Where Manufacturers Can Get More Ideas For Content Marketing

JULIETTE FERRARO| April 10, 2020
WHERE MANUFACTURERS CAN GET MORE IDEAS FOR CONTENT MARKETING
Coming up with perfect content marketing ideas for manufacturing companies can often be difficult. But, if you know where to look for inspiration, ideas are actually everywhere. Below are some tactics to help you and your team find success in content marketing for industrial companies. Remember the value of a human connection. Team brainstorming sessions are a great way to get inspired from other people and gather a broad range of creative ideas. To run a productive brainstorming session, you’ll need at least two participants to generate ideas either in person or online through video calling technology.

Spotlight

Spartech

Spartech is a leading plastics manufacturer that leverages our knowledge of materials, processing, and application development to deliver the highest level of value to our customers. Headquartered in St. Louis, Missouri, and with 14 manufacturing facilities located throughout the United States, our company is making a world of difference in plastic solutions that are sustainable, diverse and reliable.

OTHER ARTICLES

How Collaborative Robots Are Revolutionizing the Manufacturing Industry

Article | December 10, 2021

A new form of robot is entering manufacturing plants all around the globe. Instead of being locked away in their own work cell, collaborative robots work side by side with their human counterparts. Together, they form the manufacturing crew of the future. Collaborative robots, or cobots, are more flexible, easy to use, and safer than industrial robots. Instead of ending up abandoned in a corner, they are proving to be serious expansions of production capacity leading to better ways of creating superior quality products. 1.1 A New Breed of Bot Cobots are a new type of automation product with their own ISO standards for safety and usability. For a robot to qualify as a cobot, it has to be used for tasks of a collaborative nature while sharing all or part of its reach space with human operators. So it is not the product alone that classifies it as a cobot. Industrial robots must be expertly programmed for one specific job along the production line. This requires hard line coding and endless tweaking and testing, which together with other factors make for a sizable upfront investment. Not so with collaborative robots. Cobots may look similar to traditional robots in some ways, but they are much easier to install and program. This foregoes the need to cooperate with a robotic integration service. Their lightweight and friendly form factor lets manufacturers conveniently relocate them on the shopfloor from one project to another. This renders the robotics technology perfect for a data-driven, Industry 4.0 work environment. Cobots can side with traditional machinery and additive manufacturing equipment, aided by artificial intelligence and cloud connectivity while embedded in a networked environment rich with smart sensors and mixed reality interfaces. 1.2 A Unique Blend of Benefits Because it is fairly straightforward to reprogram a cobot to various tasks, they are perfect for high-mix, low-volume work to meet the rising demand for ultra-customized products. They can also do multiple tasks in unison, such as alternatingly loading a machine and finishing parts from the previous cycle. Here are some other advantages in addition to flexibility: • Low investment. Cobots typically cost a fraction of the price of an industrial robot, but they offer much lower payload and reach. ROI is typically one to two years. • Safety. With rounded surfaces, force-limited joints, and advanced vision systems, cobots are exceptionally safe. This reduces the risk of injury due to impact, crushing, and pinching. Driverless transport systems are wheeled mobile robots that immediately halt when their lasers detect the presence of a nearby human being. • Accuracy. Cobots score well on accuracy with 0.1mm precision or well below that. While they do typically sacrifice speed, dual-mode cobots can be converted to fully-fledged tools of mass production that run at full speed in their own safeguarded space. • Easy to program. Many brands offer user-friendly programming interfaces from beginner to expert level. This reduces the need for continuous availability of expensive and scarce expertise while giving current employees an incentive to upskill. And because they can be deployed within hours, cobots can be leased for temporary projects. • Research. Small processing plants, agile start-ups, and schools can invest in cobots to experiment with ways to automate processes before committing to full automation. 1.3 Cobot Activity Repertoire Cobots are perfect candidates for taking over strenuous, dirty, difficult, or dull jobs previously handled by human workers. This relieves their human co-workers from risk of repetitive strain injury, muscle fatigue, and back problems. They can also increase job satisfaction and ultimately a better retirement. The cobot’s program of responsibilities includes: • Production tasks such as lathing, wire EDM, and sheet stamping. • Welding, brazing, and soldering. • Precision mounting of components and fasteners, and applying adhesive in various stages of general assembly. • Part post-finishing such as hole drilling, deburring, edge trimming, deflashing, sanding, and polishing. • Loading and unloading traditional equipment such as CNC and injection molding machines, and operating it using a control panel to drastically reduce cycle times. • Post-inspection such as damage detection, electronic circuit board testing, and checking for circularity or planarity tolerances. • Box-packing, wrapping, and palletizing. • Automated guided vehicles (AGVs) and autonomous mobile robots (AMRs) assist with internal transport and inventory management. 