3D printed hip and knee implants market to witness widespread expansion during 2026

3D printing i.e. additive manufacturing involves a layer by layer process to create physical objects out of digital 3D blueprints. It was mainly used for rapid prototyping in the late 1980’s. However, it has now become a next-generation technology which can produce localised, on-demand final products or even spare parts. 3D printing is possible with a range of thermoplastics,  metal alloys, ceramics & various foodstuffs. It has seen an application in diverse areas like aerospace, retail, supply chain optimisation, & the medical industry. The 3D printed Hip & Knee Implants Market could dramatically improve both the effectiveness of surgery along with reducing the time taken to recover. It was pioneered by Dr Susannah Clarke and has already been used in hundreds of hip & knee surgeries across the world. It uses CAT scans to create a 3D blueprint of the damaged hip or knee joint to be replaced. Surgeons can then use this to practice the operation on a computer, deciding beforehand where to make incisions or how to realign the bone. The 3D printed hip & knee implant market will help to make replacement surgery much safer & quicker in the long run.

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3-D printing moves out of the hype cycle

So, how can something almost 30 years old actually be a NextGen technology? Is that actually possible? Yes, especially if you’re talking about 3-D printing, also known as additive manufacturing.

Well known in automotive and aerospace circles, 3-D printing has long been standard fare there for prototypes and continues to slowly come into its own for certain, limited production parts. But it has never realized what anyone would call critical mass. However, that is changing as 3-D printing makes headway in industrial and consumer goods as well as health care. That means it’s still early for 3-D printing, making it a true NextGen technology.

“We are moving beyond science experiments and out of the hype cycle,” explains Scott Schiller, global head of customer and market development for 3D printing at HP. “In fact, there was a rapid pivot in 3D last year as we saw a fundamental shift in how people look at the technology for practical applications. And that shift is having an enormous and real-time impact on its adoption.”

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Maine Pointe: How 3D printing will impact the global supply chain

3D printing is touted as one of the most disruptive developments in manufacturing and beyond. UK-based Simon Knowles, Chief Marketing Officer at Maine Pointe, reflects on the impact the innovative technology can have on supply chain management. He outlines potential benefits of the technology and five ways it will impact the supply chain. 

How 3D printing will impact the global supply chain

Also known as additive manufacturing, 3D printing is a process which uses a three-dimensional digital model to create a physical object by adding many thin layers of material in succession, subsequently lowering cost by cutting out waste. This is radically different from current, subtractive production methods where up to 90% of the original block of material can be wasted. Although we tend to think of it as a new technology, the first 3D printer was introduced nearly 30 years ago.

So far, issues such as durability, speed and protection of intellectual property rights have prevented 3D printing from entering mainstream manufacturing. However, the industry is making rapid advancements and it’s only a matter of time before we see it significantly impacting global supply chains and operations. According to the Global Supply Chain Institute (GSCI), “some supply chain professionals predict 3D printing will eventually rival the impact of Henry Ford’s assembly line.” This technology has the power to help companies significantly reduce costs, overcome geopolitical risks / tariffs, improve customer service, reduce their carbon footprint and drive innovation for competitive advantage.

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How is technology involved in jewellery making?

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3D printing has opened a range of opportunities for a lot of sectors, improving the efficiency of the manufacturing and production process. 

Talking about her business, Shoes by Shaherazad, which specialises in jewellery for shoes, Shaherazad Umbreen says: “I’ve experimented with 3D printing a lot, as it allows low-cost testing of product designs. In the past, going directly to metal-bashing techniques meant that if a design didn’t look right, then precious time (and costly metals) were lost. 

“Now, I design in CAD, print in 3D, and only then when the design is just right do I then use the 3D mould to create a piece of jewellery. Many of my designs are in 22 carat gold, so this new process has saved me thousands of pounds and hours of time.” 

In the jewellery industry, 3D printing works by using CAD to create 3D printed wax or resin models of jewellery. These are then used to cast delicate pieces with the fine metals — 3D printing with precious metals to begin with would be overly costly. These moulds mean that separate sections of metal don’t need to be soldered together, creating a more solid and complex piece of jewellery. 

