IP protection and entitlement management across the digital manufacturing chain

JOHN POULSON| April 02, 2020
IP PROTECTION AND ENTITLEMENT MANAGEMENT ACROSS THE DIGITAL MANUFACTURING CHAIN
Since the first 3D printing machine was unveiled back in 1984, industrial use was the main focus. However, it was not until early patents expired in 2009 and consumer models came to market that industry discovered several new and innovative ways to use 3D printers. The result? Industries from healthcare through automotive and aerospace manufacturing now integrate 3D printing into all aspects of parts manufacturing. Such integration incudes R&D, design prototyping, and now even multi-material parts on demand.

Spotlight

Endevco

Founded in 1947, Endevco Corporation has grown from a small research and development firm to an international corporation, supporting customers with a global network of manufacturing and research facilities, sales offices and field engineers. For 60 years Endevco has been providing the most trusted solutions for the world’s most challenging measurement applications.

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Computer Aided Manufacturing (CAM): Major Challenges and Their Solutions

Article | December 16, 2021

Computer-aided manufacturing (CAM) is a technology that revolutionized the manufacturing business. Pierre Bézier, a Renault engineer, produced the world's first real 3D CAD/CAM application, UNISURF CAD. His game-changing program redefined the product design process and profoundly altered the design and manufacturing industries. So, what is CAM in its most basic definition? Computer-aided manufacturing (CAM) is the application of computer systems to the planning, control, and administration of manufacturing operations. This is accomplished by using either direct or indirect links between the computer and the manufacturing processes. In a nutshell, CAM provides greater manufacturing efficiency, accuracy, and consistency. 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 In light of the numerous advantages and uses of computer-aided manufacturing, manufacturers have opted to use it extensively. The future of computer-aided manufacturing is brightening due to the rapid and rising adoption of CAM. According to Allied Market Research, the global computer-aided manufacturing market was worth $2,689 million in 2020 and is expected to reach $5,477 million by 2028, rising at an 8.4% compound annual growth rate between 2021 and 2028. Despite all this, each new development has benefits and challenges of its own. In this article, we'll discuss the benefits of CAM, the challenges that come with it, and how to deal with them. Let's start with the advantages of computer-aided manufacturing. Benefits of Computer Aided Manufacturing (CAM) There are significant benefits of using computer-aided manufacturing (CAM). CAM typically provides the following benefits: Increased component production speed Maximizes the utilization of a wide variety of manufacturing equipment Allows for the rapid and waste-free creation of prototypes Assists in optimizing NC programs for maximum productivity during machining Creates performance reports automatically As part of the manufacturing process, it integrates multiple systems and procedures. The advancement of CAD and CAM software provides visual representation and integration of modeling and testing applications. Greater precision and consistency, with similar components and products Less downtime due to computer-controlled devices High superiority in following intricate patterns like circuit board tracks Three Challenges in CAM and Their Solutions We have focused on the three primary challenges and their solutions