1.4 No-Code Programming While an industrial robot requires the attention of a high-paid robotics engineer, anyone with basic programming savviness can install and maintain a collaborative unit. Brands are releasing more and more kits for quick installation and specific use cases. Instead of being all numbers and line-coding, current user interaction is exceptionally people-focused. At the lowest skill level, lead-through programming lets operators physically guide the cobot’s end-of-arm-tool (EOAT) through the desired motion path, after which it will flawlessly replicate the instructed behaviour. It is also possible to enter desired waypoints as coordinates. At the highest level, it is of course still possible to have full scripting control. An intermediate step is visual programming interfaces. These let users create blocks of functionality that they can string together into more advanced action sequences, while entering the appropriate parameters for each function such as gripping strength, screwing tightness, or pressing force. These UIs come in the form of in-browser or mobile apps. Based on a 3D-CAD model of the machine and its industrial environment, a digital twin of the cobot can simulate and optimize its operations, for example to prevent collisions. It also lets operators remotely monitor and adjust the machine while it’s running. All the while, back-end artificial intelligence can do its analyses to find further efficiency improvements. 3D models of the to-be-manufactured product can be imported for edge extraction of complex surfaces. These will then be converted into the cobot’s desired movement trajectories instead of tedious manual programming. This makes them feasible to implement for highly dexterous tasks like welding curved hydroformed metal parts or sanding and polishing the most intricate of 3D printed geometries. Interfacing directly with the robot is becoming increasingly human-centered as well. Future cobots will respond to voice interaction as well as touch input, eradicating the screens-and-buttons paradigm of current devices. Some brands are giving the cobot a face with emotional expressions, hoping to lower the barrier to adoption. The upcoming generation of cobots can even respond to body language, as well as show its intentions by projecting light to where they are about to reach or move next. 1.5 A Human World Ultimately, the objective of any company is to create value for people. It is not an option to completely remove humans from the shop floor in an attempt to stay at the forefront of innovation. Attempting to leap to full automation and the utopian “lights-out factory” does not work anyway, as automotive giants such as Ford, Chrysler, GM, and Tesla can testify. A significant portion of human employees will indeed need to give up their roles. On the other hand, improved productivity levels open up space to retain personnel and uplift them to more creative, managerial, analytical, social, or overall more enjoyable jobs. For certain tasks, humans still need to be kept inside the manufacturing loop. For example: • Complex assembly routines and handling of flexible components. • Large vehicle subassemblies contain many variable components and require more hand-eye coordination than one cobot can handle. Humans are needed to make sure everything lands in the right position while the cobot provides assistive muscle power. • Fashion, footwear, jewellery, art pieces, and other products where creation borders on artistry rather than mechanical assembly require the aesthetic eye of humans. People are also needed to spot aesthetic deficiencies in custom one-offs in order to correspond with customers before finishing the production batch. • While intelligent automation software can spot bottlenecks in efficiency, humans are required for creative problem solving and context-awareness to make decisions. A spirit of flexibility and innovation is just as important as the accuracy of perfect repetitions. 1.6 Mission: Install a Cobot Cobots have numerous advantages over industrial solutions or people-only workspaces. They enable faster, more precise, and more sophisticated operations while reducing downtime and maintaining employee satisfaction. Low-voltage operation and reduced material waste fits with sustainable innovation and corporate social responsibility programs. Many companies are reporting surges in production capacity and staff generally experience the presence of cobots as favorable. For example, industry leviathans like BMW and Mercedes-Benz are reaching the conclusion that in many parts of the production process implementing a cobot has been the right decision. Connecting all parts of the production line with full automation solutions is a pipedream. It works only when all steps are perfectly attuned, and in reality this never happens and one misstep can be catastrophic. Whether to hire a human, a robot, or a co-robot is a complex and ever-more pressing decision. Statistical process control is paramount for large organizations to make unbiased data-driven decisions. Determine the key performance indicators, then find the most critical bottlenecks and major opportunities for leaps in production efficiency, product quality, or staff unburdening. Talk to employees for their insights and probe their level of skill and enthusiasm needed for working with their new artificial assistants. Digital transformation should be an exciting shift in the organization and its people, so apply new technological advancements only where it makes sense. Despite common beliefs about robotization, the cobot is an entirely separate product category that can be a surprisingly plug-and-play solution for simple tasks, with programming apps becoming increasingly intuitive. A cobot’s flexibility makes it perfect to run early experiments to help companies find its best spot on the factory floor. Its unbelievable precision, consistency, and level of control generally can make a strong first impression on customers. Not only can cobots increase production capacity while reducing idle time and cycle time to accelerate manufacturing across many vertical markets, but they also enrich the work environment resulting in happier and more involved employees. For many companies, a cobot can be the next logical step in their digital transformation.

