Article | April 6, 2021
Inbound marketing has become a vital part of the manufacturing industry, especially after the pandemic. Marketers want to get more business, more high-quality leads, increase revenue, and expand it into new markets. A lot of opportunities are arising for manufacturers to embrace its effectiveness—especially online.
Unlike other industries, the manufacturing industry is not safe from the continual pendulum swing of updates, new platform creation, and changing buyer preferences. Manufacturing marketing has its own blend of deliverables and initiatives that can spell the success of your business.
Until now, you must have realized that your traditional marketing tactics are obsolete and would have planned to get the inbound marketing program off the ground.
Here comes the critical part—understanding how to implement inbound marketing for your business to generate high revenue. With the help of these five steps, you can stay ahead of your competition.
Before you approach the steps, first you need to:
Identify your Customers’ Pain Points
Understanding what frustrates your buyers gives an insight into how to answer the queries they look for. To determine what queries your buyers may have, you can:
Interview your customers: Your customers are your leading source of information. Ask them what solutions they are searching for. What content did they read to solve their solutions? What information, insights, FAQs, or product details can help them? This way, create content that answers all of these questions.
Talk to your sales representative: Your sales team is on the front line with your buyers/customers. They very well know what content gaps can be filled. Identify the gaps and work accordingly.
These considerations will help you to stay updated in the competitive landscape of manufacturing marketing.
Now, start your inbound marketing program by following these steps.
When planning inbound marketing, your website becomes the center of the universe. It’s where all your marketing efforts, like great content for your prospective buyers come in. After all, this is how you’re going to start ranking on search engines and driving in leads.
Before you get to this part, you’ll need to do a basic audit to ensure your website is in tandem with your targeted audiences’ expectations.
The website interface is the focal point that helps buyers to interact. This will help them to interact with your business. And if their experience is negative, they’ll probably never bother to read further. To avoid such circumstances, here are a few critical web design tips you should know and implement:
A Clean Look
Keep your website simple and embrace spaces to make it more appealing to the eyes. Too many visuals and color combinations will make it hard to find the information they’re searching for. Creating a simple yet appealing website neither costs your pockets nor makes it hard for your audiences to contact you.
Tablets and smartphones have overtaken desktop computers. So, creating a mobile-friendly design will ensure your website looks impressive on any screen size. Your audience does not feel lost, and it helps to scroll information from your website.
Move from HTTP to HTTPS
With massive data breaches becoming common in the internet world, your audience will be more concerned with security and privacy than ever. Converting your website from HTTP to HTTPS will protect their information. Also, it will help you get ranked on the Google search engine.
Create Informative Content
Content is the backbone of inbound marketing efforts. It’s how you can build a strong audience base for your business and convert them into leads.
To market your business effectively, you need to provide informative yet relevant content at every stage. Think of creating a blog to inform rather than a sales tool. With this notion, your content will rank and stay on top of the mind throughout your customers’ buyer journey. This means your industry-related content has to be interesting and attract visitors to become your leads.
To understand how your content needs to work, list these funnels of content ideas and try implementing them.
Content Ideas: Top Funnel
Include content in these ways:
Social media posts
Videos on factory products tour
Content Ideas: Middle Funnel
While the top of the content funnel is the widest, the middle of the funnel is often the deepest. It includes content type such as:
‘How to’ guides
Content Ideas: Bottom Funnel
The bottom funnel creates chances to close the deal and convert visitors/buyers into leads. This includes content ideas such as:
Call to action
So, in the marketing competition landscape, many manufacturers are busy updating their inbound marketing strategies like you. Many others have overhauled their business. While you have a lot on your end, inspire yourself to create that excellent piece of content now!
Invest in Marketing Technologies and Automation
One way to grow your business through inbound marketing is automating your marketing efforts. This way, you can devote more time focusing on the bigger picture. There are tons of tools online to help organize strategies, create content, schedule emails, campaigns and publish to your website. Use them!
