How to Select the Right 3D Printing Technology

MATT AHART| July 23, 2018
HOW TO SELECT THE RIGHT 3D PRINTING TECHNOLOGY
The term 3D printing encompasses several manufacturing technologies that build parts layer-by-layer. Each vary in the way they form plastic and metal parts and can differ in material selection, surface finish, durability, and manufacturing speed and cost. Selecting the right 3D printing technology for your application requires an understanding of each process strengths and weaknesses and mapping those attributes to your product development needs.

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Hikvision

Hikvision is the world’s leading supplier of video surveillance products and solutions. Featuring the industry’s strongest R&D workforce, Hikvision uses its state-of-the-art manufacturing facilities to design and develop innovative CCTV and video surveillance products. The company’s complete product suite includes Smart IP cameras, HD analog cameras, speed domes, NVRs, DVRs, video management software, access control and alarm systems, encoders, decoders, and other elements of sophisticated security systems. Hikvision products serve a diverse set of vertical markets that includes retail, banking and finance, transportation, education, commercial, government, and residential applications.

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Top Five Industries That Are Leveraging Additive Manufacturing

Article | October 20, 2021

Additive manufacturing has advanced significantly in recent years and is currently used in nearly every area to improve both products and processes in the manufacturing business. As a result, manufacturers have been more imaginative and innovative in offering relevant products to their target customer group due to this technological advancement. Mr. Matt Mong, a prominent business executive, also mentioned in one of his Media7 interviews, 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 The use of additive technology provides several advantages, including creating unique shapes and low production costs. In addition, the increasing application of additive manufacturing technologies is accelerating the growth of the additive manufacturing market. According to recent research conducted by Metal AM, the value of additively produced components is expected to increase by 15% annually from $12 billion in 2020 to $51 billion in 2030. Thus, additive marketing is the way forward for all industries. This article will cover the top five industries that utilize additive manufacturing and are advancing their businesses every day by overcoming the prevailing challenges such as production errors, downtime, and skilled labor shortage with the benefits of additive manufacturing. Five Industries Utilizing Additive Manufacturing Though additive manufacturing or 3D printing has penetrated almost all the industries, we have picked up a few of the prevailing industries that have started using additive manufacturing and excelling in it. Additive Manufacturing in Aerospace Aerospace has always been the first sector to adopt new technology. Precision is critical in this sector, as a failure of any component is not an option in aerospace. In aircraft production, dimension, weight, and temperature tolerance are critical, and additive technology provides every solution around this. As a result, additive manufacturing has evolved into a critical technology that adds value throughout the supply chain for prominent aircraft firms like Airbus, GE, Boeing, and TTM. Additive Manufacturing in Healthcare Healthcare or medical is one of the industries that is maximizing the benefits of additive manufacturing. Technology enables the medical sector to be more innovative, accurate, and capable of offering the most excellent medical solutions available today. It enables medical practitioners to rehearse before procedures and medical researchers to study functioning human tissues for basic biological research. In addition, it is utilized to fabricate tissues and organoids, surgical instruments, patient-specific surgical models, and bespoke prostheses. Thus, additive technology has altered the face of medicine, elevating it to a more sophisticated and solution-oriented state. Additive Manufacturing in Architecture As with other industries, additive manufacturing reshapes the architectural and construction sectors by eliminating conventional industrial barriers such as production time and cost, material waste, and design constraints. By utilizing 3D printing, designers can now quickly construct and demonstrate how structural parts will function and appear when combined. It also assists designers in seeing how the plan will seem subsequent execution. Additive Manufacturing in Manufacturing Nowadays, additive manufacturing, or 3D printing, is a significant part of the manufacturing process. For example, rather than fabricating a product from solid blocks, additive manufacturing may build a three-dimensional model utilizing fine powder, various metals, polymers, and composite materials as raw materials for constructing a 3D model with a three-dimensional printer. Additive Manufacturing in Education Additive manufacturing is reshaping the educational industry by introducing a new teaching trend and transforming the classroom experience for students. It is being used in various disciplines, including engineering, architecture, medicine, graphic design, geography, history, and even chemistry. They may produce prototypes, three-dimensional models, and historical objects, among other things. Thus, technology enables learners to get more practical information about their respective courses directly on the floor. How has General Electric (GE) been pioneering the use of Additive Manufacturing for 20 years? GE's primary competency is additive manufacturing (3D printing), and the company has made significant investments in the technology. It utilizes additive technology to manufacture a range of components for aviation and other sectors. This article will look at one of their manufacturing case studies and how additive technology enabled them to get the desired result from the end product. CASE STUDY: OPTISYS Optisys modified a vast, multi-part antenna assembly into a palm-sized, lighter, one-piece additive metal antenna. The antenna's aluminum material was chosen because of its surface conductivity, low weight, corrosion resistance, and stress and vibration resistance. Optisys was able to break even on machine acquisition within one year after acquiring its first Direct Metal Laser Melting (DMLM) equipment by utilizing additive technologies. (Source: General Electric) Benefits and Outcomes Non-recurring expenditures were reduced by 75%. Weight loss of 95% The size was reduced by 80%. Part-to-part reduction of 100-to-1 Cycle duration shortened from 11 to 2 months 5 product lines were created for AM, a new market growth Final Words Additive manufacturing benefits a wide variety of businesses. Industries must recognize the advantages of additive manufacturing and begin using the technology in their manufacturing processes to cut production time and costs while increasing product accuracy. This game-changing expansion of the additive manufacturing market across several industries is upgrading both products and production processes. FAQs How do you define additive manufacturing? Additive manufacturing (AM), more generally referred to as 3D printing, is a ground-breaking manufacturing technique that enables the creation of lighter, more robust components and systems. As the name implies, additive manufacturing is adding material to an item to create it. Is additive manufacturing the same as 3D printing? Both terms are interchangeable. Additive manufacturing and 3D printing manufacture components by connecting or adding material from a CAD file. Which companies specialized in additive manufacturing? American Additive Manufacturing, Forecast 3D, Sciaky, Inc., 3 Axis Development, Inc., Jonco Industries, Inc., Polyhistor International, Inc., and Caelynx, LLC are renowned companies for additive manufacturing in the United States of America. { "@context": "https://schema.org", "@type": "FAQPage", "mainEntity": [{ "@type": "Question", "name": "How do you define additive manufacturing?", "acceptedAnswer": { "@type": "Answer", "text": "Additive manufacturing (AM), more generally referred to as 3D printing, is a ground-breaking manufacturing technique that enables the creation of lighter, more robust components and systems. 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2022: The Year of Robotics Industry Expansion

