Which Type of 3D Printing Should I Use?

PATTY RASMUSSEN| November 30, 2017
WHICH TYPE OF 3D PRINTING SHOULD I USE?
Additive manufacturing, also known as 3D printing, is generating significant disruption in the manufacturing industry. It’s easy to understand why. The methods used in additive manufacturing are significantly cheaper and less time to consume than traditional manufacturing.

Spotlight

3T RPD Ltd

3T RPD Ltd is a market leader in Additive Manufacturing (AM), also referred to as 3D Printing, producing complex, lightweight and high performance plastic and metal parts that are unachievable by traditional manufacturing methods. We can produce anything from a one-off prototype part for trial and testing through to production runs of end-use components, often in just a matter of days.

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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 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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The Top Five Lean Manufacturing Tools for 2022

Article | December 13, 2021

Lean manufacturing is a growing trend that aims to reduce waste while increasing productivity in manufacturing systems. But, unfortunately, waste doesn't add value to the product, and buyers don't want to pay for it. This unusual method pushed Toyota Motor Corporation's industry to become a leading Toyota Production System (TPS). As a result, they are now efficiently producing some of the world's top cars with the least waste and the quickest turnaround. The majority of manufacturers are now using lean management. According to the 2010 Compensation Data Manufacturing report, 69.7% of manufacturing businesses use Lean Manufacturing Practices. Lean tools are the ones that help you in implementing lean practice in your organization. These lean tools assist in managing people and change while solving problems and monitoring performance. Lean Manufacturing technologies are designed to reduce waste, improve flow, improve quality control, and maximize manufacturing resources. What Are the Five Best Lean Manufacturing Tools and How Do They Work? There are roughly 50 Lean Manufacturing tools available in the market. This post will describe 5 of them and their value to your business and its developments. 5S The 5S system promotes efficiency by organizing and cleaning the workplace. To help increase workplace productivity, the system has five basic guidelines (five S's). The five Ss are Sort, Set, Shine, Standardize, and Sustain. 5S improves workplace efficiency and effectiveness by: Sort: Removing unnecessary material from each work area Set: Set the goal of creating efficient work areas for each individual Shine: Maintaining a clean work area after each shift helps identify and resolve minor concerns Standardize: Documenting changes to make other work areas' applications more accessible Sustain: Repeat each stage for continuous improvement 5S is a lean tool used in manufacturing, software, and healthcare. Kaizen and Kanban can be utilized to produce the most efficient workplace possible. Just-In-Time (JIT) manufacturing Just-in-time manufacturing allows manufacturers to produce products only after a customer requests them. This reduces the risk of overstocking or damaging components or products during storage. Consider JIT if your company can operate on-demand and limit the risk of only carrying inventory as needed. JIT can help manage inventory, but it can also hinder meeting customer demand if the supply chain breaks. Kaizen With Kaizen, you may enhance seven separate areas at once: business culture, leadership, procedures, quality, and safety. Kaizen is a Japanese word, means "improvement for the better" or "constant improvement." “Many companies are not willing to change or think they are done once they make a change. But the truth is technology; consumer demands, the way we work, human needs and much more are constantly changing.” – Michael Walton, Director, Industry Executive at Microsoft The idea behind Kaizen is that everyone in the organization can contribute suggestions for process improvement. Accepting