Read More

Which Additive Manufacturing Process Is Right for You?

Article | December 6, 2021

Additive Manufacturing (AM) uses computer-aided design (CAD) or 3D object scanners to create accurate geometric features. In contrast to traditional manufacturing, which frequently involves milling or other processes to eliminate superfluous material, these are produced layer by layer, as with a 3D printing process. The global additive manufacturing market is expected to grow at a 14.42 percent annual rate from USD 9.52 billion in 2020 to USD 27.91 billion in 2028, according to reports and data. Overall, the worldwide 3D printing industry is gaining traction due to various reasons, some of which are listed below. Significantly, greater resolution Reduced manufacturing costs as a result of recent technology breakthroughs Ease of creating customised goods Increasing possibilities for printing with diverse materials Funding by the government for 3D printing ventures Additive manufacturing is available or may be implemented in various procedures, which is the primary objective of this article. First, we'll look at the seven additive manufacturing processes and which one is the best to use. So let us begin. “Don’t be afraid to go outside of your industry to learn best practices. There might be something that surprises you or inspires you to try in your line of work.” – Emily Desimone, Director of Global Marketing at SLM Solutions Additive Manufacturing Processes There are numerous diverse additive manufacturing processes, each with its own set of standards. Here are the seven additive manufacturing procedures that many manufacturers consider based on their benefits from each process, or whichever approach best suits their product requirements. Material Jetting This additive manufacturing process is quite similar to that of conventional inkjet printers, in which material droplets are selectively placed layer by layer to build a three-dimensional object. After completing a layer, it is cured with UV radiation. VAT Photo Polymerization This procedure employs a technology called photo polymerization, in which radiation-curable resins or photopolymers are utilized to ultraviolet light to generate three-dimensional objects selectively. When these materials are exposed to air, they undergo a chemical reaction and solidify. Stereo lithography, Digital Light Processing, and Continuous Digital Light Processing are the three primary subcategories. Binder Jetting Binder jetting is a process that deposits a binding agent, typically in liquid form, selectively onto powdered material. The print head deposits alternating layers of bonding agent and construction material and a powder spreader to create a three-dimensional object. Material Extrusion S. Scott Crump invented and patented material extrusion in the 1980s using Fused Deposition Modeling (FDM). The continuous thermoplastic filament is fed through a heated nozzle and then deposited layer by layer onto the build platform to produce the object. Powder Bed Fusion Powder bed fusion procedures, particularly selective laser sintering, were the pioneers of industrial additive manufacturing. This approach melts the powdered material and fuses it using a laser or electron beam to form a tangible item. The primary kinds of powder bed fusion are direct metal laser sintering, selective laser sintering, multi-jet fusion, electron beam melting, selective laser melting, and selective heat sintering. Sheet Lamination Sheet lamination is a catch-all term encompassing ultrasonic additive manufacturing, selective deposition lamination, and laminated object manufacturing. All of these technologies stack and laminate sheets of material to form three-dimensional objects. After the object is constructed, the parts' undesirable areas are gradually removed layer by layer. Directed Energy Deposition Directed energy deposition technology employs thermal energy to melt and fuse the materials to form a three-dimensional object. These are pretty similar to welding processes, but are much more intricate. Which Additive Manufacturing Process is best? Why? Based on three fundamental factors, additive manufacturing techniques are categorized into seven types. First, the way material is solidified is determined first by the type of material employed, then by the deposition technique, and finally by how the material is solidified. The end-user often chooses an additive manufacturing technique that best suits his requirements, followed by the explicit material