Adding Color to 3D-Printed Parts with Painting and Dyeing

| November 09, 2017
ADDING COLOR TO 3D-PRINTED PARTS WITH PAINTING AND DYEING
Once a 3D printing build is complete, there are a few steps we can take to improve the cosmetics and performance of the part. Our standard post-build process includes removing support structures when applicable and then applying a bead blast to remove excess material and achieve a consistent texture. But additional measures can be taken to improve part aesthetics, like adding color for example.

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Xometry

Xometry, recently voted one of the DC's Coolest Companies, brings together manufacturing and technology to provide 24/7 access to instant pricing, expected lead time and manufacturability feedback on custom parts for engineers and designers across the U.S.

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Lessons Learned in Electronics Transforms Other Discrete Manufacturing Operations

Article | May 10, 2021

Jason Spera, picture left, recently shared his vantage of the changes for factory floor automation in 2021. Jason is CEO and Co-Founder, Aegis Software. Spera is a leader in MES/MOM software platforms for discrete manufacturers with particular expertise in electronics manufacturing. Founded in 1997, today more than 2,200 factory sites worldwide use some form of Aegis software to improve productivity and quality while meeting regulatory, compliance and traceability challenges. Spera's background as a manufacturing engineer in an electronics manufacturing company and the needs he saw in that role led to the creation of the original software products and continue to inform the vision that drives Aegis solutions, like FactoryLogix. He regularly speaks on topics surrounding factory digitization, IIoT, and Industry 4.0. Contact Jason on LinkedIn.

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IoT in Manufacturing: How It's Changing the Way We Do Business