everyone's viewpoints may not result in significant organizational changes, but minor improvements here and there will add up over time to substantial reductions in wasted resources. Kanban Kanban is a visual production method that delivers parts to the production line as needed. This lean tool works by ensuring workers get what they need when they need it. Previously, employees used Kanban cards to request new components, and new parts were not provided until the card asked them to. In recent years, sophisticated software has replaced Kanban cards to signal demand electronically. Using scanned barcodes to signify when new components are needed, the system may automatically request new parts. Kanban allows businesses to manage inventory better, decrease unnecessary stock, and focus on the products that must be stored. To reduce waste and improve efficiency, facilities can react to current needs rather than predict the future. Kanban encourages teams and individuals to improve Kanban solutions and overall production processes like Kaizen. Kanban as a lean tool can be used with Kaizen and 5S. PDCA (Plan, Do, Check, Act) Plan-Do-Check-Act (PDCA) is a scientific strategy for managing change. Dr. W. Edwards Deming invented it in the 1950s; hence, it is called the ‘Deming Cycle.’ The PDCA cycle has four steps: Problem or Opportunity: Determine whether a problem or an opportunity exists Do: Make a small test Examine: Look over the test results Act: Take action depending on results How Nestlé Used the Kaizen Lean Manufacturing Tool Nestlé is the largest food corporation in the world, yet it is also a company that practices Lean principles, particularly the Kaizen method. Nestlé Waters used a technique known as value stream mapping, which is frequently associated with Kaizen. They designed a new bottling factory from scratch to guarantee that operations were as efficient as possible. Nestlé has been aiming to make ongoing changes to their processes to reduce waste and the amount of time and materials that can be wasted during their operations. Final Words Lean manufacturing techniques enable many businesses to solve their manufacturing difficulties and become more productive and customer-centric. In addition, useful lean manufacturing tools assist companies in obtaining the anticipated outcomes and arranging their operations in many excellent ways to meet buyer expectations. Hence, gather a list of the top lean manufacturing tools and choose the best fit for your organization to maximize your ROI and address the performance issue that is causing your outcomes to lag. FAQ What are the standard tools in lean manufacturing? Among the more than 50 lean manufacturing tools, Kaizen, 5S, Kanban, Value Stream Mapping, and PDCA are the most commonly used lean manufacturing tools. How to Select the Best Lean Manufacturing Tools for Your Business? Choosing a lean manufacturing tool begins with identifying the issue or lag in your organization that affects overall productivity and work quality. To select the lean device that best meets your company's needs, you must first grasp each one's benefits and implementation techniques. What is included in a Lean 5S toolkit? The lean 5S toolbox contains some essential items for achieving the goal. It comes with a notepad or tablet, a camera, a high-quality flashlight, a tape measure, and a stopwatch. { "@context": "https://schema.org", "@type": "FAQPage", "mainEntity": [{ "@type": "Question", "name": "What are the standard tools in lean manufacturing?", "acceptedAnswer": { "@type": "Answer", "text": "Among the more than 50 lean manufacturing tools, Kaizen, 5S, Kanban, Value Stream Mapping, and PDCA are the most commonly used lean manufacturing tools." } },{ "@type": "Question", "name": "How to Select the Best Lean Manufacturing Tools for Your Business?", "acceptedAnswer": { "@type": "Answer", "text": "Choosing a lean manufacturing tool begins with identifying the issue or lag in your organization that affects overall productivity and work quality. 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3 Sales-Driving Manufacturing Marketing Strategies