Article | November 12, 2021

Robotics industry growth has accelerated rapidly across several industries. It has aided manufacturers in overcoming numerous barriers related to real-time communication, workplace safety, and overall manufacturing cost and timeliness. However, if we trace its history back to 1961 when George Charles Devol introduced the first robot, dubbed 'UNIMATE,' it has exponentially grown and utilized across sectors to make operations more effortless, precise, and faster. “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. However, the industry has seen snags or difficult times due to market fluctuations, unfavorable situations, and the need to remain competitive in the drive for expansion. To thoroughly understand the robotics industry, let us examine each component that surrounds it. Industrial Robotics Global Market Size According to recent Allied Market Research studies, the global industrial robotics market was worth $37,875 million in 2016 and is expected to reach $70,715 million by 2023, rising at a 9.4% compound annual growth from 2017 to 2023. Industrial Robotics Market Analysis The global industrial robotics market is primarily driven by a global increase in labor costs, which has compelled firms to replace human labor with robots. As a result, Asia and Europe are the world's fastest-growing areas, with top companies such as ABB, Fanuc, KUKA, Kawasaki, and Yaskawa Electric Corporation headquartered in the region. The global market of robotics has been segmented by its type, industry, and function. Type Industry Function Articulated Automotive Soldering and Welding Cartesian Electrical & Electronics Materials Handling SCARA Healthcare & Medicine Assembling & Disassembling Cylindrical Rubber & Plastics Painting and Dispensing Others if any Machinery & Metals Cutting and Processing Food & Beverages Milling Precision & Optics Others if any Others if any Industries That Are Pioneering the Use of Robotics As we have observed, the global robotic market will continue to rise in the future years. Therefore, let us examine which industries will extend their use of robotics in their operations. Healthcare & Medicine Medical robots help surgeons optimize hospital logistics and free up the working staff to focus on patients. In the healthcare field, robots are revolutionizing surgery by speeding supply delivery and disinfection and freeing up time for doctors to interact with their patients. da Vinci System – A General Surgical Robot The da Vinci System is a surgical robot that focuses on a wide range of urological, bariatric, and gynecological surgical treatments. In addition, Stryker's MAKO System also specializes in orthopedic surgery, specifically partial and total knee replacements. The da Vinci SP system is cleared for use in the United States exclusively for single-port urological procedures, lateral oropharyngectomy (often referred to as radical tonsillectomy), and tongue base excision. Law Enforcement Police robots are meant to gain access to areas inaccessible or dangerous to first responders, and they are capable of manipulating items and gathering data using several technologies. It encompasses robots capable of operating in various conditions and displaying a range of data and communication capabilities. Agriculture & Food Industry Farm equipment is now routinely equipped with sensors that utilize machine learning and robotics to identify weeds, compute the appropriate quantity of herbicide to spray, or learn to detect and pick strawberries, for instance. Additionally, in the food business, robotics has been used to do repetitive tasks such as picking and placing food items and cutting and slicing food items during any given food item. For instance, the modern bakery business uses robotics to perform traditional craft skills and produce any product in large quantities while maintaining high quality and hygiene standards. Transportation The transportation sector is highly leveraging robotics. The powerful transport capability, advanced control technology, and sensing precision are some of the benefits that make the transportation robots widely utilized in this sector. These benefits from robotics help the sector convey various commodities in factories, restaurants, and medical institutions, among other locations. Manufacturing