NPE Highlights 3D Printing Innovation, Draws Record Attendance

| May 10, 2018
NPE HIGHLIGHTS 3D PRINTING INNOVATION, DRAWS RECORD ATTENDANCE
Protolabs work with PepsiCo created a buzz this week at NPE2018-the plastics manufacturing trade show and conference as part of a special 3D printing technology zone at the event highlighting 3DP innovations. PepsiCo recently looked to Protolabs to create a limited edition mask Pepsi can-only about 250 were manufactured for the world premiere of Black Panther.

Spotlight

Hammond Power Solutions

Hammond Power Solutions Inc. is the North American stand-alone leader for the design and manufacture of standard & custom electrical engineered dry-type transformers. Headquartered in Guelph, Canada, HPS operates out of multiple plants located throughout Canada, U.S., Mexico, Italy, and India.

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Lead Generation for Manufacturers: 5 Effective Techniques That Work

Article | January 4, 2022

Lead generation for manufacturers has always been tough due to a lack of knowledge about new technology and trends that can help them generate more business leads. There are still a lot of small and mid-sized manufacturing companies that rely on antiquated manufacturer lead generation methods. In this article, we'll discuss some proven methods for generating leads that can help you increase your company's sales and improve your overall return on investment. "Don’t think of your lead as "LEADS." Instead, think of them as people who are frustrated because understanding and buying your product is too hard. Your job is to make it easy for them to learn about your product and get started. " —Andy Pitre, VP of Product, HubSpot So let's get started. Factors That Must Be Aligned to Drive New Business Leads Landing Pages Landing pages are mini-websites embedded into your site. To deliver an experience that speaks directly to the user's intent, marketers use landing pages. Create unique landing pages for every industrial lead generation campaign. Calls-To-Action To generate quality leads, you need to have a strong call to action (CTA). CTAs are usually buttons that allow users to submit information, visit a landing page, or download an e-book or white paper. Your CTA must be compelling. Give your prospects a reason to click and remove any barriers to the click. CTAs should be bold, high-contrast, and easily identifiable. Forms Without forms, it is impossible to collect leads. Therefore, visitors will be asked to fill out forms that collect their contact information in exchange for an offer. Offers Every lead contains a transaction. A company provides a valuable service in exchange for a prospect's contact information. You won't get many leads unless you provide value to your potential customers. This offer comes in the form of an e-book, consultation, coupon code, or whitepaper. To generate more leads, make compelling offers. Website The above components can't exist if you don't have a website. If you want to emphasize your business, you need to generate quality leads. Why? Because most of today's B2B buyers are millennials, who are highly tech-savvy and increasingly conduct their supplier research online. How to Generate Manufacturing Leads: 5 Effective Techniques Create a Website That Converts "The lead generation process starts by finding out where our target market ‘lives’ on the web." – Wayne Davis Your website should be a trusted source of quality leads. Unfortunately, many companies lose sight of this and develop websites that are cumbersome and difficult to browse, causing a rift between you and your potential customers. Don't expect people to behave if your site doesn't encourage them to act. Your website should have clear "call to action" buttons and lead capture options that allow visitors to contact you in a simple and pleasant way. Additionally, there are website optimization tools available, including PageSpeed Insights, Hotjar, Google Optimize, and WAVE. All of the above-mentioned website optimization tools provide complimentary services. So, this is the most accessible and most reliable approach to generating web leads. Make Descriptive Infographics Infographics are a great way to provide prospects with helpful information while motivating them to contact you. Most importantly, infographics establish your company as a thought leader and unconsciously identify you with industry authority. According to recent surveys, Nearly 41% of respondents indicated that infographics and illustrations are the most effective solutions for achieving their business objectives. On social media, infographics receive three times the number of shares as other types of content. Articles that included infographics received 72% more views than standard articles. A great infographic has a great design. If your organization lacks an in-house graphics team, you can simply locate a freelance designer to create a stunning infographic for you. Your infographics are ageless pieces of material that can be reused for smart marketing and lead generation manufacturing. Here's an example of an infographic from Digital Marketing Philippines from 2019 that received over 1,600 shares and is jam-packed with data and text. In this way, you can see how the company may have gotten its leads from these 1600 shares, each of which is a potential customer. Host an Event According to Bizzabo, 86% of senior management (Senior Managers, Executives, and Board Members) believe that in-person events are critical to the success of their company. The majority of B2B marketers (97%) believe in-person events have a significant impact on achieving business goals. According to Marketing Charts, 68% of B2B marketers agree that in-person events aid in lead generation for manufacturers, while case studies help with lead conversion and acceleration. Improve manufacturing lead generation through events that can occur both online and offline. Organize any kind of event to attract your target market while collecting contact information. Use live events to interact with consumers in real-time, answering questions, addressing objections, learning about your audience, and guiding prospects through the sales funnel. Consider webinars, workshops, seminars, meetups, and conferences. Create a Value-Packed Newsletter "Content is the fuel for your lead generation efforts." – Dayna Rothman According to the Content Marketing Institute, 31% of B2B marketers believe email newsletters are the most effective way to nurture leads. 81% of B2B marketers report that email newsletters are their most frequently used form of content marketing. Create a must-read newsletter that invites interested prospects to engage and remain connected with your company. This enables you to stay top-of-mind with consumers and promote your products and services to move prospects along the sales funnel. The newsletter can have new blog entries, product or service updates, special deals, upcoming events, and recommended reading from other thought leaders. Incorporate SEO into Your Marketing Plan According to Intergrowth, 61% of B2B marketers say SEO and organic traffic generate more leads than any other type of marketing. Search engine leads convert at a rate of 14.6%, while outbound leads (cold calling, direct mail, etc.) convert at a rate of 1.7%. Manufacturers are no exception when it comes to the importance of search engine optimization (SEO). As a result, you may generate many leads with the correct marketing approach and a profound grasp of SEO for manufacturers. Final Words When we consider the statistics explained earlier in this article, we can see the benefits of all of the techniques mentioned and how they can help you increase your lead generation and, as a result, your overall business ROI. Thus, we can refer to the above-mentioned lead generation techniques as sales-driven strategies that will assist you at every lead generation and conversion stage. Improved lead generation for manufacturers enables businesses to reach a vast customer base and generate more high-quality leads. FAQ What is a high-quality lead in manufacturing? Leads of high quality have an increased propensity to convert into paying consumers. The more qualified your leads are, the more likely they will buy your product or service. What are the lead generation challenges? Making accurate data, shaping conversations, and converting qualified leads into sales are some of the significant challenges in manufacturing lead generation.

