Successful contact manufacturers in additive look more and more like successful contract manufacturers in general.
The design freedom possible with laser powder bed fusion (LPBF) metal 3D printing is making it faster and easier to produce complex anticavitation devices for valves.
Rather than adapting production methodologies to additive manufacturing, this Pennsylvania contract manufacturer adapts AM to production methodologies. In general, this starts with conversation.
Additive manufacturing via binder jetting includes a sequence of downstream steps. During a visit to the Pennsylvania metal 3D printing part producer, I had the chance to walk through this process.
Connections between metal 3D printing and CNC machining serve the Indiana manufacturer in many ways. One connection is customer conversations that resemble a machining job shop. Here is a look at a small company that has advanced quickly to become a thriving additive manufacturing part producer.
Recorded just after the visit to the laser powder bed fusion contract manufacturer, here is a conversation exploring observations and impressions of this company and its metal 3D printing work.
The maker of the Predator and SkyGuardian remote aircraft can implement additive manufacturing more rapidly and widely than the makers of other types of planes. The role of 3D printing in current and future UAS components hints at how far AM can go to save cost and time in aircraft production and design.
Additive is now too well-established for its successes to be dislodged by market change. Meanwhile, the most important factor is the promise that will continue to drive adoption.
The AM I Navigator initiative offers additive manufacturing users individual guidance with a comprehensive approach to navigate the complexity of the evolving landscape in industrial 3D printing.
Various recent articles demonstrate 3D printing and established processes finding one another and working together.
Fiona Lawler and Stephanie Hendrixson discuss the physical spaces where additive manufacturing is happening, from 3D printers wedged wherever they’ll fit to brand new facilities built for this purpose.
Bridge production is currently the biggest opportunity for additive manufacturing, says Fathom Manufacturing co-founder Rich Stump. How this service provider leverages AM while finding balance with other production capabilities.
Wind power shafts that might once have been scrapped are now returned to service. See the robotic directed energy deposition (DED) and shaft preheating system developed by Ikergune, Izadi and Talens.
The study evaluated three key metal AM feedstock processing approaches — gas atomization, mechanical milling (specifically ball milling) and wire drawing — to determine specific energy requirements for producing feedstock materials.
The company specializes in biomedical 3D printing with a focus on patient-centric solutions.
The company says its drop-on-demand technology can enable sustainable, production-grade additive manufacturing using high-value metal components.
Continuum Powders, the material production arm of small-scale foundry technology company MolyWorks, has announced new partnerships aimed at further reducing the environmental impact of its metal powder production.
Continuum is contracting to secure some of the industry’s greenest sources for power and argon gas. When the entire combination of the new renewable energy sources are added with its proprietary process, the company anticipates a total energy consumption of nearly zero.
Uddeholm’s Corrax for additive manufacturing is a corrosion-resistant, cobalt-free tool and mold steel capable of an A1 surface finish post-polishing.
The Visa Cash App RB Formula One team is collaborating with Roboze to reduce weight and create parts with geometries that are impossible with other techniques.
The zirconia materials are now qualified for use in the production of the world’s thinnest cosmetic veneers, which require significantly less tooth preparation or grinding, thereby preserving more of the patient’s natural enamel.
Following a successful beta release, the Material Hub is now openly accessible to the broader additive manufacturing community. It contains a collection of more than 400 polymer materials which have been compiled in collaboration with more than 25 material providers.