that we have observed. Receiving Incomplete CAD Updates Receiving insufficient CAD updates is one of the challenges. If, for example, the part update from a CAD engineer does not include the pockets that are required in the assembly, to the CAM engineer. SOLUTION: A modeler that enables developers of a CAM programs to create intuitive processes for features such as feature extraction and duplication across CAD version updates. A modeler is capable of recognizing and extracting the pocket's architecture and the parameters that define it. Additionally, the CAM application can enable the engineer to reproduce the pocket in a few simple steps by exploiting the modeler's editing features such as scaling, filling, extruding, symmetrical patterning, and removing. Last Minute Design Updates The second major challenge is last-minute design changes may impact manufacturers as a result of simulation. SOLUTION: With 3D software components, you may create applications in which many simulation engineers can work together to make design modifications to the CAD at the same time, with the changes being automatically merged at the end. Challenging Human-driven CAM Manufacturing The third major challenge we have included is that CAM engineers must perform manual steps in human-driven CAM programming, which takes time and requires expert CAM software developers. Furthermore, when the structure of the target components grows more complicated, the associated costs and possibility of human failure rise. SOLUTION: Self-driving CAM is the best solution for this challenge. Machine-driven CAM programming, also known as self-driving CAM, provides an opportunity to improve this approach with a more automated solution. Preparing for CAM is simple with the self-driving CAM approach, and it can be done by untrained operators regardless of part complexity. The technology handles all of the necessary decisions for CAM programming operations automatically. In conclusion, self-driving CAM allows for efficient fabrication of bespoke parts, which can provide substantial value and potential for job shops and machine tool builders. Computer Aided Manufacturing Examples CAM is widely utilized in various sectors and has emerged as a dominant technology in the manufacturing and design industries. Here are two examples of sectors where CAM is employed efficiently and drives solutions to many challenges in the specific business. Textiles Virtual 3D prototype systems, such as Modaris 3D fit and Marvellous Designer, are already used by designers and manufacturers to visualize 2D blueprints into 3D virtual prototyping. Many other programs, such as Accumark V-stitcher and Optitex 3D runway, show the user a 3D simulation to show how a garment fits and how the cloth drapes to educate the customer better. Aerospace and Astronomy The James Webb Space Telescope's 18 hexagonal beryllium segments require the utmost level of precision, and CAM is providing it. Its primary mirror is 1.3 meters wide and 250 kilograms heavy, but machining and etching will reduce the weight by 92% to just 21 kilograms. FAQ What is the best software for CAM? Mastercam has been the most extensively utilized CAM software for 26 years in a row, according to CIMdata, an independent NC research business. How CAD-CAM helps manufacturers? Customers can send CAD files to manufacturers via CAD-CAM software. They can then build up the machining tool path and run simulations to calculate the machining cycle times. What is the difference between CAD and CAM? Computer-aided design (CAD) is the process of developing a design (drafting). CAM is the use of computers and software to guide machines to build something, usually a mass-produced part.