Marketing technology usage can help your business to operate faster and more accurately. Here are some automation tools to use:
G Suite: Google’s products are becoming just ubiquitous with a bonus—everything is in the cloud today. You can find your work easily and access it from any device. Also, manage all marketing efforts from one place and collaborate globally in no time with clients.
Sales and Marketing CRM: Customer Relationship Management (CRM) software, like HubSpot CRM, gives you a quick view of your marketing funnel and sales channel. Not only does it enable transparency all across, but it gives you hours back in the day by starting different events and marketing flows automatically.
Email Marketing: Emails are the most effective marketing channels in terms of ROI. Email usage endures growing around 4% year-over-year. And has no signs of slowing down anytime soon. In this case, many emailing tools are available. Like HubSpot is well known for its CRM and inbound marketing software. It boasts exceptional deliverability for emails. With about 2,000 email sends/month, contact lists, a drag-and-drop email builder, and ready-made templates, you can start right away.
These are some examples to decide what's best for your industrial inbound marketing efforts. Get started today!
Keep Tracking your Marketing Efforts
You’re spending your time, energy, efforts, and resources on marketing to grow your business. So, it’s essential to track your marketing initiatives and see if it’s functioning as expected or not.
Here are some crucial aspects with which you can keep track of your marketing program:
Get an ROI measuring tool:For measurable goals, you’ll want to select KPIs to measure ROI. Some common ones include the cost per sale, per lead, overall marketing program, and overall customer relationship length. You can also set points for channel performance with campaign-specific KPIs, including email open rate or social media impressions.
Google Analytics:This is a free tool. It will help monitor your website's health by tracking site metrics such as page views, visits, and clicks. With this, you can easily set up customized reports to monitor specific metrics of interest for your campaigns.
Lastly, get a lead generation tool that tracks who is in-market for your services. How they’re interacting with your online presence and where they are in their solution journey.
Inbound Marketing Case Study: Get Inspired!
If you ask your competitors what their main goals are for their company, the answer would most likely be related to increasing sales and leads. Even if they mentioned other purposes, such as improving website performance and SEO or redesigning a website, the main objective would be to get more traffic. And it will lead to more sales.
For Corrugated Metals, Inc., these were the goals. This manufacturing company deals in roll formation. It manufactures products for the equipment, construction, transportation, and defense industries.
The company used inbound marketing strategies during the pandemic and found success with it, resulting in:
Increased quality leads
Increased sales revenue
More opportunities from the manufacturing industry for long term sales potential
Redesigned their website to bring design and UX (user experience) up to date and increase engagement
Maintained and increased SEO
Through the implementation of inbound marketing, the company saw a 198% hike in website traffic and an implausible 285% increase in leads. But that wasn’t all. The quality of leads radically improved by 321%.
Since they were able to identify and target long-term sales prospects through persona-based targeting and lead nurturing, they lined up a potential million dollar per year customer. This created a possibility of 20 years of recurring sales.
In a nutshell, using these inbound marketing tactics can bring high revenues to your business.
1) PLAN! Do as much research as you can. Know your industrial customers. Find what’s trending. Analyze what worked, what didn't work, and why. And start with these ways to boost marketing for your business.
2) CREATE! Use the information as the backbone to create a stellar inbound marketing plan. Be patient, and do one project at a time.
3) OPTIMIZE! There are ways to improve. And if you’re testing correctly — no industrial marketing strategy will ever fail.
In a recent 2020 Thomas Industrial Survey, there has been a 12% surge in website usage by manufacturers using inbound marketing campaigns to connect with more buyers and customers since the outbreak of COVID-19. Therefore, adjusting your manufacturing inbound marketing strategies today will perhaps help you win more business down the road.
Frequently Asked Questions
What manufacturers should follow to do inbound marketing?