for the process and application, out of the seven basic additive manufacturing processes. Polymer materials are commonly used in AM techniques because they are adaptable to various procedures and can be modified to complicated geometries with high precision. Carbon-based compounds are used to strengthen polymers. Polymers, both solid and liquid, have been widely used due to the variety of shapes, formability, and end-use qualities available. Wherever the light-activated polymer contacts the liquid's surface, it instantly solidifies. Photo polymerization, powder bed fusion, material jetting, and material extrusion are the most common additive manufacturing procedures for polymers. The materials employed in these processes can be liquid, powder, or solid (formed materials such as polymer film or filament). How BASF is Using Additive Manufacturing BASF is a chemical company. BASF, one of the world's major chemical companies, manufactures and provides a range of 3D printing filaments, resins, and powders within its extensive material portfolio. The company, well-known in the 3D printing sector, has formed major material agreements with several 3D printer manufacturers, including HP, BigRep, Essentium, BCN3D, and others. BASF went even further in 2017 by establishing BASF 3D printing Solutions GmbH (B3DPS) as a wholly-owned subsidiary to expand the company's 3D printing business. In addition, BASF stated last year that B3DPS would change its name to Forward AM. BASF's role in the 3D printing business, however, is not limited to material development. BASF has made several investments in 3D printing companies over the years, including the acquisition of Sculpteo, one of the significant French 3D printing service bureaus, last year. BASF sees 3D printing as having a bright future. With the growing popularity of professional 3D printers, all of these systems will eventually require robust, high-quality polymer materials to perform at their best – and BASF has been paving the way to becoming one of the leading solution providers. Final Words All additive manufacturing procedures are unique and helpful in their way. Still, some have additional advantages over others, such as the material used, highresolution, precision, and the ability to build complicated parts. Because of these added benefits, photopolymerization, material jetting, powder bed fusion, and material extrusion are preferred over others. Therefore, choose the AM process that is best suited to your manufacturing business and will assist you in achieving the desired final product output. FAQs What are the benefits of additive manufacturing? AM enables manufacturers to reduce waste, prototyping costs, and customization while conserving energy and increasing production flexibility. Additionally, it benefits the supply chain and the environment, encouraging businesses to increase their manufacturing sustainability. What is the major challenge in additive manufacturing? Many businesses are struggling with the current difficulty of producing large and odd-sized parts using additive manufacturing. So, this can be considered a significant challenge in additive manufacturing. What are the steps of additive manufacturing? The additive manufacturing steps are divided into four steps as below, Step1 - Design a model with CAD software Step2 -Pre-processing Step3 -Printing Step4 - Post-processing { "@context": "https://schema.org", "@type": "FAQPage", "mainEntity": [{ "@type": "Question", "name": "What are the benefits of additive manufacturing?", "acceptedAnswer": { "@type": "Answer", "text": "AM enables manufacturers to reduce waste, prototyping costs, and customization while conserving energy and increasing production flexibility. Additionally, it benefits the supply chain and the environment, encouraging businesses to increase their manufacturing sustainability." } },{ "@type": "Question", "name": "What is the major challenge in additive manufacturing?", "acceptedAnswer": { "@type": "Answer", "text": "Many businesses are struggling with the current difficulty of producing large and odd-sized parts using additive manufacturing. So, this can be considered a significant challenge in additive manufacturing." } },{ "@type": "Question", "name": "What are the steps of additive manufacturing?", "acceptedAnswer": { "@type": "Answer", "text": "The additive manufacturing steps are divided into four steps as below, Step1 - Design a model with CAD software Step2 - Pre-processing Step3 - Printing Step4 - Post-processing" } }] }