How can ceramic 3D printing provide a unique solution for every patient? What is the added value? Ceramic 3D printing is not about replacing well-established processes — it's here to complete them. In this webinar, Lithoz will look at several current applications in the medical field: first with silicon nitride manufacturer SiNAPTIC Technologies and then bioceramic experts Himed. With their years of experience in medical applications, this webinar will explain in full detail how ceramics can complement the metal materials conventionally used for implants and why ceramic is even sometimes the material of choice over metal. Agenda: Introducing the challenges in the medical industry today The powerful ceramic 3D printing technology for medical applications, explained by Lithoz An overview of ceramic medical applications already in use today by advanced ceramic materials expert SiNAPTIC Technologies An in-depth look at ceramic materials and their applications by experienced bioceramic manufacturer Himed
Vacuum cycle nucleation (VCN) is an immersion cleaning and extraction process which takes place in a sealed processing chamber. The pressure in the chamber is lowered and raised at and below the vapor pressure of the heated cleaning liquid. When the vapor pressure is reached, vapor bubbles are formed on the solid surface and these bubbles collapse and exit the bulk fluid. As they exit, they carry the particles and solubilized material to be removed. This vacuum pressure cycle is repeated every two seconds until the desired cleanliness is achieved. VCN cleaning is followed by a VCN water rinse and vacuum drying. Agenda: What is VCN? How does VCN work? Videos of the process
One of those applications has been for additive manufacturing with the electron beam powder bed fusion (PBF) process—which to this day has been constantly improved and optimized for production applications. In this webinar, an overview of the current capabilities of electron beam powder bed fusion will be provided along with several new innovations that will enhance the capabilities of manufacturers. Agenda: Overview of current capabilities of electron beam powder bed fusion technology Present the latest technical innovations developed for electron beam powder bed fusion Review of how the latest electron beam powder bed fusion technology will aid manufacturers in production applications.
Leveraging 3D printing for rapid prototyping is an obvious application that most product engineers are familiar with. However, advancements in new materials and design capabilities enable the technology to become a highly-useful tool capable of impacting every stage of the product life cycle. Join Daniel Baker, plastics program manager, for an insightful exploration of how additive manufacturing can optimize your product development and production processes. The webinar dives into viable ways you can leverage additive manufacturing at every stage of the product life cycle with a special focus on automotive examples. Throughout the webinar, Daniel will uncover DFAM principles and real-world examples that help improve part efficiency and unlock cost savings. Agenda: Unlock how 3D printing enables rapid product development, better ergonomic tools on the factory floor and on-demand spares and repairs for improved life cycle management Streamline production costs, enhance performance through DFAM and achieve part consolidation for improved efficiency Gain industry-specific examples of how additive manufacturing can optimize each stage of the product life cycle
Hear first-hand from General Pattern, an injection molder with in-house tooling services and over 100 years of experience, is addressing the labor issue, increasing toolmaking capacity and helping OEMs accelerate product development by integrating Mantle's 3D printer to automate its toolmaking processes. In this webinar, General Pattern will share its journey with additive manufacturing and why it is implementing metal 3D printing to automate its toolmaking processes. The webinar will also include an overview of Mantle's 3D printing technology for toolmaking and case studies from injection molders, toolmakers, contract manufacturers and OEMs that have deployed Mantle. Attendees will learn how organizations use metal 3D printing to significantly reduce tooling lead times and costs, accelerate product development and solve labor challenges — all while producing better tools that incorporate conformal cooling. Agenda: Hear from General Pattern on their additive manufacturing journey and why they invested in Mantle technology Review case studies of how General Pattern reduces tooling lead times and addresses skilled labor shortages with Mantle's technology Learn about Mantle's unique technology to print steel tooling with the accuracy, surface finish and feature detail required for injection mold tooling and other precision tooling Review case studies of how other manufacturers have automated their toolmaking processes with Mantle's technology About Mantle: Mantle has developed the only metal 3D printer built for precision tooling. Mantle automates the production of precision tooling and delivers the accuracy, finish and steel properties required for demanding tooling applications. Tools made with Mantle have molded millions of parts while reducing lead times, cutting costs and solving labor shortages. About General Pattern Company: General Pattern Company (GPC) is a full-service plastic manufacturer, founded on strong relationships and driven by innovation. GPC’s comprehensive offerings include in-house tooling, additive manufacturing, injection molding, urethane casting, foam molding, RIM, vacuum-forming, fiberglass and in-house painting/assembly. The extensive offering under one relationship is the difference it offers to its customers.
