3D Printing in the construction industry: The Best Projects

KATARZYNA PLEWA| February 21, 2019
3D PRINTING IN THE CONSTRUCTION INDUSTRY: THE BEST PROJECTS
We already talked about a family moving into a 3D printed house in France. In the other real-life examples, we will introduce you to some stunning projects from the Netherlands, Dubai’s 3D printed offices which were a pioneer for office architecture, to the first ever 3D printed bridge. How about manufacturing a house in one day? Is it possible? Let’s see how far the 3D technologies for the construction industry have come.

Spotlight

Nidec Motor Corporation

With a pedigree dating back more than a century, Nidec Motor Corporation (NMC) is a leading manufacturer of commercial motors, industrial motors, appliance motors, and controls. The NMC product line features a full line of U.S. MOTORS® brand high efficiency motors for industrial applications in water treatment, mining, oil and gas, and power generation, and for commercial applications such as pool and spa, condensers, cooling towers and large refrigeration units.

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Technologies to Adopt Now to Enable the Smart Warehouse Concept

Article | December 8, 2021

Why should warehouses be left behind as everything gets smarter in the manufacturing world? The future warehouse will be smarter and more innovative to speed up supply chain management procedures and assist businesses in intelligently segregating their raw materials and manufactured goods. So, what does it mean to have "a smart warehouse"? A smart warehouse is a big infrastructure that stores raw materials and manufactured goods and employs machines and computers to handle routine warehouse tasks that humans previously performed. Smart warehouses are inspired by smart factories and operate in a data-driven environment. It is the ability of the system in the warehouse to make it more efficient and productive by utilizing networked, automated technology. “I advocate business leaders get to know more about what AI can do and then leverage AI in proofs of concept.” – Michael Walton, Director, Industry Executive (Manufacturing) at Microsoft According to EASYECOM, nine out of ten businesses intend to include commercial service robots into their operations in some form. By 2025, it is projected that there will be roughly 23,000 robotic warehouses in the United States alone, up from only 2,500 in 2018. Furthermore, the global smart warehousing market is expected to grow at a CAGR of 11.5 percent from USD 14.8 billion in 2021 to USD 25.4 billion in 2026, according to GlobeNewswire. As can be seen, the current warehouse automation trends are scaling up the worldwide market for smart warehouses, and the value of the smart warehouse business has a long way to go in the future. So, what are the technologies that are changing traditional warehouses into intelligent warehouses? Continue reading this article to get a better understanding of this. Top 5 Warehouse Technologies to Take On Numerous manufacturing and non-manufacturing organizations, including IKEA, NIKE, and WALMART, utilize smart warehouses to streamline their overall operations. The technologies listed below assist many of them in implementing the modern warehousing idea. A Warehouse Management System Warehouse Management Systems, or WMSs, are comprehensive software systems that consolidate all of your critical data onto a single platform that can be easily accessed by team members and selected supply chain partners. This data compartmentalization allows for lightning-fast reporting, which allows for super-efficient planning, even for unexpected events. Overall, the use of warehouse management systems complements the use of other automated aspects perfectly. Automated Picking Tools The days of error-prone picking are long gone; now, when picking automation elements are integrated into the flow, warehouses can profit from near-perfect picking rates. In addition, picking procedures can be aided by various techniques, including voice-automated order picking, pick-to-light, and robotic order picking. These technologies also use cutting-edge barcoding choices that easily interface with your selected management software to provide the quickest and most accurate automated reporting experiences. Automated Guided Vehicles (AGVs) AGVs, or automatic guided vehicles, are the best approach to speeding up storage and retrieval processes. AGVs are becoming