Robots are employed in manufacturing to do repeated jobs and streamline the overall assembly process. Additionally, robots and humans can also collaborate on product making. Robots can replace humans for hazardous tasks or processes that need large quantities of materials, which might be hazardous for a human employee to handle. Factors Sustaining the Growth of the Robotics Industry Reduces Manufacturing Costs: Robotics application in all industries reduces the overall manufacturing process running costs. Improves Product Quality: The precision of robotics throughout the manufacturing process helps produce high-quality items that meet target client needs. Offers Competitive Market: Increased income due to utilizing the benefits of robotics applications makes any industry more competitive. Speed-ups Production Time: Robotics speeds up production and helps manufacturers increase output. Offers Task or Process Flexibility: Robotics can weld, cast, mold, assemble, machine, transfer, inspect, load, and unload items, among other duties. So, it gives the manufacturer process flexibility. Reduces Excessive Use and Waste of Production Materials: Robotics employs the exact quantity of material required for the manufactured product, reducing waste and overuse of materials. Offers a Safe Working Place: Robotics improves employee health and safety by performing tasks that humans find risky. For example, in the chemical industry, a human employee may not do a hazardous task. In such instances, robots can replace people. Final Words The rise of the robotics industry has accelerated dramatically, and it is now spreading its wings across industries. Research firm IDC provided a projection for the commercial robot market, forecasting that the market will exceed $53 billion by 2022, with a compound annual growth rate of more than 20%. In addition, several advantages of robotics such as safety, productivity, uniformity, and perfection are pushing its expansion and making it an essential element of industry 4.0. FAQs Why are robots the future of the manufacturing industry? The use of robots in manufacturing has improved process efficiency and product quality. As a result, robots are gaining favor in production and becoming the future of manufacturing. Which industries make the most use of robotics? Healthcare, agriculture, food, and manufacturing are the industries that are embracing robotics to get the most out of it. How is manufacturing utilizing robotics? Manufacturing uses robotics for repetitive tasks. This helps in the reduction of errors and human efforts. It also improves production efficiency. { "@context": "https://schema.org", "@type": "FAQPage", "mainEntity": [{ "@type": "Question", "name": "Why are robots the future of the manufacturing industry?", "acceptedAnswer": { "@type": "Answer", "text": "The use of robots in manufacturing has improved process efficiency and product quality. As a result, robots are gaining favor in production and becoming the future of manufacturing." } },{ "@type": "Question", "name": "Which industries make the most use of robotics?", "acceptedAnswer": { "@type": "Answer", "text": "Healthcare, agriculture, food, and manufacturing are the industries that are embracing robotics to get the most out of it." } },{ "@type": "Question", "name": "How is manufacturing utilizing robotics?", "acceptedAnswer": { "@type": "Answer", "text": "Manufacturing uses robotics for repetitive tasks. This helps in the reduction of errors and human efforts. It also improves production efficiency." } }] }

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Corporate Citizenship and Industrial Investment in Uganda: Key to Accessing Significant Affordable Workforce

Article | June 28, 2021

Manufacturing journalist Thomas R. Cutler visited the remarkable and magnificent country of Uganda. Foreign investment is coming into the country and that is a good thing; it is not however, enough. To tap into this workforce corporate citizenship and contribution is essential. Just as I underestimated the stamina needed to climb the mountain to experience the gorillas, the role of transforming Uganda requires a careful, well-thought approach.

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How Smart Manufacturing Is Powered by Digital Twin Technology?