Read More

How Can Manufacturers Redefine Marketing Strategies in the Age of COVID?

Article | April 27, 2021

What do you need to create a killer B2B marketing plan or scale it to support a new marketing business in the age of COVID-19? Many manufacturing companies struggled when the coronavirus started. Some of them paused all marketing activities, waited for the lockdown to end, and then made up for potential losses. Looking at this situation, where does your business stand when it comes to marketing planning in 2021? Simply copying and pasting the old calendar, changing dates and campaign names will be far from being sufficient for the years ahead. Instead, establishing steady and tangible SMART B2B manufacturing marketing goals, which are specific, measurable, relevant, time-bound, and flexible, is crucial for marketers. And such goals should be made every quarter and bucketed under a planned manufacturing marketing strategy. Aren't you sure what to include in your B2B manufacturing marketing plan? Read on the following ideas that will help you do marketing in the age of COVID-19. Redefine your Budget Season As marketers in industrial manufacturing face planning failures such as inevitable spreadsheets, board meetings, sales, and client handling that accompany for an entire year, they're also facing dwindling budgets. So, redefining your manufacturing marketing budget in 2021 will be one of the most important aspects of marketing for manufacturers. Digital Marketing AMA's latest CMO Survey found that manufacturing marketers anticipate an 8.4% rise in digital marketing spending throughout 2021. What is your digital marketing goal in 2021? Generate double-digit leads for products and services? Promote or launch a new product or service? Expanding reach by ranking in Google's first search engine result page (SERP)? Creating a proper digital marketing plan will leverage to know beyond its tip of the ice. The digital platform will keep your marketing activities on track and in one place, and you will see what's working and what doesn't. This way, you can create a solid budget to implement digital marketing in your marketing business. Customer Experience A survey found that customer experience expenditure surged 10% from past years after companies started marketing budgeting. This prominently included A CRM (customer relationship management) platform. So, including a CRM will benefit your business to track and manage contacts present in your marketing pipeline. Social Media Platforms Interestingly, social media expenditure has soared by 74% since February 2021, and the investment by other manufacturers has paid off. Manufacturers report that social media has contributed to the company's performance 24% more after the pandemic. In general, 62% of marketers report that the importance of social media marketing for manufacturing has grown during the pandemic due to its critical role in reaching customers digitally. It's clear that companies that already implemented digital marketing see the value of budgeting for social media, which increased the positive results of marketing. So, when you set up a new budget, include social media to grow your business. 5 Things to Consider while Marketing your Business A Lead Scoring Model One of the most important aspects of marketing in manufacturing is implementing a lead scoring model. Investing in it will allow you to see through the valuable metric of your leads that will make you determine which ones are qualified. Metrics include your ideal customer's demographics such as company size, revenue, industry, and main pain points. Also, these have a number of website visits, specific page views, content downloads, contact forms, emails unlocked, engagement with social posts, and more. Regularly evaluate your lead scoring model and update to ensure your metrics are closely related to your ideal prospect. It would lead both sales and marketing for manufacturers to identify valuable leads in your database easily. Invest in A Video Marketing Strategy Video Marketing is a great deal. As per Cisco's research, by 2021, videos will account for 80% of all internet traffic. In addition, being one of the internet’s traffic sources, it’s practical and reasonable. Video marketing for manufacturers has been profitable by 83%. From creating more leads per year to a rise in sales, 80% say that video marketing has aided their business significantly. If you haven't invested in video marketing yet, or