more robust as technology advances, but older models have proven safer and more cost-effective than manual labor. Their functions include pallet, rack, and other container storage and controlling and automating the entire receiving process. Platforms for Automated Inventory Control Automated inventory control platforms, when combined with a few other technological cornerstones, such as asset and inventory tags, may eliminate labor, guesswork, and unnecessary time from traditional inventory control. In addition, there are several advantages to using these platforms, including their ability to automatically count inventories and synthesize data for real-time reporting that can be viewed remotely. IoT Implementation The Internet of Things (IoT) is used by some of the world's most efficient smart warehouses, such as Amazon, as an entire concept rather than a specific technology. All of your automated and manual operations may be optimized when IoT is used to control all of your moving parts, both automated and manual. This innovative technology helps optimize a warehouse's inventory control systems, workforce planning, and, of course, the overall customer experience. While implementing technology improves the notion of a smart warehouse, it isn't always possible for every warehouse to do so instantly, especially since implementing technology takes significant financial and infrastructure changes. That's why warehouses are adopting the concept of collaborative robots (cobots). These are the autonomous elements that work with existing human workers. Cobots allow warehouses to preserve many of their existing procedures and infrastructure while gaining the benefits of fully autonomous elements. Amazon's Smart Warehouses Integrates Humans and Robots Amazon acquired Kiva Systems for $775 million in 2012, highlighting its interest in warehouse robotics. Kiva Systems was the sole known producer of warehouse robots, serving many different logistics organizations. Amazon bought Kiva Systems' machines, constructed and used them all. Amazon Robotics is a new business unit that the company has developed. Amazon recently established a semi-automated warehouse with human workers and robots. As a result, simple chores like moving parcels and scanning barcodes are automated. However, organizing goods and carrying complex objects (like bottles) is still part of human work. Amazon's automated warehouse employs over 400 robots and hundreds of human employees. Amazon's rise in two crucial areas – online shopping and logistics – has been accelerated by warehouse robots. Final Words Modern warehousing is a new trend in the manufacturing industry that automates numerous procedures required for keeping manufacturing materials and products organized. Technology trends in warehousing are making manufacturers' jobs easier and promoting the future warehouse model in 2022. Implement the cutting-edge technology outlined above to stay current with warehousing trends and boost productivity, efficiency, accuracy, and flexibility for your personnel and their operations. FAQ What are the key benefits of a smart warehouse? A smart warehouse improves the warehouse's productivity, efficiency, and accuracy. It also allows personnel and procedures to be flexible. What exactly is WMS? A warehouse management system (WMS) is a software solution that handles the supply chain from the distribution center to the retail shelf. What is COBOT? Cobots are designed to work with people rather than replace them. Cobots are also known as people-focused robots. They can help humans simplify and improve their work. { "@context": "https://schema.org", "@type": "FAQPage", "mainEntity": [{ "@type": "Question", "name": "What are the key benefits of a smart warehouse?", "acceptedAnswer": { "@type": "Answer", "text": "A smart warehouse improves the warehouse's productivity, efficiency, and accuracy. It also allows personnel and procedures to be flexible." } },{ "@type": "Question", "name": "What exactly is WMS?", "acceptedAnswer": { "@type": "Answer", "text": "A warehouse management system (WMS) is a software solution that handles the supply chain from the distribution center to the retail shelf." } },{ "@type": "Question", "name": "What is COBOT?", "acceptedAnswer": { "@type": "Answer", "text": "Cobots are designed to work with people rather than replace them. Cobots are also known as people-focused robots. They can help humans simplify and improve their work." } }] }