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Top 5 Manufacturing Applications of Machine Vision

Article | October 20, 2021

Machine vision is becoming increasingly prevalent in manufacturing daily across industries. The machine vision manufacturing practice provides image-based automated inspection and analysis for various applications, including automatic inspection, process control, and robot guiding, often found in the manufacturing business. This breakthrough in manufacturing technology enables producers to be more innovative and productive to meet customer expectations and deliver the best products on the market. A renowned industry leader Mr. Matt Mongonce conveyed in an interview with Media7, 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. Why is Machine Vision so Critical? The machine vision manufacturing process is entirely automated, with no human intervention on the shop floor. Thus, in a manufacturing process, machine vision adds significant safety and operational benefits. Additionally, it eliminates human contamination in production operations where cleanliness is critical. For instance, the healthcare business cannot afford human contamination in some circumstances to ensure the safety of medicines. Second, the chemical business is prohibited from allowing individuals to come into touch with chemicals for the sake of worker safety. Thus, machine vision is vital in these instances, so it is critical to integrate machine vision systems into your production process. Machine Vision Application Examples To better understand how businesses are utilizing machine vision in production, we will look at five cases. Predictive Upkeep Even a few seconds of production line downtime might result in a significant financial loss in the manufacturing industry. Machine vision systems are used in industrial processes to assist manufacturers in predicting flaws or problems in the production line before the system failure. This machine vision capability enables manufacturing processes to avoid breakdowns or failures in the middle of the manufacturing process. How is FANUC America Corporation Avoiding the Production Line Downtime with ROBOGUIDE and ZDT? FANUC is a United States-based firm that is a market leader in robotics and ROBOMACHINE technology, with over 25 million units deployed worldwide. In addition, the company's professionals have created two products that are pretty popular in the manufacturing industry: ROBOGUIDE and ZDT (Zero Down Time). These two standout products assist manufacturers in developing, monitoring, and managing production line automation. As a result, producers can enhance production, improve quality, and maximize profitability while remaining competitive. Inspection of Packages To ensure the greatest possible quality of products for their target consumer groups, manufacturers must have a method in place that enables them to inspect each corner of their product. Machine vision improves the manufacturing process and inspects each product in detail using an automated procedure. This technology has been used in many industries, including healthcare, automation, and electronics. Manufacturers can detect faults, cracks, or any other defect in the product that is not visible to the naked eye using machine vision systems. The machine vision system detects these faults in the products and transmits the information to the computer, notifying the appropriate person during the manufacturing process. Assembly of Products and Components The application of machine vision to industrial processes involves component assembly to create a complete product from a collection of small components. Automation, electronics manufacturing, healthcare (medicine and medical equipment manufacturing), and others are the industries that utilize the machine vision system in their manufacturing process. Additionally, the machine vision system aids worker safety during the manufacturing process by enhancing existing safety procedures. Defect Elimination Manufacturers are constantly endeavoring to release products that are devoid of flaws or difficulties. However, manually verifying each product is no longer practicable for anybody involved in the manufacturing process, as production counts have risen dramatically in every manufacturing organization. This is where machine vision systems come into play, performing accurate quality inspections and assisting producers in delivering defect-free items to their target clients. Barcode Scanning Earlier in the PCB penalization process, where numerous identical PCBs were made on a single panel, barcodes were used to separate or identify the PCBs manually by humans. This was a time-consuming and error-prone process for the electronics manufacturing industry. This task is subsequently taken over by a machine vision system, in which each circuit is segregated and uniquely identified using a robotics machine or a machine vision system. The high-tech machine vision system "Panel Scan" is one example of a machine vision system that simplifies the PCB tracing procedure. Final Words The use of machine vision in the manufacturing business enables firms to develop more accurate and complete manufacturing processes capable of producing flawless products. Incorporating machine vision into manufacturing becomes a component of advanced manufacturing, which is projected to be the future of manufacturing in 2022. Maintain current production trends and increase your business revenue by offering the highest-quality items using a machine vision system. FAQ What is the difference between computer vision and machine vision? Traditionally, computer vision has been used to automate image processing, but machine vision is applied to real-world interfaces such as a factory line. Where does machine vision come into play? Machine vision is critical in the quality control of any product or manufacturing process. It detects flaws, cracks, or any blemishes in a physical product. Additionally, it can verify the precision and accuracy of any component or part throughout product assembly. What are the fundamental components of a machine vision system? A machine vision system's primary components are lighting, a lens, an image sensor, vision processing, and communications. { "@context": "https://schema.org", "@type": "FAQPage", "mainEntity": [{ "@type": "Question", "name": "What is the difference between computer vision and machine vision?", "acceptedAnswer": { "@type": "Answer", "text": "Traditionally, computer vision has been used to automate image processing, but machine vision is applied to real-world interfaces such as a factory line." } },{ "@type": "Question", "name": "Where does machine vision come into play?", "acceptedAnswer": { "@type": "Answer", "text": "Machine vision is critical in the quality control of any product or manufacturing process. It detects flaws, cracks, or any blemishes in a physical product. 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Is Additive Manufacturing the Key to Restore American Manufacturing?