Article | December 8, 2021

A digital twin is a virtual model of an object or system that comprises its lifecycle. It is updated with real-time data and aids decision-making through simulation, machine learning, and reasoning for the production system. IoT sensor data from the original object is used to create a digital twin of the system. This cloud-connected data allows engineers to monitor systems and model system dynamics in real-time. Modifications can be tested on the digital twin before making changes to the original system. Considering that digital twins are supposed to replicate a product's complete lifecycle and are used throughout the production process, it's not unexpected that digital twins have become prevalent in all stages of manufacturing. “More than a blueprint or schematic, a digital twin combines a real-time simulation of system dynamics with a set of executive controls,” – Dr. Daniel Araya, consultant and advisor with a special interest in artificial intelligence, technology policy, and governance Companies will increasingly embrace digital twins to boost productivity and decrease expenses. As per recent research by Research and Markets, nearly 36% of executives across industries recognize the benefits of digital twinning, with half planning to implement it by 2028.So how does this digital twin technology benefit modern manufacturing? Let's have a look. How the Digital Twin Drives Smart Manufacturing Digital twins in manufacturing are used to replicate production systems. Manufacturers can develop virtual representations of real-world products, equipment, processes, or systems using data from sensors connected to machines, tools, and other devices. In manufacturing, such simulations assist in monitoring and adapting equipment performance in real-time. With machine learning techniques, digital twins can predict future events and anticipate potential difficulties. For maintenance, digital twins allow for quick detection of any problems. They collect real-time system data, prior failure data, and relevant maintenance data. The technique employs machine learning and artificial intelligence to predict maintenance requirements. Using this data, companies can avoid production downtime. Digital Twin and Artificial Intelligence (AI) in manufacturing Using digital twins and AI in production can enhance uptime by predicting potential failures and keeping equipment working smoothly. In addition, there are significant cost savings in the planning and design process as digital twins and AI can be used to replicate a specific scenario. Maintenance is another area that has seen significant progress with the use of digital twin manufacturing. A Digital Twin powered by AI can predict when a piece of equipment will fail, allowing you to arrange predictive maintenance that is not simply taking information from OEM manuals but can significantly cut maintenance expenses along with reducing downtime. Using the digital twin, it is feasible to train virtual workers in high-risk functions, similar to how pilots are trained using flight simulators. It also frees up highly skilled workers to upgrade the plant and streamline operations. General Electric Created the Most Advanced Digital Twin General Electric Company (GE) is a multinational business based in Boston that was founded in 1892. It has developed the world's most advanced digital twin, which blends analytic models for power plant components that monitor asset health, wear, and performance with KPIs (Key Performance Indicators) determined by the customer and the organization's objectives. The Digital Twin is powered by PredixTM, an industrial platform built to manage huge amounts of data and run analytic algorithms. General Electric Company provides extra "control knobs" or "dimensionality" that can be utilized to improve the operation of the system or asset modeled with GE Digital Twin. Final Words Given the numerous advantages of digital twin manufacturing, the potential for digital twins to be used in manufacturing is virtually endless in the near future. There will be a slew of new advancements in the field of digital twin manufacturing. As a result, digital twins are continually acquiring new skills and capabilities. The ultimate goal of all of these enhancements is to create the insights necessary to improve products and streamline processes in the future. FAQ What is a digital twin in manufacturing? The digital twins could be used to monitor and enhance a production line or perhaps the whole manufacturing process, from product design to production. How digital twin benefit manufacturers? Using digital twins to represent products and manufacturing processes, manufacturers can save assembly, installation, and validation time and costs. What is a digital thread? A digital twin is a realistic version of a product or system that replicates a company's equipment, controls, workflows, and systems. The digital thread, on the other hand, records a product's life cycle from creation to dissolution. { "@context": "https://schema.org", "@type": "FAQPage", "mainEntity": [{ "@type": "Question", "name": "What is a digital twin in manufacturing?", "acceptedAnswer": { "@type": "Answer", "text": "The digital twins could be used to monitor and enhance a production line or perhaps the whole manufacturing process, from product design to production." } },{ "@type": "Question", "name": "How digital twin benefit manufacturers?", "acceptedAnswer": { "@type": "Answer", "text": "Using digital twins to represent products and manufacturing processes, manufacturers can save assembly, installation, and validation time and costs." } },{ "@type": "Question", "name": "What is a digital thread?", "acceptedAnswer": { "@type": "Answer", "text": "A digital twin is a realistic version of a product or system that replicates a company's equipment, controls, workflows, and systems. The digital thread, on the other hand, records a product's life cycle from creation to dissolution." } }] }

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Spotlight

Hikvision

Hikvision is the world’s leading supplier of video surveillance products and solutions. Featuring the industry’s strongest R&D workforce, Hikvision uses its state-of-the-art manufacturing facilities to design and develop innovative CCTV and video surveillance products. The company’s complete product suite includes Smart IP cameras, HD analog cameras, speed domes, NVRs, DVRs, video management software, access control and alarm systems, encoders, decoders, and other elements of sophisticated security systems. Hikvision products serve a diverse set of vertical markets that includes retail, banking and finance, transportation, education, commercial, government, and residential applications.

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