ATX West - Tekkra Showcases at WestPack 2016 an Innovative Entry-Level Shrink Wrapping and Bundling System
The modular Triad system from Tekkra delivers rugged, dependable shrink wrapping and bundling technology at an entry-level price and breaks new ground in terms of flexibility. (Tekkra WestPack Booth 5221)
Airwolf 3D introduces Wolfbite NITRO, a 3D printing nylon adhesive engineered to improve bed adhesion and reduce warpage.
SME International Honor Award winners are recognized for their significant contributions in the areas of manufacturing technologies, processes, technical writing, education, research and management, and service to SME.
By Kira for 3ders.org: The first month of 2016 is now behind us, and the year is shaping up to be particularly interesting in terms of 3D printing trends. In the advanced materials sector specifically, emerging technologies firmLux Research has predicted that the top three ‘undercover’ advanced materials trends of 2016 include improved 3D printing software and formats, Carbon nanotube products, and IoT devices embedded with sensing materials. Cont'd...
DSI will display a wide array of seamless, highly-durable optical thin film coatings at SPIEs BiOS, Feb. 13 - 15 & Photonics West, Feb. 16 - 18, 2016, in San Francisco.
The Internet of Things (IoT) is enabling manufacturers to be more efficient, productive and profitable in the face of increased competition worldwide. We look at five reasons why manufacturers are betting big on these new technologies.
ATX 16 - igus Robotic Solutions and More on Display at the 2016 Pacific Design and Manufacturing Show
igus will showcase a wide range of solutions for robotic systems, design engineering, and more in booth 3889 at the upcoming show, running February 9-11th.
Pro Mach Acquires EPI Labelers to Continue Expansion of Labeling and Coding Business and Strengthen Flexible Packaging Capabilities
Pro Mach broadens extensive labeling and coding product line with EPI Labelers' strong focus and capabilities in flexible and vertical form fill seal packaging
Streamline your CNC programming with the new module NCSIMUL CAM
Adding more memories to alloys will revolutionize medical devices.
Leaders from AbbVie, Amgen, GE Healthcare, and Shire will keynote the inaugural session set for April 4 - 5, 2016.
NVBOTS Launches NVLABS: The R&D Solution for Any Company in Need of Ultra-High Speed, Multi-Metal 3D Printing Capabilities; Appoints Dr. Paul Burke as Chief Research Officer
Customers to Benefit from Growing List of Supported Metals, Including Stainless Steel, Titanium, Nickel, Copper Nickel, Aluminum, Zirconium, Silver and Palladium
Impacts of Clean Power Plan Could Devastate Growth
Scott J Grunewald for 3DPrint.com: A team of engineers from the University of Bristol — comprising Thomas M. Llewellyn-Jones, Bruce W. Drinkwater and Richard S. Trask — have developed a new hybrid type of 3D printing that can both assemble and print with composite materials using a combination of desktop 3D printer technology, light-curable resins and ultrasonic waves. This new process can allow super strong and lightweight composites like the variety used to produce tennis rackets, golf clubs, professional bicycles or even airplane parts to be used with additive manufacturing technology. Needless to say these new material options will offer entire new industries the ability to incorporate 3D printing into their manufacturing workflow. And the best part is that for the most part the process was made using existing 3D printing technology. Composite materials are made by combining micro-structures of glass or carbon fibers with a plastic material. The carefully arranged fibers lock together and give the new material its strength and durability, while the plastic ensures that the resulting material will be lightweight. Currently, composite materials are manufactured as thin sheets that are then layered and cut into the desired shape and thickness. The problem with using this as a 3D printing material is the small fibers in the composite materials. In order to produce the desired strength the fibers need to be aligned in a very precise structure, which is currently not possible to reproduce using a 3D printer. Cont'd.. .
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Processing & Handling - Featured Product
Robotized system for grinding and cutting with discs and the precision cutting with plasma technology of aeronautic parts. This Robotized system is produced for the finishing of aeronautic parts. This machine utilizes the grinding and cutting with a Ø1000mm disc. It is also allowing the precision cutting with plasma technology.