if you've only dipped your toes in the water, 2021 is the year to dive in completely. As per HubSpot's 2020 State of Marketing report, video beats content forms like blogging, email, and infographics. Also, video is the most-used marketing content type for manufacturers. So, there are many tools and resources that make it easy to get started with video marketing. Videos help to sell industrial manufacturing products and create a brand story. So, think about it and include this when budgeting your marketing plan. Move Beyond Basic Marketing Analytics Through digital marketing, manufacturing marketers have been trying to determine the ROI of their efforts. But do you know that most of them have been doing a lousy job? That's because they, and the tools they use, tend to focus on things that don't matter. These include views, clicks, etc. More than 600 manufacturers and industrial companies in the U.S. have learned that their marketing and sales are going wrong. Out of which, 35% of manufacturers are not using an analytics tool like Google Analytics. So, it is advisable to move beyond basic marketing analytics to track how much traffic is coming to your website. The latest tools can identify companies visiting and allow salespeople to engage them in their research phase. It will result in creating and maintaining promising relationships with clients. Content Isn't Optional A rock-hard content marketing plan is the core of your online business's success. Keep in mind; a few blogs are not sufficient to get accurate results! Creating content helps (by answering) your potential buyer's queries in their research process and throughout their buying journey. A survey found an online search or a blog acts as a key source for finding answers to questions. As most sales are happening online now, Hubspot suggests that manufacturing businesses' sales will surge incredibly in 2021. An average B2B manufacturing marketing has involved 68% of stakeholders. Prospects are now making more decisions by reaching out to a company than ever before because they want your website and social channels to educate them completely. If they can't find the information on your owned channels, they might turn to your competitor's website instead. This makes content the most important aspect of marketing. When it comes to steady and consistent lead generation for b2b manufacturers, content is at the front and center of all the B2B manufacturing marketing trends. So, take content seriously instead of keeping it just as an alternative. What's Important for 2021? Plan in quarters Many companies create full-year planning calendars in November and December. The pandemic in 2020 has taught us that to plan too ahead in advance can get your business to flow in the wrong direction. Because who knows whether those plans or events would fall digitally or be back to in-person. Will your target audience be as approachable as to emails and webinars or not? So, plan your marketing things quarterly from annual to ensure your business leads in the right way. Audit Constantly It's not advisable to keep an eye on one particular marketing metric, for example, tracking traffic to your website. Instead, it's the whole picture that matters. 2021 is the year to evaluate every goal, every channel, and every message related to your business. With this, think about creating a big picture as well—company positioning and values, competitive research, and even business goals. Here are some standard audit actions recommended: 1. Conversion rates Visitors converting to leads Leads converting to customers 2. Email engagement Number of sent emails Deliverability metrics Subscriptions/unsubscribing 3. Revenue attribution audits How much revenue can be credited to marketing campaigns? 4. Campaign success How did all of the individual elements of your campaign perform? That includes: The site and landing pages Email marketing Paid ads and PPC Social messages How did the campaign perform against other campaigns? 