![]() ![]() PyroGenesis Canada, Inc., Montreal, Québec, Canada, has announced that Olivier Dubois has joined the company as Prin. PyroGenesis expands European team with Olivier Dubois.The High Productivity Wire Arc Additive Manufacturing (HPWAAM) Group – a business-led research consortium based in the UK – has announced it ha. UK consortium demonstrates advances in wire-based DED.SWISSto12, a provider of additively manufactured antenna and radio frequency (RF) system products headquartered in Renens, Switzerland, has announc. SWISSto12 and Profen to bring satellite connectivity to Turkey’s aerospace market.IperionX Ltd., Charlotte, North Carolina, USA, has announced the signing of a non-binding Memorandum of Understanding (MOU) with SLM Solutions Grou. IperionX and SLM Solutions announce titanium powder supply MOU.Carbolite Gero releases guide to heat treatment and sintering for metal AM and MIMĬarbolite Gero, part of Germany’s Verder Scientific GmbH, a division of the Verder Group, has published a twenty-page brochure 'Heat Treatment /.“To complete such a surgery is a great success because it truly symbolises a massive shift from forty years of traditional medical manufacturing – like CNC and forging – to the era of Additive Manufacturing.” “Link3D provided Imeco with exactly what we needed to propel forward with 3D printing,” he added. “Besides a competitive price, it was Bruno ’s responsiveness and complete breadth of knowledge on the subject matter.” Through the On Demand platform, Dr Pierce made contact with CEIT-Ke, a biomedical engineering service bureau based in Slovakia. Having spoken with Link3D representative Christian Rice, Imeco was subsequently able to use Link3D’s On Demand™, a secure platform which enables its users to search and connect with a global network of Additive Manufacturing solutions providers, to compare qualified and certified service bureaus for the AM of medical implants. The ideal solution, therefore, was to outsource the project to an Additive Manufacturing service provider. The final metal additively manufactured hip implant was produced by CEIT-Ke, Slovakia (Courtesy Link3D) It is not cost-effective to purchase machines worth upwards of $1-2 million dollars when we are at an experimental phase.” ![]() However, the cost of metal AM technologies and the knowledge gap between conventional medical manufacturing and medical Additive Manufacturing pose significant obstacles for some smaller medical companies.ĭr Santiago Pierce, Imeco’s Head of R&D, explains, “Even though we have a lot of articular orthopaedic design experiences for special conditions, we don’t have partners to teach us 3D printing and manufacturing. According to Imeco, 10-15% of all orthopaedic conditions could benefit from additively manufactured implants. This first AM hip replacement by the company was developed for a patient with a special medical condition. The company first discovered the potential of metal AM orthopaedic implants at a 2014 US trade show, but stated that it didn’t begin actively pursuing the technology until roughly six months before completing its first implant. reports that it has recently installed its first metal additively manufactured hip replacement. As a result, alumina can be tailored for high performance in extremely demanding conditions and applications.Imeco’s first AM hip replacement was developed for a patient with a special medical condition (Courtesy Link3D)Īrgentinian orthopaedic implant company Imeco S.A. The wide-ranging chemical availability of aluminum oxide makes it an extremely versatile fine ceramic suitable for demanding conditions and applications. Saint-Gobain, with a deep understanding of the chemical behaviors of technical ceramics, manufactures a wide and versatile range of alumina products that routinely meet customer requirements. Additional components include carbon (C), chromium oxide (Cr 2O 3), magnesia (MgO), and more. For example: adding manganese oxide (MnO 2) is beneficial for hardness silicon dioxide (SiO 2) can improve thermal shock resistance while low levels of zirconium oxide (ZrO 2) can increase both lifetime at high temperatures and overall wear resistance. ![]() These properties can be moderated and altered using a broad range of additives and additional components, which are likewise available with a choice of bonding solutions (cement, oxide, sintered, etc.). Extremely high purity (<99.9%) alumina grades can be fabricated using a choice of bonding and forming techniques (blending, casting, pressing, etc.) to yield high wear- and corrosion-resistant ceramic suitable for many applications. ![]()
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