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Welcome to CAD Jewellery Skills, a blog I started for the purposes of answering the most common questions people ask about CAD/CAM, rapid prototyping, and 3D printing, specifically as they apply to jewellery design and manufacturing. The goal of this site has always been to provide an easy to follow introduction to jewellery CAD for new users, while demystifying the most complex concepts and technologies so newcomers can know where to begin getting involved. An Introduction to Jewellery CAD (or “Where Do I Begin?”) As you might expect, there’s quite a lot to this subject (it seems to me the amount of knowledge required for professional jewellery design is often underestimated).
What I have attempted to do in this blog is to provide some starting points for answering many people’s first or most frequent questions, while at the same time providing launching points for some of the most interesting research directions or tangents relating to jewellery and body adornment and their connections to additive manufacturing. In other words, there should be something here for just about everyone keen on this subject. To save you time in getting started, I’ve assembled below a set of links to help answer the most common questions I have been asked. Some are links to my FAQ pages, others are links to other sites where they’ve gone to such effort to answer the question I felt adding my own answer would be redundant.
Packmage CAD software is a free packaging design software for corrugated cardboard and folding carton packaging, it has dieline and box structure predefined in the library, with Parametric design and 3D box modeling features, designers can work more efficiently. 3Design CAD (that’s pronounced Three Design) is the only jewellery CAD program that runs on Mac and Linux as well as PC. It offers a very different approach to modelling, involving deforming shapes and combining them with a host of jewellery-specific commands such as pave and shank builders.
Sections:. Okay, What is Jewellery CAD? And How is it Different from Other Types of CAD? It doesn’t take very many Google searches to quickly learn that there are a huge number of CAD programs out there to choose from. Some are general programs, some cover particular specialties.
The biggest difference between general purpose software and industry specific software is they’ve tried to include commands and tools to make certain tasks people are called upon to do every day much quicker and easier. In the case of jewellery, we’re talking about ring sizing, determining the weight of an object in metal, and perhaps tools to help with stone setting. Other industry specific programs would include tools to help with those industries, such as foot model templates and special scaling tools for footwear design, or dioptre measurements for eyewear design, and so on. For a more thorough breakdown of the different types of CAD software used in different industries, read my other FAQ page on how product design CAD fits in with 3D software in general.
What CAD programs are available for working in jewellery?, as well as some discussion of their key differences. Why is it Important To Know Manufacturing Before Learning CAD? To answer this question, think if you were going in to a shoe maker and asking for a bespoke shoe to be made. You would expect them to know how shoes were made before they start designing, wouldn’t you? Well, jewellery is no different, even though the amount of knowledge required to make professional looking jewellery is frequently underestimated.
Indeed, it may come as a surprise to you, but jewellers are frequently called upon to know more than any other field of product design before they even sit down at a bench or in front of a drawing pad. Now, when working with a computer, we have a much easier time setting objects to be exactly the size we want them to be. But we still need to know how big (or small) we can get away with making objects. These limits of size are commonly referred to as Tolerances, and without a proper understanding of these tolerances, we’ll never be able to design anything usable for manufacturing. How do you learn about tolerances? While you can learn to gauge the size in CAD based on minimum numbers you’ve memorised, nothing beats experience gained from sitting at a bench and working with metal in your hands. This is one of the reasons why I never let anyone into my jewellery CAD classes unless they’ve had some bench experience first.
How Does Lost Wax Casting Work with Jewellery Making? Has been a mainstay of the jeweller’s trade for centuries. Below is a summary of the lost wax casting process itself as it typically applies to jewellery (this is the casting process more or less as it appeared in Adolfo Mattiello’s wonderful old book “Techniques of Jewellery Illustration and Colour Rendering”. I heartily recommend the book if you can find it.): The Jewellery Lost Wax Casting Process. A master model is made either by carving wax or in a hard alloy such as nickel silver (a copper-nickel-zinc alloy) or often in silver. If made in a hard alloy or silver, a rubber mould is made by surrounding the master model with sheet rubber in a mould frame. Placing it in a heated press and vulcanizing it.
On cooling, it is cut with a scalpel into halves, thus releasing the master model. The rubber mould is used to make many copies of the master model in wax, by use of a wax injector which injects molten wax, often under a vacuum to remove air from the mould, into the mould cavity. On cooling, the wax is removed to give an exact copy of the original master model in wax. The waxes are assembled into a ‘tree’ around a central feeder or sprue. This tree is cleaned of dust, and placed in a metal cylinder, known as a ‘flask’. Special investment powder is mixed with water to a slurry and poured around the wax tree. It is placed under a low vacuum to remove air bubbles and allowed to set and harden to form the refractory mould.
The flask is then inverted and the wax removed by melting in steam or in air in a furnace (the burn-out oven). The investment mould is then carefully heated in the burn-out oven in set stages to the maximum burn-out temperature of 750°C for several hours and then cooled down to the temperature required for casting (typically in range 450 – 650°C). The hot flask is placed in a casting machine. The gold metal or alloy is melted in a crucible and then cast into the investment mould. This can be done by centrifugal force or under a vacuum.
