric mechanical design CAD application.