Article | November 20, 2021

Additive manufacturing in America plays a significant part in reviving the manufacturing industry and establishing the country as a leader in applying additive manufacturing technology. The United States was formerly the industrial leader, but it fell out of favor between 2000 and 2010 for many reasons, including recession and structural and financial instability. In this challenging time, technology interventions such as additive manufacturing in the manufacturing business have allowed the industry to survive. As per the recent report by A.T. Kearney, the USA, the industry leader in manufacturing, has worked hard to reclaim its top position in manufacturing and has also been named the leader in additive manufacturing. Let's look at which fields of America are utilizing the benefits of additive manufacturing technology to reclaim its position as the industry leader. Additive Manufacturing in America The manufacturing industry is gravitating toward additive manufacturing, sometimes known as 3D printing. The numerous advantages of additive manufacturing, such as the reduction of material waste, the reduction of prototyping time, the reduction of prototyping costs, the creation of lightweight objects, and the ease with which it can be implemented and recreated, are making it more popular around the world, including in the United States. In the United States, the additive manufacturing and material industry is expected to be worth $4.1 billion by 2020. China is the world's second-largest economy and is expected to reach a projected market size of US$14.5 billion by 2027, with a CAGR of 27.2 percent from 2020 to 2027. How does America Leverage the Additive Manufacturing? US Airforce has launched research into 3D printing The US Air Force has begun researching 3D printing replacement parts for old planes utilizing a 3D printing platform. The project initiative credit goes to 3D Systems, Lockheed Martin, Orbital ATK, and Northrop Grumman. America Makes will observe the project in its third stage and be led by the University of Dayton Research. The Air Force Laboratory financed the Maturation of Advanced Manufacturing for Low-Cost Sustainment (MAMLS) program. The US Air Force will investigate how the 3D printing technology may reproduce components for outdated aircraft. Using additive manufacturing, the replacement parts may be created faster and in smaller batches, with no minimum order quantity. In addition, applying additive manufacturing will reduce the aircraft ground time and eliminate the need for parts warehousing. American Manufacturing Companies and Additive Manufacturing 3D Systems, Inc. 3D Systems is an additive manufacturing company. Their work goes beyond prototyping. The company's experts use their deep domain expertise in aerospace and healthcare industries to produce competitive additive manufacturing solutions. This global leader in additive manufacturing helps you define business needs, verify manufacturing flow, and scale manufacturing flow. General Electric GE has seen the benefits of additive manufacturing and its options for product design, such as the potential to build lighter, more vital components and systems. As a result, they created goods that are better performing, more sophisticated in design, and easier to produce. Ford Ford's advanced manufacturing center in Michigan is all about additive manufacturing. The company employs 3D printing extensively in product development and is looking to integrate it into manufacturing lines. As a result, additive manufacturing is now a critical aspect of the Ford product development cycle, enabling prototype parts and product engineering exercises. Final Words The American manufacturing industry has experienced a renaissance as a result of the advent of additive manufacturing. Additionally, it has built its national accelerator and leading collaborative partner in additive manufacturing, "America Makes," which is the largest manufacturing industryglobally in terms of revenue and operates in a variety of areas. However, it is mainly focused on 3D printing or additive manufacturing, which is undoubtedly reviving the country's manufacturing sector. FAQ What are the significant challenges in additive manufacturing? Limitations in terms of size, consistency of quality, scalability, a limited variety of materials and high material costs, and limited multi-material capabilities are only a few of the prevalent issues associated with additive manufacturing technology. Which company is leading in additive manufacturing technology in the USA? 3D Systems Corp. is the leading company in additive manufacturing technology with a revenue of $566.6 million. { "@context": "https://schema.org", "@type": "FAQPage", "mainEntity": [{ "@type": "Question", "name": "What are the significant challenges in additive manufacturing?", "acceptedAnswer": { "@type": "Answer", "text": "Limitations in terms of size, consistency of quality, scalability, a limited variety of materials and high material costs, and limited multi-material capabilities are only a few of the prevalent issues associated with additive manufacturing technology." } },{ "@type": "Question", "name": "Which company is leading in additive manufacturing technology in the USA?", "acceptedAnswer": { "@type": "Answer", "text": "3D Systems Corp. is the leading company in additive manufacturing technology with a revenue of $566.6 million." } }] }

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What are the Risks that Manufacturing Face in the Current Times?

