Cities and States Vie for Emerging Manufacturing

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Over the past few years, two manufacturing sectors have been dominating markets: semiconductors and electric automobiles. Cities and states are hoping to capitalize on the boom by enticing manufacturers to build and renovate factories near their communities. This time around they are focusing on factors like workforce and infrastructure rather than massive subsidies as in the Wisconsin-Foxconn arrangement.

The Midwestern United States, a long standing stronghold of automotive manufacturing, is racing to make the transition to electric vehicles.

The Southwestern United States is more focused on building out its semiconductor fabrication capabilities, but is also making inroads into electric vehicle development and manufacture.

Beyond the United States, Japan has recently decided to subsidize advanced battery factories while luring TSMC for chips. Germany is investing billions in semiconductor production while maintaining its prowess in the transition to electric vehicles.

As the build out progresses in these two industries, I bet the winning regions are active participants in recruiting the best workforce and deploying sufficient supply chain infrastructure rather than just providing subsidies. Once the physical footprint of these newer industries are established, the supply lines may be permanently changed. The race is on.


Visual Inspection

How Japan Won Lithography (& Why America Lost)

Acoustic Monitoring

Assembly Line

What Is Generative Design, and How Can It Be Used in Manufacturing?

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🔖 Topics: generative design

🏢 Organizations: Autodesk


The primary use case of generative design in manufacturing is to automatically trigger design options that are pre-validated to meet the requirements you’ve established. That can be especially important for efficient manufacturing. Sometimes a part or tool must fit into an entrenched workflow or pipeline—methodologically or physically—as part of a larger device or process.

Read more at Redshift by Autodesk

Apollo Tyres Moves to AWS to Build Smart, Connected Factories

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🔖 Topics: IIoT

🏭 Vertical: Plastics and Rubber

🏢 Organizations: Apollo Tyres, AWS


Apollo Tyres needed to upgrade its infrastructure to develop new ways of engaging with fleet operators, tyre dealers, and consumers, while delivering tyres and services efficiently at competitive prices. The company’s first step was to create a data lake on AWS, which centrally stores Apollo Tyres’ structured and unstructured data at scale. This data lake provides the foundation for an integrated data platform, which enables Apollo Tyres’ engineers around the world to collaborate in developing cloud-native applications and improve enterprise-wide decision making. The integrated data platform enables Apollo Tyres to innovate new products and services, including energy-efficient tires and remote warranty fulfillment.

Read more at CXO Today

Hexagon industrialises high quality additive manufacturing with open ecosystem strategy

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🔖 Topics: additive manufacturing

🏢 Organizations: Hexagon, Stratasys


Hexagon’s Manufacturing Intelligence division has revealed its plans to build the industry’s most flexible and open additive manufacturing (AM) ecosystem to help overcome complexities in 3D printing processes and support customers in effectively building their product development and manufacturing workflows.

“Just as large manufacturers drove the provision of open factory automation, it’s important we vendors now break down barriers to new manufacturing technologies that offer more flexibility and efficiency. Instead, open data standards should be seen as a growth enabler.”

Read more at JEC Group

Benefits of 3D Printed End-Use Parts in a Yacht

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🔖 Topics: additive manufacturing

🏭 Vertical: Ship and Boat

🏢 Organizations: INTAMSYS, Sea3D


3D printing allows the company to make any number of different parts to fit and match exactly with the various spaces onboard a yacht. The CAD model can be created according to the space allowed and fits the needed requirements. With the advancements in filaments and precise high-quality printers like the FUNMAT HT, Nick and Adam are able to have a high control on cost, produce parts faster than traditional manufacturing, and use materials that are better suited to the intended function than in conventional methods. The FUNMAT HT is an open material system that doesn’t come at an extra cost, thus allowing them to test many types of filaments.

Read more at JEC Group

Using blockchain to share and monetize telecoms assets

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🔖 Topics: blockchain, 5G, IIoT

🏢 Organizations: Weaver Labs


Weaver Labs will be the open telecommunications partner in the Track & Trust project, which aims to deliver a scalable, cost-efficient communications platform and network combining satellite, IoT mesh and blockchain components, serving mostly supply chain use cases. The end solution will be a modular product that will provide a plug and play communication network that allows for end-to-end tracking of the supply chain. This will start from the initial supply of goods/aid and extend all the way to the last-mile shipments, even when limited or no telecommunication infrastructure is available.

Read more at Embedded

New Ultrasonic Welder Mode Uses Real-time Adjustments to Improve Welds

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✍️ Author: Tarick Walton

🔖 Topics: welding

🏭 Vertical: Machinery

🏢 Organizations: Emerson


Ultrasonic welding, including the single-parameter weld modes, let electronics manufacturers meet high levels of assembly quality, especially for products built from rigid, molded plastic components. But companies that assemble products from components with more dimensional, flexural, or material-related variability have faced a tougher challenge, one typically met by in-house modifications to ultrasonic welding equipment.

To use a welder equipped with dynamic mode, operators select the single-parameter weld mode that provides the best application results to date. Then, they enter two application-specific “scores,” which act as limits for dynamic mode activity. The first is a material “density” score that characterizes the hardness or resistance of the material that is to receive the welded, staked, or inserted part. Low density scores equate to harder, more resistant materials. The second, the “reactivity” score, affects the reaction time needed to get the desired density setting. In operation, dynamic mode monitors each weld cycle, using the density and reactivity limits to adjust and improve the cycle in response to specific part-to-part variabilities throughout the production run.

Read more at MachineDesign

Transfer learning with artificial neural networks between injection molding processes and different polymer materials

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✍️ Authors: Yannik Lockner, Christian Hopmann, Weibo Zhao

🔖 Topics: artificial intelligence, machine learning

🏭 Vertical: Plastics and Rubber

🏢 Organizations: RWTH Aachen University


Finding appropriate machine setting parameters in injection molding remains a difficult task due to the highly nonlinear process behavior. Artificial neural networks are a well-suited machine learning method for modelling injection molding processes, however, it is costly and therefore industrially unattractive to generate a sufficient amount of process samples for model training. Therefore, transfer learning is proposed as an approach to reuse already collected data from different processes to supplement a small training data set. Process simulations for the same part and 60 different materials of 6 different polymer classes are generated by design of experiments. After feature selection and hyperparameter optimization, finetuning as transfer learning technique is proposed to adapt from one or more polymer classes to an unknown one. The results illustrate a higher model quality for small datasets and selective higher asymptotes for the transfer learning approach in comparison with the base approach.

Read more at ScienceDirect