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Manufacturing Production Planning and Control: What, Why, and How?

Article | January 3, 2022

Production planning and control are critical components of any manufacturing organization. It helps organizations with the regular and timely delivery of their goods. Furthermore, it allows manufacturing businesses to increase their plant’s efficiency and reduce production costs. Numerous software and tools for production scheduling and planning are available on the market, including Visual Planning, MaxScheduler, and MRPeasy, which assist manufacturing organizations in planning, scheduling, and controlling their production. According to KBV Research, the manufacturing operations management software market is anticipated to reach $14.6 billion by 2025 globally, expanding at a market growth of 10.2 percent CAGR during the forecast period. So, what exactly is production planning and control? Production planning is an administrative process within a manufacturing business. It ensures that sufficient raw materials, personnel, and other necessary items are procured and prepared to produce finished products according to the specified schedule. Scheduling, dispatch, inspection, quality control, inventory management, supply chain management, and equipment management require production planning. Production control makes sure that the production team meets the required production targets, maximizes resource utilization, manages quality, and saves money. “Manufacturing is more than just putting parts together. It’s coming up with ideas, testing principles and perfecting the engineering, as well as final assembly.” – James Dyson In oversize factories, production planning and control are frequently managed by a production planning department, which comprises production controllers and a production control manager. More significant operations are commonly monitored and controlled from a central location, such as a control room, operations room, or operations control center. Why Should You Consider Production Planning? An efficient production process that meets the needs of both customers and the organization can only be achieved through careful planning in the early stages of production. In addition, it streamlines both customer-dependent and customer-independent processes, such as on-time delivery and production cycle time. A well-designed production plan minimizes lead time, the period between placing an order and its completion and delivery. The definition of lead time varies slightly according to the company and the type of production planning required. For example, in supply chain management, lead time refers to the time required for parts to be shipped from a supplier. Steps in Production Planning and Control Routing The first stage of production planning determines the path that raw materials will take from their source to the finished product. You will use this section to determine the equipment, resources, materials, and sequencing used. Scheduling It is necessary to determine when operations will occur during the second stage of production planning. In this case, the objectives may be to increase throughput, reduce lead time, or increase profits, among other things. Numerous strategies can be employed to create the most efficient schedule. Dispatching The third and final production control stage begins when the manufacturing process is initiated. When the scheduling plan is implemented, materials and work orders are released, and work is flowing down the production line, the production line is considered to be running smoothly. Follow-Up The fourth stage of manufacturing control ascertains whether the process has any bottlenecks or inefficiencies. You can use this stage to compare the predicted run hours and quantities with the actual values reported to see if any improvements can be made to the processes. Production Planning Example Though production planning is classified into several categories, including flow, mass production, process, job, and batch, we will look at a batch production planning example here. Manufacturing products in batches is known as "batch production planning." This method allows for close monitoring at each stage of the process, and quick correction since an error discovered in one batch can be corrected in the next batch. However, batch manufacturing can lead to bottlenecks or delays if some equipment can handle more than others, so it's critical to consider capacity at every stage. Example Consider the following example of batch production planning: Jackson's Baked Goods is in the process of developing a production plan for their new cinnamon bread. To begin with, the head baker determines the batch production time required by the recipe. He then adjusts the bakery's weekly ingredient orders to include the necessary supplies and schedules the weekly cinnamon bread bake during staff downtime. Finally, he creates a list of standards for the bakery staff to check at each production stage, allowing them to quickly identify any substandard materials or other batch errors without wasting processing time on subpar cinnamon bread. Final Words Running a smooth and problem-free manufacturing operation relies heavily on a precise production planner. Many large manufacturing companies already have a strong focus on streamlining their processes and making the most of every manufacturing operation, but small manufacturing companies still have work to do in this area. As a result, plan, schedule, and control a production that will enable you to run your business in order to meet its objectives. FAQ What is the difference between planning and scheduling in production? Production planning and scheduling are remarkably similar. But, it is critical to note that planning determines what operations need to be done and scheduling determines when and who will do the operations. What is a production plan? A product or service's production planning is the process of creating a guide for the design and manufacture of a given product or service. Production planning aims to help organizations make their manufacturing processes as productive as possible.