Article | December 10, 2021

IoT in the manufacturing industry introduces a superior technology that is coming up as a blessing for the industry. Manufacturers are enjoying one-of-a-kind benefits and returns on their reinvestments in IoT. Benefits such as enhanced productivity, work safety, reduced downtime, cost-effective operations, and more such benefits of IoT in manufacturing make it more and more popular with each passing day. The global IoT market is estimated to reach a value of USD 1,386.06 billion by 2026 from USD 761.4 billion in 2020 at a CAGR of 10.53 percent over the forecast period of 2021-2026. So the whole worldwide market of IoT has a bright future in the following years. “As technology takes over and enhances many of the processes we used to handle with manual labor, we are freed up to use our minds creatively, which leads to bigger and better leaps in innovation and productivity.” – Matt Mong, VP Market Innovation and Project Business Evangelist at Adeaca Let’s check out below some exciting facts about IoT in manufacturing and see how IoT makes a difference in the manufacturing industry. IoT in Manufacturing: Some Interesting Facts According to PwC, 91% of industrial/manufacturing enterprises in Germany invest in "digital factories" that use IoT solutions. According to the International Federation of Robotics (IFR), China employs more industrial robots than any other country (many of which are connected to the internet in some way). According to IoT Analytics, the industrial sector spent more than $64 billion on IoT in 2018 and expects investment in Industry 4.0 to reach $310 billion by 2023. According to the Eclipse Foundation, most IoT developers are focused on developing smart agriculture systems (26%), while industrial automation is another big focus area (26%). However, home automation is dwindling in popularity, accounting for just 19% of projects. How Does IoT Work for the Manufacturing Industry? The Internet of Things (IoT) is a network of interconnected devices that communicate with one another and with other networks. While IoT-enabled devices are capable of various tasks, they are primarily employed to collect data and carry out specific tasks. The implementation of the Internet of Things in manufacturing is often referred to as the IIoT, or Industrial Internet of Things. IoT makes use of 'smart' devices to collect, process, and act on data. These intelligent devices are equipped with sensors and other software that enable them to communicate and exchange data inside the network. IoT-enabled equipment gives crucial real-time data that enables manufacturers or machine operators to make informed decisions. So, how does it function in practice? Sensors capture data from the system and transfer it to the cloud, where it can be analyzed. The data is transferred to the quality assurance system. The data that has been analyzed is forwarded to the end-user. How the IoT is Improving Manufacturing Business Operations The Internet of Things (IoT) has numerous benefits for the manufacturing industry. We'll go over some of the significant benefits that the Internet of Things brings to the manufacturing business. Energy Efficiency Solutions Energy is a high cost in manufacturing. Unfortunately, the current industrial energy infrastructure can only track excessive energy consumption. The utility bills include the factory's energy consumption records. But, unfortunately, nobody can break down energy consumption to the device level and find out the underperforming pieces. Some energy usage monitoring tools exist, but they only provide partial data, making system analysis difficult. IoT can help by giving device-level energy data. The sensors will detect any underperforming devices in the network and alert you so you can take action. As a result, the technology can help you reduce energy waste and find other ways to save it. Market Forecasting Data is required to determine trends and quality of production at a manufacturing facility. It also helps manufacturers plan and anticipates changes. These forecasts can help with inventory management, employment, cost control, and other operational procedures. Thus, IoT technology makes it easier to foresee and optimize customer requirements. Proactive Maintenance The Internet of Things (IoT) uses sensors to gather data about assets' health and productivity. In addition, it uses advanced analytics to give actionable information. These are presented on an appealing dashboard connected to your smart device. This allows for predictive maintenance to be used in the manufacturing industry. Superior Product Quality Every manufacturer is determined to produce a high-quality product at a low cost. Therefore, a minor quality modification can have a significant influence on the manufacturing firm. Customer happiness, waste reduction, sales, and profit can all benefit from high-quality products. But making high-quality products isn't easy. The Internet of Things (IoT) can assist you in this endeavor. Poorly set, calibrated, and maintained equipment are some of the main reasons for low-quality products. Worst of all, many small things sometimes go ignored as the final product seems perfect. Quality tests show the product is fine, but your consumers start having problems after a couple of months. Imagine the resources needed to identify and correct the problem. Sensors in an IoT network detect even minimal tweaks in setup and alert operators. The team might momentarily stop production to address the issue before the production cycle gets complete. Rapid and Informed Decision-Making The IoT can dramatically improve organizational decision-making. It unlocks vital data about network equipment performance and delivers it to the right person. Managers and field operators can use this data to improve plant processes and overall production. In addition to these significant benefits, IoT in manufacturing can help manufacturers improve their manufacturing operations and construct a unit that meets the vision of the smart factory of 2040. The future beyond IoT would be the icing on the cake for all of us, as technology has always amazed us. Imagine the day when IoT and AI merge, and the virtual gadgets controlled by IoT are the next major milestone. Then, the ideal combination of robotics, AI, and VR may reduce the manufacturing plant size and cost while increasing the output to a level that is unimaginable and unattainable as of now. Airbus Improved Production Efficiency with Its Factory of the Future Concept It's a massive task for a commercial airliner to be assembled. The expense of making a mistake throughout making such a craft can be significant, as there are millions of parts and thousands of assembly phases. Airbus has established a digital manufacturing effort called Factory of the Future to optimize operations and increase production capacity. The company has installed sensors on factory floor tools and machinery and supplied workers with wearable technologies, such as industrial smart glasses, to reduce errors and improve workplace safety. The wearable allowed for a 500% increase in efficiency while eliminating nearly all mistakes in one process named cabin seat marking. Final Words While the benefits of IoT devices have long been a topic of discussion among technology enthusiasts, the incorporation of IoT in manufacturing is creating a new buzz in the industry. The benefits of IoT in manufacturing, such as remote analysis of operations, processes, and products, are assisting manufacturers in establishing a more productive manufacturing unit. As a result of these benefits, IoT use in manufacturing is accelerating. Recognize the IoT's potential and take a step toward incorporating it into your manufacturing operation in 2022. FAQ What is the Industrial Internet of Things (IIoT)? IIoT stands for Industrial Internet of Things. It uses data to improve industrial efficiency. To enhance industrial performance, it uses embedded sensors, cloud data, and connected devices. Why is the IoT changing manufacturing? Real-time monitoring of machines and accurate reporting for better decisions are possible through IoT. This improves business strategies and project control. Thus, the Internet of Things has a significant impact on the profitability of any manufacturing company. How does the IoT transform the way we do business? We can use data collected by IoT devices to improve efficiency and help organizations make better decisions. They tell organizations the truth, not what they hope or believe. { "@context": "https://schema.org", "@type": "FAQPage", "mainEntity": [{ "@type": "Question", "name": "What is the Industrial Internet of Things (IIoT)?", "acceptedAnswer": { "@type": "Answer", "text": "IIoT stands for Industrial Internet of Things. It uses data to improve industrial efficiency. To enhance industrial performance, it uses embedded sensors, cloud data, and connected devices." } },{ "@type": "Question", "name": "Why is the IoT changing manufacturing?", "acceptedAnswer": { "@type": "Answer", "text": "Real-time monitoring of machines and accurate reporting for better decisions are possible through IoT. This improves business strategies and project control. Thus, the Internet of Things has a significant impact on the profitability of any manufacturing company." } },{ "@type": "Question", "name": "How does the IoT transform the way we do business?", "acceptedAnswer": { "@type": "Answer", "text": "We can use data collected by IoT devices to improve efficiency and help organizations make better decisions. They tell organizations the truth, not what they hope or believe." } }] }