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Building a Smart Factory is Possible Using Machine Learning

Article | December 7, 2021

Machine learning in manufacturing is becoming more widespread, with businesses like GE, Siemens, Intel, Bosch, NVIDIA, and Microsoft all investing heavily in machine learning-based ways to enhance manufacturing. Machine learning is predicted to expand from $1 billion in 2016 to USD 9 billion by 2022at a compound annual growth rate (CAGR) of 44% throughout the forecast period, according to Markets & Markets. The technology is being utilized to cut labor costs, achieve better transition times, and increase manufacturing speed. “I advocate business leaders get to know more about what AI can do and then leverage AI in proofs of concept.” – Michael Walton, Director and Industry Executive, Microsoft speaking with Media 7 Machine learning can help enhance manufacturing processes at the industrial level. This can be achieved by assessing current manufacturing models and identifying flaws and pain factors. Businesses can rapidly address any difficulties to keep the manufacturing pipeline running smoothly. Let us explore how machine learning is transforming manufacturing operations. How Machine Learning Is Transforming Manufacturing Operations “The greatest benefit of machine learning may ultimately be not what the machines learn but what we learn by teaching them.” - Pedro Domingos Machine learning in manufacturing is revolutionizing manufacturing operations and making them more advanced and result-oriented, so let's have a look at how this is unfolding. Allows for Predictive Maintenance Machine learning provides predictive maintenance by forecasting equipment breakdowns and eliminating wasteful downtime. Manufacturers spend far too much time correcting problems instead of planning upkeep. In addition to enhancing asset dependability and product quality, machine learning systems can forecast equipment breakdown with 92% accuracy. Machine learning and predictive analytics increased overall equipment efficiency from 65% to 85%. Increases Product Inspection and Quality Control Machine learning is also utilized for product inspection. Automated inspection and supervision using ML-based computer vision algorithms can discriminate between excellent and bad products. These algorithms simply need excellent samples to train; therefore a fault library is not required. However, an algorithm that compares samples to the most common errors can be built. Machine learning reduces visual quality control costs in manufacturing. Forbe's says AI-powered quality testing can boost detection rates by up to 80%. Logistics-related Tasks Are Automated To run a production line, industrial companies need considerable logistics skills. The use of machine learning-based solutions can improve logistics efficiency and save expenses. Manual, time-consuming operations like logistics and production-related documentation cost the average US business $171,340 annually. It saves thousands of manual working hours every year to automate these everyday procedures. Using Deep Mind AI, Google was able to lower its data center cooling bill by 40%. Creates More Business Opportunities Machine learning is frequently used in the production process. Substantial data analysis is required to create new items or improve existing products. Collection and analysis of huge amounts of product data can help find hidden defects and new business opportunities. This can help improve existing product designs and provide new revenue streams for the company. With machine learning, companies can reduce product development risks by making smarter decisions with better insights. Protects Company’s Digital Assets On-premise and cloud-based machine learning systems require networks, data, and technological platforms to function. Machine learning can help secure these systems and data by restricting access to vital digital platforms and information. Humans’ access sensitive data, choose applications, and connect to it using machine learning. This can help secure digital assets by immediately recognizing irregularities and taking appropriate action. Harley Davidson's Sales Climbed by 40% Using Albert – The ML & AI-Powered Robot Today, traditional marketing is harder to break through. It's easy to see why Albert (an AI-powered robot) would be a good fit for Harley Davidson NYC. Thanks to machine learning and artificial intelligence, robots are producing news stories, working in hotels, controlling traffic, and even running McDonald's. Albert works well with social media and email marketing. It analyzed which customers are more likely to convert and modifies the personal creative copies on its own for the next process. Harley-Davidson is the only company to employ Albert in its business. The company evaluated customer data to find prior consumers who made purchases and spent more time browsing the website than normal. Albert used this data to categorize customers and scale up test campaigns. Using Albert, Harley-Davidson's sales climbed by 40% and leads increased 2,930%, with half coming from high-converting ‘lookalikes' detected by AI and machine learning. Final Words The groundbreaking benefits of machine learning are the pillars of machine learning applications in manufacturing. Machine learning in manufacturing helps enhance productivity without compromising quality. According to Forbes, Amazon has automated warehouse logistics picking and packing using a machine learning system. With Kiva's help, Amazon's typical ‘click to ship' time dropped from 60-75 minutes to 15 minutes. So, industry leaders are seeing fantastic outcomes, and machine learning in manufacturing is the future. FAQ How is machine learning used in manufacturing? Machine learning is used in manufacturing to improve product quality and uncover new efficiencies. It unquestionably aids in the identification and removal of bottlenecks in the manufacturing process. Which two forms of machine learning are there? Machine learning is divided into two forms: supervised and unsupervised. In supervised machine learning, a machine learning algorithm is trained using data that has been labeled. Unsupervised ML has the advantage of working with unlabeled data. What is a machine learning model? A machine learning model is a file that can recognize patterns. In order to learn from a set of data, you must first train a model using an algorithm. { "@context": "https://schema.org", "@type": "FAQPage", "mainEntity": [{ "@type": "Question", "name": "How is machine learning used in manufacturing?", "acceptedAnswer": { "@type": "Answer", "text": "Machine learning is used in manufacturing to improve product quality and uncover new efficiencies. It unquestionably aids in the identification and removal of bottlenecks in the manufacturing process." } },{ "@type": "Question", "name": "Which two forms of machine learning are there?", "acceptedAnswer": { "@type": "Answer", "text": "Machine learning is divided into two forms: supervised and unsupervised. In supervised machine learning, a machine learning algorithm is trained using data that has been labeled. Unsupervised ML has the advantage of working with unlabeled data." } },{ "@type": "Question", "name": "What is a machine learning model?", "acceptedAnswer": { "@type": "Answer", "text": "A machine learning model is a file that can recognize patterns. In order to learn from a set of data, you must first train a model using an algorithm." } }] }

