infoTECH Feature

March 08, 2016

3D Printing: Rocking Manufacturing

By Special Guest
John Hornick, Partner with Finnegan IP Law Firm

One Machine Does It All

3D printers are the most powerful machines ever invented because they can make finished products, with all their parts, fully assembled. Driven by a digital blueprint, they build layer upon layer of fused plastic, metal, or other materials.

Most products we use every day are made of many parts. They result from many manufacturing steps performed by different machines, each with its own operator. Each machine and operator does a certain job, such as cutting, drilling, or milling, then passes the part to another machine and operator that perform another job, and on and on along an assembly line until the part is complete. Eventually, all of the parts are assembled into a final product, either by machine or by hand.

3D printing replaces all of these steps with fundamentally different machines and materials that substantially simplify the manufacturing process.

3D Printing Beats Traditional Manufacturing

Traditional manufacturing depends on mass production and its economies of scale, and low labor costs, which are barriers to entry for would-be competitors. 3D printing eliminates those barriers because a single machine can make an entire part or product, fully assembled, and one worker may run an entire roomful of 3D printers.

As the technology advances, anyone will be able to make anything, thereby democratizing manufacturing. Also, it is no more expensive, per part, to 3D print one part versus a million parts, to customize every part instead of making them all the same, and to make highly complex parts. Because 3D printing may eliminate the need for centralized mass production where labor costs are low, tens of thousands of 3D printing fabricators will pop up all over the world, making customized parts and products regionally.

Revolutionizing Product Design

Before 3D printing, products were designed so that they could be made with traditional manufacturing methods, known as “design for manufacturing.” 3D printing eliminates such limitations and enables manufacturing for design.

This allows designers to create products that never existed before, and to give existing products a radically different look and feel.

Customers Become Manufacturers

But 3D printers can be used not just by traditional manufacturers, but also by their customers. 

Consider a company that needs turbine blades used in power generation. The blades need to be replaced from time to time, at great expense. By using 3D printing to repair the blades, the customer no longer needs to buy new ones. This is great for the customer but terrible for the blade manufacturer and the lines have blurred between manufacturer and customer because the customer has become the manufacturer.

Companies Must Adapt or Die

Suppose a customer, or the military starts 3D printing its own spare parts rather than buying them from the OEM. Some OEMs will adapt. Maybe they will start selling 3D printable digital blueprints rather than making parts. They may become digital design companies and close their factories.

Other OEMs will not adapt, as Kodak (News - Alert) failed to adapt to the digital imaging revolution. Some companies may be unable to adapt, as many horse-related businesses were unable to do when the automobile came along.

In my book I use a fictional company, ZeframWD, a manufacturer of warp drives in the next century, to show how 3D printing may force traditional manufacturing companies to adapt their business models.

The Disruption Checklist

Certain elements need to fall into place for a 3D printing revolution. On the industrial side, two things are needed to trigger the disruption of any existing product-based market:

  • The ability to build large things, and hence the need for 3D printers with large build platforms

  • The ability to make either single items quickly or many items simultaneously—that is, speed or scale of production

On both the home and industrial sides, there are some additional requirements for market disruption:

  • Advanced materials (including materials that may not yet exist) that enable the efficient printing of complex structures

  • The ability to print complex, integrated structures, such as smartphones and blenders

  • The ability to print very small things, such as the integrated circuitry of computer chips

  • Hybrid machines that can perform the processes that today’s 3D printers cannot

  • Innovators, especially the innovators of the future—namely, young people who grow up with 3D printing

Everything Will Happen

3D printing has generated a lot of hype.  Some people say it is difficult to separate the hype from reality, but doing so is actually quite simple. Anything that sounds farfetched probably isn’t, but it will probably take longer to happen.

A world full of 3D printers that can make almost will probably be an almost inconceivably complex place, where products and blueprints are designed, customized, made, and sold by an uncountable number of companies and home printers offering a dizzying array of products.

John Hornick is a partner with the Finnegan IP law firm, based in Washington, DC (www.finnegan.com; [email protected]) and the author of the new book, 3D Printing Will Rock the World.  Any opinions in this article are not those of the firm and are not legal advice.




Edited by Maurice Nagle
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