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The Unrelenting Growth of Technology in Manufacturing

Article | May 13, 2021

When the manufacturing industry began to embrace digital technology a decade ago, it adopted a new identity — smart manufacturing or Industry 4.0. Applying cloud, automation, analytics, machine learning and big data to production operations created a connected ecosystem for manufacturing and supply chain management, and became a high-growth market. At the start of 2020, the sector was on track to grow into a market worth more than $300 billion in the coming five years. Then the pandemic hit. By spring, millions of workers had lost their jobs. Some plants closed temporarily or slowed production so workers could spread out to maintain a safe distance from one another. Investment in smart manufacturing fell too, by 16 percent between March and April alone. Some researchers predicted that such a pull-back would dampen investment through 2025. But the conversations we’ve had with C-suite manufacturing executives and service providers suggest investment in smart manufacturing will intensify. By 2025, it could be worth more than $400 billion. It’s no wonder.

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How to Overcome the Additive Manufacturing Challenges in Aerospace

Article | December 6, 2021

Aerospace manufacturing and design are getting advanced with additive manufacturing. However, the limitations of traditional manufacturing techniques sometimes make it incompetent to produce technologically oriented products. Additive Manufacturing (AM)helps the aircraft system run more efficiently by creating lightweight aircraft parts. This is one of the reasons that additive manufacturing is gaining traction in aerospace and other industries. According to recent analysis and data, the global additive manufacturing market is expected to grow from USD 9.52 billion in 2020 to USD 27.91 billion in 2028. The expanding technologies and materials used in additive manufacturing will indeed stimulate industry growth shortly. It’s important to note that there isn’t one channel that is the silver bullet. Most of the time, a combination of different channels will help drive a more powerful outcome.” – Wendy Lee, Director of Marketing at Blue Prism However, the aerospace industry encounters some challenges with additive manufacturing, which is the focus of this article. Scalability, multi-material capabilities, professional workers, high-cost materials, and quality compliance norms are all constraints that aerospace professionals are dealing with. Here we will discuss the top three challenges of additive manufacturing in aerospace and their solutions. Future of Additive Manufacturing in the Aerospace Industry Even though additive manufacturing has been around for a while, it has only lately become advanced enough to be used in the aerospace sector. In the aerospace business, additive manufacturing has the potential to deliver significant benefits. Cost savings, design freedom, weight reduction, shorter time to market, fewer waste materials, better efficiency, and on-demand production are just some of the benefits. Although additive manufacturing cannot make every part, it provides an exciting opportunity to explore feasible alternatives, either supplementing or replacing traditional manufacturing processes. However, it must be taken into account early in the development phase. Additionally, knowledge must be embedded in aircraft design teams to ensure the successful use of additive manufacturing. However, in recent years, AM has become more prevalent in end-to-end manufacturing. According to Deloitte University Press, the future of AM in aerospace may include: Directly embedding additively produced electronics Wings printing 3D printing engine parts Making battlefield repair components Top 3 Additive Manufacturing Challenges in the Aerospace Industry and Solutions While problems are inherent in any new technology, experts overcome them by identifying solutions. Let's look at the top three challenges that the aerospace industry is currently facing and the solutions to overcome them. Lack of Qualified Experts Using 3D printers in production and automating work processes are skills that are lacking. However, the obstacles are natural, and the skilled manufacturing workforce is aging and reluctant to adapt to new design models. This is creating the skills gaps surrounding manipulating AM technology. How to Overcome Less time spent educating employees is better for business. For example, the US National Additive Manufacturing Institute and the European ADMIRE initiative offer accelerated courses via remote learning websites. Of course, you'll need to provide numerous additive manufacturing opportunities to attract the key technologists, either on-site or off-site. They will oversee new hires' activities and help them translate their knowledge of 3D printing into designs and final items. Over Budget Material The typical cost of AM equipment is $300,000. Industrial consumables cost between $100 and $150 per item (although the final price is formed