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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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How to Find a Suitable Contract Manufacturing Partner?

Article | December 10, 2021

The benefits of contract manufacturing are triggering manufacturers to utilize it as a strategy to speed up production and increase revenue. According to BCC Research, the worldwide contract manufacturing industry should increase from $2.0 trillion in 2018 to $2.7 trillion in 2023, a 6.7% CAGR. Given the growing demand, contract manufacturing has a long way to go in innovating new solutions for manufacturers. As technology takes over and enhances many of the processes we used to handle with manual labor, we are freed up to use our minds creatively, which leads to bigger and better leaps in innovation and productivity. – Matt Mong, VP Market Innovation and Project Business Evangelist at Adeaca Let us look at the benefits and concept of contract manufacturing, often known as manufacturing partners in some circles. Contract Manufacturing: Concept and Benefits Concept Contract manufacturing is a business model in which a company agreeswith a contract manufacturer to make components or finished goods based on the hiring company's design. In short, it is a business model in which one company hires another company to manufacture components or goods for them or their products. Benefits The following are some of the primary advantages of contract manufacturing that attract manufacturers to adopt this concept and find a trusted supplier to manufacture any product or part of their product without much difficulty. Cost Efficiency: In contract manufacturing, companies do not have to pay for the facility, equipment, or labor needed. Resource Allocations: The money and resources saved through contract manufacturing can be redirected towards other company operations. Faster Lead Times: Hiring a contract manufacturer reduces manufacturing time. This improves market speed, delivery time, and customer service. Quality Control: Contract manufacturers are likely to have their own quality control processes in place, which allow them to spot counterfeit or damaged products early on. Advanced Skill Sets: Companies can benefit from the skills they may not possess, but the contract manufacturer does. Contract Manufacturing Examples Here are some examples of contract manufacturing companies that offer manufacturing services to other businesses and work on full-service outside manufacturing projects. Example 1: Kimball Electronics Group Kimball Electronics Group provides a comprehensive range of electronics manufacturing services, including engineering, prototyping, testing, electronic data interchange (EDI), new product introduction, and repair depot services. Soldering, assembly, reflow, de-paneling, flux application, inspection, screen printing, testing, and rework are all processes used in their manufacturing. Example 2: Scapa Healthcare Scapa Healthcare, headquartered in Knoxville, Tennessee, provides contract manufacturing services for medical and cosmetic products. Their portfolio of products includes sunscreen, silicone medical adhesives, and innovative materials. Additionally, the organization provides development, packaging, and logistics services. Things to Consider While Selecting a Contract Manufacturing (CM) Partner You need to know how to identify the ideal contract manufacturer for your business to accelerate production and produce high-quality items. Below, we've listed some of the most important things to keep in mind while looking for an outsourced manufacturing partner for your company. Competency Understanding a contract manufacturer's (CM) capabilities in terms of logistics and fulfillment is critical. Is your potential CM able to meet shifting product demands? How to use the CM's services? You may need one or more services from CM for your product, so always examine their capabilities or develop a list of their services and see which ones are valuable for you. Knowledge or Prerequisite A qualified, experienced, subject matter expert CM always correctly understands the requirements and delivers the services as per expectations and within the time frame specified in your production schedule. Always inquire about their qualifications or certificates in the places where your product will be manufactured. Compliance Any contract manufacturing plan must have an agreement or compliance clause. Always inquire about the compliance procedure and thoroughly understand the terms and claws to avoid future issues. Workforces Verify your possible contract manufacturer's personnel count. Is it easy to talk to them? Is labor skilled enough to meet the product's goals? It is critical for large-scale production and production, requiring swift responses. Any work force shortage might cause production delays. Gear & Expertise Check for machines and equipment as well as human labor in your possible CM. Many CM lease equipment to complete a