Three Reasons Why Advanced Manufacturing Institutes Matter

American manufacturing is surging with almost 900,000 new jobs created in the past six years. While thats incredible progress, how do we take manufacturing to the next level?

3D printing software, sensors, and carbon nanotubes among top Advanced Materials trends of 2016

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...

Five Reasons Why Manufacturers Are Embracing IoT

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.

New Ultrasonic 3D Printing Process Can Create and Print High-Tech Composite Materials

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.. .

MesoGlue: Room Temperature Metallic Glue

From Hanchen Huang of Northeastern University: MesoGlue is our revolutionary joining solution that lets you attach items together with a metal bond, at room temperature. This is like welding or soldering, but without the heat! The patented process gives you the strength and thermal/electrical conductance of a metal bond, with the ease of attachment of glue or tape. Surfaces are merely pressed together to form a very strong connection. Our MesoGlue technology can be applied to nearly any flat surface. The surface can be rigid or flexible, and roll-to-roll processing is possible. We currently offer coating of two joining surfaces at our state of the art processing facility. Items of up to approximately 1 cubic foot can be accommodated. MesoGlue Silver: A pure silver bond offering the highest electrical and thermal conductivity. Formation of the bond requires moderate pressure. MesoGlue Eutectic: A bond made of primarily copper with other metals added to help the process. Formation of the bond requires only fingertip pressure. (MesoGlue Homepage)

3D Printing of Motors and Electronics

My research involves developing techniques to 3D print electric motors and electronics. This goes beyond the usual 3D printed structures - structures dont do anything. To do things, we need motors and electronics to control those motors.

Robotic Additive Manufacturing Platform for 3D Printing Composite Parts

The first-of-its-kind solution consists of a standard commercially available robot, composite deposition end-effector hardware and a comprehensive software suite.

3D Printing and Acoustics: Rapid Prototyping of Sound Diffusers

By being able to design diffusers in 3D and print them, we streamline the prototyping process tremendously. We can do virtual simulations with the 3D models to get a sense of the effectiveness, and we can make aesthetic or functional changes before its printed.

Special Tradeshow Coverage for FABTECH 2015

FABTECH 2015 will be held from November 9th - 12th in Chicago, Illinois. This RoboticsTomorrow.com Special Tradeshow report aims to bring you news, articles and products from this years event.

Cisco Teams Up with Robotics Firm Fanuc for IoT

by Zacks Equity Research:  Technology giant and Dow component Cisco Systems, Inc. recently entered into a strategic alliance with a robotics company Fanuc America, thereby stepping up its efforts to make itself a key player in the Internet of Things (IoT) space.  Per the alliance, Fanuc and Cisco have built an IoT system that enables Fanuc to monitor every robot on the factory floor. This way it can be determined whether a robot is likely to fail, so that a service technician can fix the equipment before it stops working. This could save companies hundreds of dollars of fixing cost. Per Cisco CEO Chuck Robbins, downtime for these robots can cost a business $16,000 per minute. Therefore, the new system that offers predictive maintenance can be a big thing for some operations. The companies are currently testing the system in a channel that comprises around 1,800 robots and includes Fanuc customer, GM. In this testing period, Fanuc says its customer has saved $38 million. Fanus has plans to expand the system to 2,500 robots by the end of the year. Cont'd...

Technology gap gives foreign firms the edge in China robot wars

BY GERRY SHIH for Reuters:  In a cavernous showroom on the outskirts of this port city in northeastern China, softly whirring lathes and svelte robot arms represent Dalian Machine Tools Group's (DMTG) vision of an automated future for Chinese manufacturing. On closer inspection, however, most of the machines' control panels bear the logos of Japan's FANUC Corp or the German conglomerate Siemens. The imported control systems in DMTG's products – used in the assembly of everything from smartphones to cement trucks – are symbolic of the technology gap between Chinese and foreign industrial automation firms, just one of several challenges facing China's ambition to nurture a national robotics industry. Chinese robotics firms are also grappling with a weakening economy and slumping automotive sector, and industry insiders already predict a market bubble just three years after the central government issued policies to spur robotics development. "Last year everybody thought they could produce a robot," said Alan Lee, director of Asia sales and business development at Boston-based Rethink Robotics. "When you have market saturation you'll have filtering and M&A. These guys will be the first layer to suffer."  It is a storyline familiar from other new industries such as solar panels: Beijing's policies and subsides trigger a wave of low-margin, low-cost contenders to rush into the market, where, with no meaningful technology of their own, they struggle to compete on price alone.   Cont'd...

OMRON to Acquire U.S. Based Adept Technology

OMRON plans to acquire 100% of the outstanding shares of Adept common stock through an all cash tender offer followed by a second-step merger. OMRON will offer Adept investors $13.00 per share of Adept common stock, which represents a 63% premium over the closing price for Adept's common stock on September 15, 2015. This values Adept at approximately $200 million. OMRON will fund the tender offer through cash on hand.  Commenting on the acquisition, Yutaka Miyanaga, OMRON Industrial Automation Business Company President, said, "We are delighted Adept Technology, a world leader in robotics, has agreed to join OMRON. This acquisition is part of our strategy to enhance our automation technology and position us for long term growth. Robotics will elevate our offering of advanced automation."  Rob Cain, President and Chief Executive Officer of Adept, added, "We are excited about the opportunity to join OMRON, a global leader in automation. Together, our products will offer new innovative solutions to customers all around the globe."  Full Press Release:

3 Key Ways Automation Reduces Safety and Ergonomic Concerns

As companies continue to rely on automation to remain competitive, employees will have the benefit of working in safer environments. In the years to come, the question wont be "Is your company automating?" but instead "How is your company automating?"

Breaking down the robot-factory language barrier

In most industrial settings, robots speak one language and the plants within which they work speak another.

Waterjet Cutting and OCTOPUZ a Powerful Combination

OCTOPUZ was created to meet the rising needs in the robotics industry, and uses a revolutionary method of combining offline programming of robots with manufacturing process simulation.

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Supply Chain - Featured Product

T.J. Davies' Retention Knobs

T.J. Davies' Retention Knobs

Our retention knobs are manufactured above international standards or to machine builder specifications. Retention knobs are manufactured utilizing AMS-6274/AISI-8620 alloy steel drawn in the United States. Threads are single-pointed on our lathes while manufacturing all other retention knob features to ensure high concentricity. Our process ensures that our threads are balanced (lead in/lead out at 180 degrees.) Each retention knob is carburized (hardened) to 58-62HRC, and case depth is .020-.030. Core hardness 40HRC. Each retention knob is coated utilizing a hot black oxide coating to military specifications. Our retention knobs are 100% covered in black oxide to prevent rust. All retention knob surfaces (not just mating surfaces) have a precision finish of 32 RMA micro or better: ISO grade 6N. Each retention knob is magnetic particle tested and tested at 2.5 times the pulling force of the drawbar. Certifications are maintained for each step in the manufacturing process for traceability.