Article | December 28, 2021

Successful manufacturing marketing strategies are all you need to grow your business and make it visible in every way to your target customer group. Many manufacturers are now becoming vigilant towards B2B marketing and have started forming an individual marketing budget in their annual budgets. “We should quantify marketing to inform what we do – not to decide what we do.” – Rory Sutherland, Vice-Chairman, Ogily As per Statista, nearly half of B2B organizations said they’re planning to boost their content budget in the next year. As a result, B2B marketing for manufacturers must be redesigned and smartly strategized in order to be more effective and fruitful. This article will focus on the significant challenges manufacturers face in B2B marketing and how manufacturers use the three most sales-driven manufacturing marketing strategies. 4 Biggest Marketing Challenges in B2B & Manufacturing Develop Tailored Experiences You have a few seconds to capture the customer's interest. When done correctly, personalization may help. With persistent multi-channel marketing, you may strengthen your brand in target areas. Additionally, an account-based marketing approach enables you to focus on important clients while generating customized content for them. Integrate agile methods to test novel ideas across your business without demanding extensive approval. Further, crowdsourced content, B2B communities, and advocate marketing should be prioritized. Convert Leads into Sales With the right strategy, you may generate more high-quality leads. Relate marketing expenditures to sales and demonstrate the impact of marketing on the bottom line. Align marketing and sales by focusing on the customer's purchasing journey. Increase the quality of your leads, transparency, and collaboration with your partners. Measure Marketing Performance Marketers will be asked to demonstrate ROI and forecast future actions. Proactively calculate the MROI (Marketing Return on Investment) on marketing and sales investments. Determine how to get the most out of your marketing budget by doing more with less. Focus on making data-driven judgments rather than relying on guesswork. Maximize the Marketing Tech Investment As a manufacturer, you have access to a number of tools and resources. You will need to collaborate with your technical team to integrate it. Collaborate with your IT team to effectively adapt, innovate, and apply technology. By integrating current technologies, you can automate and improve marketing campaigns more efficiently. “Marketing professionals have to act as conveners and connect the dots so that there is alignment between stakeholders like sales and operation teams and executive leadership on what products and services will drive growth in any given quarter." – Maliha Aqeel, Director of Global Communication, Fix Network World in conversation with Media7 3 Best B2B Marketing Strategies for Manufacturers That Drive Sales Consider Purchasing an E-commerce Platform Consumer behavior is driving manufacturing transformation, particularly the shift to digital channels. Manufacturers who still handle consumers solely by phone, fax, or email risk losing their loyalty as their worlds and tastes grow increasingly digital. Manufacturers have clearly acknowledged the digital transition in 2021. This year's Manufacturing & E-Commerce Benchmark Report says 98% of manufacturers have, or plan to have, an e-commerce strategy. Moreover, 42% of manufacturers who engaged in e-commerce and digital said it strengthened client connections. How does e-commerce benefit manufacturers? Distributes a customized catalog to your customers Ascertains those spare components are visible It allows customers to customize items online Sells your whole range online Increases your consumer base Focus on the User Experience and Interface (UX/UI) The term "User Experience" refers to all elements of an end user's engagement with a business, its goods, and services. The purpose of user experience is to establish a connection between company objectives and user demands. An engaging user interface or user experience keeps users engaged and consumers pleased. Additionally, it enhances the rate of return on investment (ROI). That is why it is necessary to maintain great UI/UX quality. How does UX/UI benefit manufacturers? Increases the number of conversions Support is less expensive It helps with SEO Brand loyalty is increased Embrace an Omni-channel Strategy Millennials represent 73% of those making buying decisions for companies. Part of this means offering a seamless, consistent shopping experience across a variety of channels. With the right CRM solution, you'll eliminate a lot of the legwork associated with targeting specific buyers. Manufacturers can leverage omni-channel to increase availability, promote sales and traffic, and connect digital touchpoints. How does Omni-channel benefit manufacturers? Supports marketers in developing trust Enhances the user experience with the brand It clarifies a complex subject Final Words Developing a successful manufacturing marketing plan is all that is required to set your organization apart from the competition. Consider thinking outside of the box and developing innovative manufacturing marketing strategies that will surprise your targeted customers and keep you on their minds at all times. B2B marketing for manufacturers has long been a priority, since manufacturers frequently overlook this aspect of their business when they should. Utilize the above-mentioned sales-driven manufacturing marketing methods to assist your organization in growing and reaching the maximum range of target prospects. FAQ What is the goal of business-to-business marketing? B2B marketing's goal is to familiarize other businesses with your brand name and the value of your product or service in order to convert them into clients. How can manufacturers energize their market presence? Manufacturers may boost their market presence by advertising on various social media platforms, opting for native language ads, and partnering with influencers to promote their products or services.

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Spotlight

3T RPD Ltd

3T RPD Ltd is a market leader in Additive Manufacturing (AM), also referred to as 3D Printing, producing complex, lightweight and high performance plastic and metal parts that are unachievable by traditional manufacturing methods. We can produce anything from a one-off prototype part for trial and testing through to production runs of end-use components, often in just a matter of days.

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