5. Social media audit Engagement by channel Overall reach and growth 6. Funnel audit How effectively contacts are moving through the funnel In addition, conduct an audit and analysis vertical to ensure all the automation is taking place or running appropriately. Doing it will help your marketing team keep a constant check on all the processes and cater to you with exact marketing activities. Keep this activity active throughout the year. Continue Shifting Budgets—Don't Be Afraid Much of 2020 has been experimental in marketing for manufacturers. Many manufacturing companies moved away from in-person events to a webinar, shifted expensive prospect meetings to internet meetings, trade events to PPC, website, and content creation. In these cases, you might have to shift your budgeting when needed. Consider revising the budget to create advertorials, creative virtual events, and strategic lead generation tools if you plan in quarters. Along with these, 2021 brought a good time to invest even in intent data, ABM, SEO, and other automated technologically advanced digital initiatives. According to a recent study, manufacturing companies are now 21% more likely to invest in automation and technology. As they are now inclined towards the use of webinars & virtual events (20%), search & social media (14%), and website (12%). All of these increased in light of COVID-19. So, start planning for what's sure to have a better year ahead with your marketing strategies. Frequently Asked Questions What is the role of marketing in the manufacturing industry? Marketing plays a pivotal role in the manufacturing industry. Through marketing, customers are well informed about products or services a company offers. Also, marketing helps in building the brand name, awareness, and visibility of a company. How to use social media marketing in manufacturing? Social media marketing in manufacturing can be ideally used in these ways: Choose right platform Share useful content Create advertisements Create creative posts Connect with in-market participants Encourage engagement Create videos and share Address problems and provide solutions through content What are the important aspects of marketing for the manufacturing industry? Being the crucial part of any company in the manufacturing industry, essential aspects of marketing are: Website Brand name Platform Promotion SEO Sales How can Email Marketing help to market in the manufacturing industry? Email marketing in the manufacturing industry can help by creating informational content. Start from offering subscription options to potential customers, clients, and visitors. Send updates, information, an overview of the company's services and products to aware the reader and convert them into loyal customers. { "@context": "https://schema.org", "@type": "FAQPage", "mainEntity": [{ "@type": "Question", "name": "WHAT IS THE ROLE OF MARKETING IN THE MANUFACTURING INDUSTRY?", "acceptedAnswer": { "@type": "Answer", "text": "Marketing plays a pivotal role in the manufacturing industry. Through marketing, customers are well informed about products or services a company offers. Also, marketing helps in building the brand name, awareness, and visibility of a company." } },{ "@type": "Question", "name": "HOW TO USE SOCIAL MEDIA MARKETING IN MANUFACTURING?", "acceptedAnswer": { "@type": "Answer", "text": "Social media marketing in manufacturing can be ideally used in these ways: Choose right platform Share useful content Create advertisements Create creative posts Connect with in-market participants Encourage engagement Create videos and share Address problems and provide solutions through content" } },{ "@type": "Question", "name": "WHAT ARE THE IMPORTANT ASPECTS OF MARKETING FOR THE MANUFACTURING INDUSTRY?", "acceptedAnswer": { "@type": "Answer", "text": "Being the crucial part of any company in the manufacturing industry, essential aspects of marketing are: Website Brand name Platform Promotion SEO Sales" } },{ "@type": "Question", "name": "HOW CAN EMAIL MARKETING HELP TO MARKET IN THE MANUFACTURING INDUSTRY?", "acceptedAnswer": { "@type": "Answer", "text": "Email marketing in the manufacturing industry can help by creating informational content. Start from offering subscription options to potential customers, clients, and visitors. Send updates, information, an overview of the company's services and products to aware the reader and convert them into loyal customers." } }] }

Read More

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.

Read More

Spotlight

Spartech

Spartech is a leading plastics manufacturer that leverages our knowledge of materials, processing, and application development to deliver the highest level of value to our customers. Headquartered in St. Louis, Missouri, and with 14 manufacturing facilities located throughout the United States, our company is making a world of difference in plastic solutions that are sustainable, diverse and reliable.

Events