project. So always check how the CM will organize the essential equipment for your project. Expertise in using the equipment is also necessary. Verify which machines were used and whether or not professionals were involved. Whereabouts The CM's location is the main factor to check. Because the CM may have numerous plants, knowing which plant is assigned to your product is essential to knowing every aspect of its production. Also, the assembly location must allow you to visit and inspect the manufacturing between cycles. Business Stability Finding a reliable contract manufacturer with solid financial backing and market roots is essential to avoid market scams. However, you must also analyze and solve risk factors like equipment failure, supplier capacity, and unreasonable expectations. Selection Myths of Contract Manufacturing Partner Once you've produced a list of shortlisted contract manufacturing partners who meet all of the criteria described in the preceding heading, you can proceed by following the steps below to select the best contract manufacturing partner. Look for Who is Willing to Invest in Your Business Incorrect. The objective is to find a vendor prepared to manufacture at a loss. A contract manufacturer's strength is that they can stay competitive and make a profit for both parties. Focus on Tier 1 CM Partners from the Market This one is indeed not acceptable. Tier 1 is a financial phrase used to separate large corporations from smaller ones. You want a contract manufacturer who understands your business and your needs. Don't worry about the manufacturing partner's size. Go Ahead with the One Who Offers the Best Services at the Lowest Price Trying to get the cheapest quote isn't always the best idea. You should get a quote from your contract manufacturing partner, but the quote may not always reveal the complete story. Cost per unit frequently captures approximately 75% of total supply chain cost. Some contract manufacturers charge the OEM the remaining 25%. Consider the complete picture while selecting a CM partner. Final Words Manufacturers use contract manufacturing to meet their commercial goals. Therefore, contract manufacturing is a win-win situation for both industrialists and contract manufacturers. Finding the proper contract manufacturing partner for your company is not straightforward, but our brief guide can help you identify the right manufacturing partner. FAQ What makes a good contract manufacturer? The most significant contract manufacturing firms are more than just supply chain partners. They recognize and treat your items as if they were their own, are meticulous in their operations, and are concerned with quality and capital. What differentiates contract manufacturing from outsourcing? A contract is a legally binding arrangement. It involves two or more parties. For example, outsourcing is outsourcing some tasks to an outside organization under a contract agreed upon by both parties. What's the difference between contract manufacturing and licensing? Contract manufacturing only outsources production phases, while licensing is far more complex. In return for fees, a corporation sells the right to utilize its intellectual property to another company. Licenses are like franchises. { "@context": "https://schema.org", "@type": "FAQPage", "mainEntity": [{ "@type": "Question", "name": "What makes a good contract manufacturer?", "acceptedAnswer": { "@type": "Answer", "text": "The most significant contract manufacturing firms are more than just supply chain partners. They recognize and treat your items as if they were their own, are meticulous in their operations, and are concerned with quality and capital." } },{ "@type": "Question", "name": "What differentiates contract manufacturing from outsourcing?", "acceptedAnswer": { "@type": "Answer", "text": "A contract is a legally binding arrangement. It involves two or more parties. For example, outsourcing is outsourcing some tasks to an outside organization under a contract agreed upon by both parties." } },{ "@type": "Question", "name": "What's the difference between contract manufacturing and licensing?", "acceptedAnswer": { "@type": "Answer", "text": "Contract manufacturing only outsources production phases, while licensing is far more complex. In return for fees, a corporation sells the right to utilize its intellectual property to another company. Licenses are like franchises." } }] }

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Spotlight

Nidec Motor Corporation

With a pedigree dating back more than a century, Nidec Motor Corporation (NMC) is a leading manufacturer of commercial motors, industrial motors, appliance motors, and controls. The NMC product line features a full line of U.S. MOTORS® brand high efficiency motors for industrial applications in water treatment, mining, oil and gas, and power generation, and for commercial applications such as pool and spa, condensers, cooling towers and large refrigeration units.

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