News

News

The Future Of 3-D Printing

Data: 2018-11-14
Views: 371

The Future Of 3-D Printing

3-D printing is an unstoppable force. Not too long ago, the printing speed and limited output of 3-D printers made them suitable only for rapid prototyping. But in the coming years, 3-D printers will be at the heart of full-scale production capabilities in several industries, from aerospace to automotive to health care to fashion. Manufacturing as we know it will never be the same.

The stage for this change wasn’t set overnight. Decades of innovation have led us to the precipice of the 3-D printing industrial revolution. But recent advancements in speed, printing technology and material capabilities are now aligned, and together they will push the entire industry forward.

Along with growing competition and investment in the 3-D printing industry, these new capabilities will reshape custom manufacturing. The 3-D printing industry is on the verge of another tipping point, and here are the reasons why.

Innovations In Direct-Metal Printing

Direct-metal printing is getting faster and more capable, and many new technologies are now coming into play. The number of metal alloys that can be 3-D printed is on the rise, and they have exceptional performance characteristics. You can get high-performance lightweighting and complexity that is impossible with traditional design and manufacturing processes. With these changes, imagine the possibilities: Complex and highly detailed products critical for the aerospace, automative and mechatronic industries will soon be available for production at a fraction of the cost. If your car needs a repair, you’ll soon be able to purchase a shift knob or fuel-door hinge pin that was quickly and inexpensively printed. Aerospace engineers will use the same technology to produce jigs and fixtures for spacecrafts. The implications are staggering. What’s more, there are fully automated, multistation direct-metal printers that are essentially an entire factory in a box. With automated parts changes and material replenishment, they can literally operate around the clock.

GE is a major player in the direct-metal printing field, and the company predicts that its metal business alone will surpass $1 billion in annual revenue in the next couple years. And early-stage companies such as Desktop Metal and Markforged have received several hundred million dollars in funding to deliver entry-level direct-metal systems that print from a metal-plastic filament. 

So on one hand, entry-level grassroots companies will disrupt conventional CNC machining and local machine-shop businesses. And on the other, you see high-complexity precision aeroframe manufacturing solutions from GE and many other 3-D companies.

Innovations In Printing Speed

For decades, 3-D printing has been capable in terms of geometric precision and accuracy, but printing speeds remained very slow. But this too is changing.

The CLIP technology from Carbon 3D and similar technologies from companies like one of mine, Nexa 3D, are capable of continuously printing photo-curable polymers at very high speeds -- 40 or 50 times the speed of a conventional stereolithography 3-D printing system.

With the ability to print a centimeter every minute, these systems will no doubt play a major role in the design-to-manufacturing cycle. While a similar job used to take days, now you can get parts in your hand in five, 10 or 15 minutes.

It will also unleash work with completely new chemistries, particularly within several variants of urethane. You can make the output rigid, semi-rigid or flexible, and these kinds of variations in chemistry open up a lot of end-use applications, from athletic shoes to vehicle interiors to apparel.

Innovations In Selective Laser Sintering

Selective laser sintering (SLS) is the ability to produce parts from a variety of nylon materials. It’s been practiced in a few industries for decades now.

Take the F-18 fighter jet: Every F-18 in service today has been flying with SLS parts for air ducts, electronics covers and many other components for a couple of decades. So that’s not headline news.

But as of late, companies such as HP have entered the market with technology that speeds up production of selective laser-sintered parts. Again, we’re talking dozens of times faster than traditional SLS machines. It will help bring selective laser sintering into the mainstream instead of just confining it to hyper-specific applications like the F-18.

With the advent of these faster machines, companies can increase manufacturing speed and manufacturing scale with significantly more affordability. It’s no longer reserved for exotic military, defense and aerospace applications. It’s ready to go mainstream.

How These Innovations Will Shape The Future 

When you combine all these advancements with infinite computing power in the cloud, IoT connectivity, big data and next-generation robotics, you arrive at the realization of Industry 4.0: a truly cognitive, adaptive and largely self-optimizing factory. And this huge development will largely be catalyzed and fueled by additive manufacturing.

In some industries, 3-D printing has been considered or utilized for several decades. However, the use cases have primarily been in design and prototyping. Industries that have a great deal of familiarity with this technology such as aerospace and automotive are beginning to unlock these capabilities so that others can create working tools, fixtures, jigs and end-use parts. They are just beginning to scratch the surface of 3-D printing for outright manufacturing. 

Many companies will also invest in continuous photopolymer systems. Gartner expects the growth in photopolymer 3-D printers over the next couple years to be in the neighborhood of 75%. In sectors such as health care and personalized medical devices, more and more 3-D printers are being used to create hearing aids, dental fixtures, hip replacements, medical implants and surgical tools. High-speed photopolymer systems are ideal for dental applications, while direct-metal and SLS solutions are a better fit for certain implants.

Perhaps most importantly, another trend that is taking shape is that 3-D printers are now becoming mainstream presences in schools and public libraries. Children aren’t just learning how to use 3-D printing hardware and design software; they’re expecting to be able to use it.

An industry once considered a gimmick is proving itself to be a formidable giant. Make no mistake: 3-D printing will be a force that upends nearly every industry over the coming decade, and its influence is exciting and unstoppable.

via: https://www.forbes.com/sites/forbestechcouncil/2018/01/23/the-future-of-3-d-printing/#1edae02765f6

News / Recommended news More
2019 - 11 - 11
India's October finished steel exports surged by 60pc to 950,000t from a year ago, according to initial estimates by the Indian steel ministry.Year-to-date exports have risen by 27.7pc to 4.88mn t for April-October from the same period in 2018. India's fiscal year runs from 1 April.A surge in hot-rolled coil (HRC) exports is driving much of the growth.Indian mills are competing aggressively with A...
2019 - 11 - 07
Scientists from the National University of Science and Technology MISiS have created new aluminium alloys that are cheap and effective to use in a wide variety of modern vehicles.Aluminium and its alloys rank second after iron alloys in terms of scalability. Aluminium is easily processed by forging, stamping and rolling; it is also characterised by low density, and aluminium products are lightweig...
2019 - 10 - 30
A team of the TSU Laboratory of High-Strength Crystal Physics is creating highly entropic alloys that differ in the unusual structure of the crystal lattice. They provide new materials with mechanical characteristics that make them suitable for use in the extreme conditions of space and the Arctic – at high and low temperatures, under load, and when exposed to radiation.The object of the physicist...
2019 - 10 - 25
To reduce the manufacturing costs of making tungsten carbide tools, a team of researchers at the U.S. Army Research Laboratory has figured out how to 3D print it into the exact size and shape they want, with little to no post-machining required, according to a U.S. patent application first made public on Thursday.Tungsten carbide is hard, so hard that it’s expensive to make it into useful tools an...
Share:
Uniris Exhibition Shanghai Co., Ltd.
Shanghai Branch
Tel:4000 778 909
E-mail:irisexpo@163.com
  
Guangzhou Branch
Tel:020-8327 6389
E-mail:pmchina@unifair.com

CCEC CHINA official website
犀牛云提供企业云服务
Scan the QR code to visit the official website by phone