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Cummins sells first metal part from its own 3D printer, eyes high-volume production

Cummins has sold its first metal part printed on one of its own 3D printers, moving the company a significant step closer to the exciting potential of additive manufacturing.

The part was a low-volume bracket for a customer in Cummins’ New and ReCon Parts division and did not have a current supplier. The company is focusing first on printing low-volume parts as it studies how best to use 3D technology in higher volume manufacturing.

“With this technology you can really unshackle the designer to do things you just can’t do using traditional forms of manufacturing,” said Brett Boas, Director-Advanced Manufacturing at the Cummins Technical Center in Columbus, Indiana (U.S.). 

Cummins employee Devin Hunter cleans a 3D printer at the Cummins Technical Center in Columbus, Indiana, before another round of printing.

Parts can be made lighter, stronger and more effective using metal 3D printing compared to parts created using more traditional methods that employ molds, molten metal and equipment to precisely cut and shape the part.

3D printing creates three-dimensional objects one ultra-thin layer at a time. If the part doesn’t come out quite right, the designer can simply change the computer design file and print it again; a much faster process than using traditional manufacturing techniques to build a test part.

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CNH Industrial 3D prints its first spare part

The company produced four spare parts for fitment on buses and agriculture equipment.

Getty Images922778062Grain Combine

According to Automotive Logistics, the company produced four spare parts for fitment on buses and agriculture equipment. Each product can be printed within 24-36 hours with the optimal amount of resources.At the time of this publication, CNH did not disclose which parts were made.

Since the spare parts were printed in plastic, CNH is now conducting tests to enable future production of metal components using the technology. 3D printing offers the benefit of local, on-demand manufacturing and removed the need for small-scale deliveries, maximizing efficiency in the aftermarket supply chain, Automotive Logistics reports.

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Despite growth, 3D printing represents only 0.1% of global manufacturing

Interest in 3D printing technology is increasing across a variety of industries, as well as among hobbyists using it for their own projects—but this interest has not yet translated into mass adoption, according to the Q1 2019 3D Printing Trends report, published by 3D Hubs on Wednesday.

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The year 2018 saw a great deal of investment in 3D printing, according to the report, with companies interested in the technology investing in startups, while established firms like BASF acquired startups to bolster their own portfolio.

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3D printing and the power industry: How technology is transforming the sector

Investors, both public and private, will be able to buy tokens through an initial coin offering (ICO) that represent 1W of the solar power project.

3D printing or “additive manufacturing” is the process of joining materials to make objects from three-dimensional model data, usually layer upon layer.

In 2017 the 3D printing industry was worth $7bn, up from $3bn in 2013 and by 2025 it is expected to account for over $20bn all over the world.

Additive manufacturing (AM) has found its application in different sectors of the power industry, both in building prototypes and in mainstream production leading to process simplification and operational efficiency.

AM can produce components with complex geometries, consume fewer raw-materials, produce less waste, have reduced energy consumption and decreased time-to-market.

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3D printing and product liability: Interview with James Beck of Reed Smith

James Beck is the senior life sciences policy analyst at Reed Smith. James is specialized in product liability, personal injury, especially in very large and very complex cases. Active in law for over thirty years he has been involved in cases U.S. District Court for the Eastern District of Pennsylvania, the U.S. Court of Appeals, Third Circuit and the Supreme Court. He is involved in mass torts, many amicus curiae briefs he is an award-winning expert in his chosen fields who writes often about the law. Over the past few years, James has taken an active interest in 3D Printing, especially with regards to product liability. He is part of Reed Smith’s 3D Printing team who take an active interest in all things printed. Reed Smith itself is a 1500 lawyer law firm with 28 offices around the world and over a billion dollars in revenue. It is both nice and significant when people like that take an active interest in our industry and technology. We interviewed James to find out more about 3D printing and the law, specifically product liability.

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Busses and tractors to receive 3D-printed spare parts

(Image courtesy of New Holland.)

One application primed for disruption by 3D printing technology is the production of spare parts. After all, why house a warehouse full of odd components for just the right moment when you or a customer will need one?

This is especially true for large, unique systems and equipment, where mass production of individual specialty pieces is that much rarer. London and Amsterdam-based CNH Industrial has picked up on this insight and has begun fabricating spare parts for its industrial equipment.

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