Article | December 30, 2021

Risk management in manufacturing has always been a top priority for manufacturers to avoid any unfortunate incidents. As a result, it is possible to create a more secure work environment for employees by conducting risk assessments and implementing remedies. “If you don’t invest in risk management, it doesn’t matter what business you’re in, it’s a risky business.” – Gary Cohn, an American Business Leader. As of 2019, the worldwide risk management market was valued at $7.39 billion, and it is expected to rise at a CAGR of 18.7% from 2020 to 2027, according to allied market research. Why is Risk Assessment Critical in Manufacturing? The manufacturing industry must have a credible risk assessment and management plan to defend itself from any breaches. Risk assessment helps firms understand the dangers they face and their implications if their systems are compromised. Hence, risk assessment is very critical in the manufacturing industry. Five Risk Assessment Principles Identify hazards/risks - Employers must examine their workers' health and safety risks. Therefore, an organization must regularly inspect its employee’s physical, mental, chemical, and biological threats. Identify who may be hurt and in what way – Identifying the personnel both full-time and part-time at-risk. Employers must also examine threats to agency and contract personnel, visitors, clients, and other visitors. Assess the risks and act accordingly - Employers must assess the likelihood of each danger causing injury. This will evaluate and lower the chance at the working space. Even with all safeguards, there is always some danger. Therefore, employers must assess if danger is still high, medium, or low risk. Get the Risks Documented - Employers with five or more employees must record the critical findings of the risk assessment in writing. In addition, register any risks identified in the risk assessment and actions to minimize or eliminate risk. This document confirms the evaluation and is used to examine working practices afterward. The risk assessment is a draft. It should be readable. It shouldn't be hidden away. The risk assessment must account for changes in working techniques, new machinery, or higher work objectives. 5 Manufacturing Risks to Consider in 2022 Accidents at Work Even if official safety policies and programs are designed, followed, and enhanced, manufacturers may endure workplace accidents and injuries. Risk assessment for workplace accidents assists in mitigating the negative impact on both employees and the organization. Environmental Mishaps Manufacturers have distinct issues regarding fuel handling and hazardous waste disposal in facilities. Sudden leaks or spills may be extremely costly to clean up and result in fines from state and federal agencies. Risk assessments for such plant accidents assist businesses in mitigating financial losses. Equipment Breakdowns Essential machinery throughout the production process might fail at any time, incurring significant repair or replacement costs. Therefore, it's critical to recognize that business property insurance may not cover mechanical issues. Risk assessment and prepayment solutions protect against equipment failures without interfering with typical company operations. Supply Chain Disruption Dependence on your supply chain may result in unintended consequences that are beyond your control. For example, if you experience downtime on the manufacturing line due to a supplier's failure to supply materials or parts, you risk losing revenue and profitability. If a disturbance to your supply chain poses a hazard, risk management can assist you in managing it more effectively by quickly identifying the risk and providing a suitable response. Operation Temporarily Suspended Depending on the severity of the weather event, a factory might be severely damaged or perhaps utterly wrecked. While major repairs or rebuilding are being undertaken, recouping lost income might be vital to the business's future profitability. Risk assessment in this area enables your organization to budget for overhead expenditures such as rent, payroll, and tax responsibilities during the period of suspension of operations. Final Words Risk management is critical in manufacturing because it enables manufacturers to comprehend and anticipate scenarios and create a well-planned response that avoids unnecessary overhead costs or delays in delivering the production cycle's final result. Manufacturing risks are undoubtedly not limited to the risks listed above and may vary according to the nature of the business and regional environmental conditions. Therefore, create a well-defined strategy to overcome threats in your business and be productive at all times. FAQ How are manufacturing business risks classified? In most cases, the business risk may be categorized into four types: strategic risk, regulatory compliance risks, operational compliance risks, and reputational risks. Why should a manufacturer conduct a risk assessment? Every manufacturing employment has risks for injury or illness. But risk evaluations can significantly minimize workplace injuries and illnesses. In addition, they assist companies in discovering strategies to reduce health and safety risks and enhance knowledge about dangers.

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Spotlight

Endevco

Founded in 1947, Endevco Corporation has grown from a small research and development firm to an international corporation, supporting customers with a global network of manufacturing and research facilities, sales offices and field engineers. For 60 years Endevco has been providing the most trusted solutions for the world’s most challenging measurement applications.

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