Additive manufacturing (AM) for medical device production has grown over the past several years with powder bed fusion (PBF) technologies as a major driver of this growth. Due to the many unique process and business case advantages offered to medical device manufacturers, electron beam powder bed fusion (EB-PBF) has proven itself as an effective tool for devices, including orthopedic implants, acetabular cups, femoral knee implants, tibial tray implants and spinal cages. In this webinar, JEOL will present the benefits of EB-PBF technology for manufacturing medical devices, insights on AM qualification considerations and fatigue data for EB-PBF printed Ti6Al4V tested in axial fatigue in accordance with ASTM E466. Agenda: Overview of EB-PBF usage in the medical device industry along with several unique advantages for the technology Review of the qualification requirements for the manufacture of medical devices using AM Analysis and review of fatigue life results in EB-PBF printed Ti64 coupons tested in axial fatigue
As an annual conference and supportive community, Moms in MFG is designed exclusively to support working parents and caregivers in manufacturing. Moms in MFG is dedicated to empowering and connecting moms and caregivers in manufacturing. In addition, it aims to assist manufacturing companies in discovering how they can provide the necessary support and create a nurturing environment for caregivers in manufacturing. Through valuable content, networking opportunities, and collaboration with fellow industry professionals, Moms in MFG celebrates the unique journey of moms and caregivers in manufacturing.
RAPID + TCT is returning to the west coast after a decade away! For more than 30 years, RAPID + TCT has defined the crucial role of additive manufacturing and empowered the establishment of an industry that continues to conceive, test, improve and manufacture new products at a faster, more cost-efficient pace. SME and Rapid News Publications have teamed up to produce the annual RAPID + TCT event, which takes place June 25-27 in Los Angeles, California. The event is for those who provide technology and for those who need to understand, explore and adopt 3D printing, additive manufacturing, 3D scanning, CAD/CAE, metrology and inspection technologies.
Debuting in 2010, the Parts Cleaning Conference is the leading and most trusted manufacturing and industrial parts cleaning forum focused solely on delivering quality technical information in the specialized field of machined parts cleansing. Providing guidance and training to understand the recognized sets of standards for industrial cleaning, every year the Conference showcases industry experts who present educational sessions on the latest and most pressing topics affecting manufacturing facilities today. Discover all that the 2022 Parts Cleaning Conference has to offer!
Laser powder bed fusion is the most widely used additive manufacturing method for metal part production, and electron beam melting is a closely related technology. For metalworking facilities contemplating a move into metal AM using technologies such as these, here is a road map for success. Speakers will cover materials, safety, part design, production workflow and differences between laser and electron beam metal powder bed fusion systems.
Presented by Additive Manufacturing Media, Plastics Technology and MoldMaking Technology, the 3D Printing Workshop at IMTS 2024 is a chance for job shops to learn the emerging possibilities for part production via 3D printing and additive manufacturing. First introduced at IMTS 2014, this workshop has helped hundreds of manufacturing professionals expand their additive capabilities.
CompositesWorld's Carbon Fiber conference offers you cutting-edge information and access to industry experts in streamlining manufacturing costs, market outlooks and forecasting, and more. You will make invaluable contacts as you meet and network with the industry's most innovative and influential leaders at Carbon Fiber.
Laser powder bed fusion and directed energy deposition combine for an integrated multi-metal rocket propulsion system that will save cost and time for NASA. The Cool Parts Show visits NASA’s Marshall Space Flight Center.
NASA's Paul Gradl describes an important application of AM beyond the spacecraft itself: refueling the spacecraft. Directed energy deposition offers the most practical way to produce aluminum tanks to keep fuel supercool.
The DMP Factory 500 solution currently operating at CIMP-3D offers a look at the equipment and steps necessary to 3D print metal parts at large scale.
The high-performance aluminum alloy has been specifically designed for additive manufacturing and is well suited space, aeronautic and automotive lightweight applications.
The participating companies are working to create complete digital postprocessing solutions for the automated finishing of flight parts, orthopedic implants and gas turbine components produced using metal additive manufacturing processes.
The project award winners are tasked with demonstrating data gathering and analysis methods to drive industrywide metal additive manufacturing operations acceptance.
The configurable CO2 laser and scan head subsystem simplifies integration.
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