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4 Strategies to Make Your Production More Efficient in 2021

Article | July 13, 2021

The start of the new year is a great time to critically take a look at your processes and see how you can improve. Here at FANUC, we have identified four key strategies manufacturers can use to boost their efficiency! Add Automation Automation can increase production and efficiency no matter the type or complexity of the manufactured products. With space at a premium in most production facilities, many job shops look for machine tending robots that are easy to integrate and have a small footprint. FANUC's robots and software make it easy to connect the equipment and improve throughput as well as overall equipment effectiveness. Quick and Simple Startup of Robotization (QSSR) allows up to four machine tools to be connected with a robot using just one Ethernet cable. Use the Latest and Greatest Machining Practices and Technology Many manufacturers leave performance on the table due to outdated processes and programming. Are you getting the most out of your machining? Now’s the time to look at the advantages in new CNC technology. Because new controls have greater processing speed and can implement advanced algorithms, they can do a lot more for your operations. Moreover, the interfaces have become simpler and more intuitive, so they are easier to use than ever before. Digitize Your Process New digital tools are breathing innovation and life into increasingly more areas of manufacturing, including the application of digital twins in the machining industry. Digital twins provide virtualization of the machine, control and manufacturing process. Digitalizing traditional manufacturing processes have the potential to make operations more efficient by proving out production processes in the virtual world. That means less waste, more efficiency and a more equipped workforce. Upgrade Your Shop with a CNC Retrofit Do you have legacy equipment? Running older machinery can have hidden costs, such as taking the time to source and find older replacement controls leading to significantly longer total downtime and production losses. However, scrapping old equipment and starting new, might be too expensive, especially when factoring in tooling, fixturing, rigging and foundation. Plus, new machines may require more training for staff. A CNC retrofit, with new FANUC CNCs, industrial PCs, servos and cabling, can speed up processing and reduce cycle time by as much as 50 percent.

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Quality Digest Defines Enhanced Webinar Events

Article | May 18, 2021

For twenty years as an editorial contributor to Quality Digest magazine, I have had the pleasure of authoring or collaborating more than 80 articles for the publication. During this two-decade tenure, I have worked with Dirk Dusharme (pictured left), Editor in Chief of Quality Digest. Quality Digest’s website receives more than three million page views each year, which provide editorial content, live broadcasts, videos, and on-demand webinars presented by industry experts on international quality standards, leadership, manufacturing, metrology, statistical process control, training, and more. Quality Digest continues its important role as companies navigate a post-COVID reality with a critical role of safety, quality, efficiency, and resiliency. Quality elements are no longer an after-thought. It is essential when examining automation, lean manufacturing, and new paradigms for best practice. During COVID, all of us became more remote savvy and the demand for visionary content and information essential. According to Dusharme, “Since their debut almost a decade ago, Quality Digest's "enhanced" webinar events have raised the bar for the traditional webinar experience. Our audience has come to expect concise, informative, and engaging presentations with subject matter experts who know what they are talking about. Apart from the traditional quality topics, we delve into areas that broaden our audience’s knowledge. These topics range from cybersecurity, to supply chain management, to understanding and dealing with cognitive biases. Our goal is to provide up-to-date, actionable information that our audience can immediately put to use. Live video feeds of the presenters and the products, interactive Q&A sessions, surveys, and valuable downloads all make up our usual webinar experience, followed by next-day access to the on-demand recording and materials.” Enhanced Webinars from Quality Digest feature real-time streaming video of host, subject matter expert, and a case study in action. Users can email questions, chat, or download files in real-time. This modality is ideal for visual case studies/product demos, team or customer training, and new product/new service announcements.

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Spotlight

Xometry

Xometry, recently voted one of the DC's Coolest Companies, brings together manufacturing and technology to provide 24/7 access to instant pricing, expected lead time and manufacturability feedback on custom parts for engineers and designers across the U.S.

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