after choosing the material; plastic, for example, is the most budget-friendly option). How to Overcome To overcome this obstacle, you must plan a long-term implementation strategy based on the manufacturing-as-a-service model. On-demand manufacturing reduces manufacturing costs and speeds up product development. You can also go with cheap 3D printers that use cheap welding wire that hasjust come onto the market. They cost $1,200 and may suit your needs. Fresh Quality Compliance Guidelines As 3D printing and CNC manufacturing technologies constantly evolve, there are no established norms or regulations for 3D printed objects. However, 3D printed solutions do not always match traditional quality, durability, and strength. For example, a 3D-printed mechanical part. Can someone order 500 similar parts a few months later? Consistency standards and product post-processing may have a negative impact in such circumstances. So, in such a case, traditional manufacturing wins over 3D printing. How to Overcome You might endeavor to set quality criteria for your 3D-printed products to ensure they are comparable to traditional ones. You can also apply the ANSI AMSC and America Makes standards, which define quality criteria for 3D printed products. How Boeing Applies Additive Manufacturing Technology? Boeing is focusing its efforts on leveraging and speeding up additive manufacturing to transform its manufacturing system and support its growth. The company operates 20 additive manufacturing facilities worldwide and collaborates with vendors to supply 3D-printed components for its commercial, space, and defense platforms. Boeing is now designing missiles, helicopters, and airplanes using 3D printing technology. A small internal team contributes roughly 1,000 3D-printed components to the company's flight projects. Boeing claims that addressing design as an "integrated mechanical system" considerably improves manufacturability and lowers costs. Final Words Additive manufacturing is altering the way the aerospace industry designs and manufactures aircraft parts. Aerospace advanced manufacturing is making aircraft production easier. We've explored solutions to some of the snags that you may encounter. However, other concerns, such as limited multi-material capabilities and size constraints, require solutions, and industry specialists are working on them. Despite these challenges, additive manufacturing is still booming and rocking in a variety of industries. FAQ Why is additive manufacturing used in Aerospace? It allows the industry to build quality parts quickly and inexpensively. Reduce waste and build parts for aircraft that are difficult to manufacture using existing methods. How does additive manufacturing help in Aerospace applications? Environmental control system (ECS) ducting, custom cosmetic aircraft interior components, rocket engine components, combustor liners, composite tooling, oil and fuel tanks, and UAV components are examples of typical applications. 3D printing helps in producing solid, complicated pieces with ease. Which aerospace firms use additive manufacturing/3D printing? Boeing and Airbus are two of the many aircraft businesses that use additive-created parts in their planes. Boeing incorporates additive manufacturing (AM) components into both commercial and military aircraft. Airbus also employs AM metal braces and bleed pipes on the A320neo and A350 XWB aircraft. { "@context": "https://schema.org", "@type": "FAQPage", "mainEntity": [{ "@type": "Question", "name": "Why is additive manufacturing used in Aerospace?", "acceptedAnswer": { "@type": "Answer", "text": "It allows the industry to build quality parts quickly and inexpensively. Reduce waste and build parts for aircraft that are difficult to manufacture using existing methods." } },{ "@type": "Question", "name": "How does additive manufacturing help in Aerospace applications?", "acceptedAnswer": { "@type": "Answer", "text": "Environmental control system (ECS) ducting, custom cosmetic aircraft interior components, rocket engine components, combustor liners, composite tooling, oil and fuel tanks, and UAV components are examples of typical applications. 3D printing helps in producing solid, complicated pieces with ease." } },{ "@type": "Question", "name": "Which aerospace firms use additive manufacturing/3D printing?", "acceptedAnswer": { "@type": "Answer", "text": "Boeing and Airbus are two of the many aircraft businesses that use additive-created parts in their planes. Boeing incorporates additive manufacturing (AM) components into both commercial and military aircraft. Airbus also employs AM metal braces and bleed pipes on the A320neo and A350 XWB aircraft." } }] }

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Spotlight

Hammond Power Solutions

Hammond Power Solutions Inc. is the North American stand-alone leader for the design and manufacture of standard & custom electrical engineered dry-type transformers. Headquartered in Guelph, Canada, HPS operates out of multiple plants located throughout Canada, U.S., Mexico, Italy, and India.

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