It is allowed to cool and solidify and is then quenched into water which helps to break off the investment mould material to leave the cast gold ‘tree’. The castings are cut off from the tree, cleaned, assembled into the jewellery pieces and polished. To help with visualising the process outlined above, this video may be helpful: How Do Rapid Prototyping and 3D Printing Fit In With Jewellery Casting? But first, we should clarify the difference between 3D printing and rapid prototyping. Rapid Prototyping is a form of Computer-Aided Manufacturing (CAM) in which we take a file made using some sort of 3D CAD design program and turn it into a precisely accurate-to-scale physical object. The whole point of this technology is the principle of What You See is What You Get (WYSIWYG).
It gets its name from the fact many product designers use this technology to test out their designs before spending the money on mass production. 3D printing is a form of rapid prototyping based around one of a series of technologies. It is not the only type used to produce We can use this technology to produce items in many different materials, such as wood, metal, plaster, nylon, rubber, wax, and even metal (precious or non-precious). For the purposes of working with lost wax casting, we normally use a 3D printer to create wax or special clean-burning resin which can hold very find details and also can be burnt away without leaving any residue.
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(essential for lost wax casting). The 3D printed model is either used for casting (if the model is wax or resin), or to create a rubber mould from which we can make wax copies for casting (if the model is made of a non-castable material).
On their website showing the process of how one of their 3D models passed through the jewellery manufacturing process from start to finish. In addition, the has written a good introductory article on 3D printing and jewellery. What are the different types of rapid prototyping?
In short, rapid prototyping can be broken down into two main types: additive and subtractive prototyping. Additive prototyping involves starting with nothing and building up layer by layer what you’d like to make out of a chosen material.
This is based on any one of several different technologies. One of these technologies is 3D printing. Nowadays, 3D printing is a term often used for the whole category.
My friends over at. Since it started properly appearing in industry in the late 1990’s, it has become increasingly popular for product design because we can create just about anything with it, and produce it in any one of a number of materials without having to go to all the effort of setting up a factory. Subtractive prototyping involves starting with a solid block of material and cutting or carving away what you don’t want. CNC milling and laser cutting both fall into this category. Even though this technology is much older than additive prototyping (it dates back to 1960), we still use it quite often because it’s fast, cheap, and produces some amazing surface finishes.
What Other Questions Have You Answered? My list of regularly updated Frequently Asked Questions articles in one handy place:. Where Do I Start Learning Jewellery CAD? Depending on where you are, I can recommend two options:.
You can work through online or video tutorials. I’ve assembled a which I have confirmed to be helpful. You can take a course, with me or someone else.
Through the, we currently offer several different dedicated CAD Jewellery courses. Each type of course is of a different length and has a different focus.
Find out more in their. If coming to me is too difficult for you, then there may be options where you can take a course closer to your own city or country. If you’d like to ask a question about training, simply drop me a message and I’ll try my best to answer. 14 January, 2015 at 6:05 pm Dear Melissa: If you’ve spent a lot of time on Photoshop and Illustrator, you will certainly find the basics interface of most CAD software no problem at all. However, the concept of working in 3 dimensions will be another matter entirely. What’s your experience like working at the bench, or with sculpting or model-making?
Zbrush is an excellent program (especially for freeform sculpting and texturing), but I’m loathe to recommend it to people as their first 3D CAD package to start out with (as the learning curve can be particularly harsh). Specifically for working on 3D jewellery CAD, the natural choice for Macs would be 3Design, which I believe was designed for Macs in the first place, and is a great parametric fine jewellery program. Having said that, if you’re willing to install Windows OS onto your Mac with Bootcamp or a Parallel partition, you can get away with using just about any PC-based CAD software package as well. Given this reasoning, I’d recommend you have a look at the comparative list of CAD software packages I’ve made and think about what kinds of work you’d most like to do in CAD. From there, we can work out where you’d like to be after training and practicing for a while, and also who would be most able to help you in Toronto. Hope that helps, give me a shout if you have any other questions. Regards, Jack.
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14 January, 2015 at 6:27 pm Thanks for the info Jack. I do have lots of bench and sculpting experience so that’s probably not a problem, but I’m thinking however I’ll start with the 3Design as you suggested before I bite off more than I can chew. I’ve used a couple of CAD artists but they can’t seem to really translate the organic flowing feel I’m after, so thought I’d try to go at it myself. I was so blown away by the Zbrush images I saw on your site. Hope I’m not setting my sights too high! Best, Melissa.
16 January, 2015 at 12:11 pm Hi Melissa: I wouldn’t worry about aiming high– If you’re determined to learn, you will learn. My best students have all had in common their levels of dedication and willpower, not necessarily their starting levels of ability.
I’ve found Zbrush makes for a fantastic second program when used with a core modelling tool anyway. Best of luck. I’m certain 3Design has a Canadian sales team, although I haven’t met them yet. I’ll see if I can find out who it is you should be talking to and let you know. Regards, Jack.