Manufacturers implementing inbound marketing should follow some crucial aspects before they start. These attract customers—don’t interrupt them, measure all activities, nurture leads, do SEO and social media activities precisely.
What are the four stages manufacturing marketers should know about inbound marketing?
There are a lot of relatable things to do inbound marketing. But along the top four things, manufacturers must know to drive business growth are attract, convert, sell and create leads.
Does inbound marketing for manufacturing works?
Absolutely. Inbound marketing for manufacturers has been fruitful. If you are willing to include it in your business, you will reap its benefits and see your business growing with time. Creating a proper strategy is foremost.
"name": "WHAT MANUFACTURERS SHOULD FOLLOW TO DO INBOUND MARKETING?",
"text": "Manufacturers implementing inbound marketing should follow some crucial aspects before they start. These attract customers—don’t interrupt them, measure all activities, nurture leads, do SEO and social media activities precisely."
"name": "WHAT ARE THE FOUR STAGES MANUFACTURING MARKETERS SHOULD KNOW ABOUT INBOUND MARKETING?",
"text": "There are a lot of relatable things to do inbound marketing. But along the top four things, manufacturers must know to drive business growth are attract, convert, sell and create leads."
"name": "DOES INBOUND MARKETING FOR MANUFACTURING WORKS?",
"text": "Absolutely. Inbound marketing for manufacturers has been fruitful. If you are willing to include it in your business, you will reap its benefits and see your business growing with time. Creating a proper strategy is foremost."
Article | November 20, 2021
Advanced manufacturing enables the concept of industry 4.0 and represents a significant milestone in the manufacturing industry. Additive manufacturing is a critical component of the industry 4.0 concept, propelling the industry to new heights of innovation.
In various fields that are not immediately related to industry 4.0 or manufacturing, additive manufacturing has alternatively been referred to as 3D printing. The numerous advantages of additive manufacturing, such as reduced cost and time, are boosting its popularity and use in manufacturing and other industries.
“Digital technology is so empowering on so many fronts, but for it to be empowering, it must be for everyone.”
– Michael Walton, Director, Industry Executive (Manufacturing) at Microsoft.
The global market of additive manufacturing is anticipated to increase at a 14.42 percent compound annual growth rate from USD 9.52 billion in 2020 to USD 27.91 billion in 2025. According to this market research, the future of 3D printing or additive manufacturing is quite bright in the coming years, and we will see widespread application across industries.
First, let us understand the idea of additive manufacturing and its benefits to various industries.
Concept of Additive Manufacturing
Additive manufacturing is building a real thing from a three-dimensional computer model, often by successively layering a material. This technique utilizes computer-aided design (CAD) software or 3D object scanners to command devices to deposit material in exact geometric shapes layer by layer. As the name implies, additive manufacturing involves the addition of material to produce an object.
Additive Manufacturing Benefits
Produces Fewer Scraps and Trash
When we compare additive manufacturing to traditional manufacturing techniques such as milling or turning, additive manufacturing adds only the amount of material required to build a product. As a result, it generates less waste and conserves scarce resources.
Reduces the Time and Cost of Prototyping
Making a product prototype is now faster, easier, and cheaper. Other production processes, like milling, have high setup and material costs. Prototyping is less expensive and takes less time, so you can quickly produce, test, and modify. It also shows practically instant verification of progress done.
It Encourages the Digitalization of Businesses
Continuous and effective communication between devices, machines, and robots is required for additive manufacturing. However, this is only achievable with effective digitization of production processes. As a result, businesses invest more in digital and IoT, a prerequisite for Industry 4.0.
It Simplifies the Assembling Process by Condensing it into a Single Component
Additive manufacturing in Industry 4.0 also simplifies the production process, especially product assembly. A traditional component requires numerous manufacturing procedures. This increases material and labor expenses as well as production time. However, additive manufacturing allows you to print the group in one piece.
The Top Three Industries That Make the Most Use of Additive Manufacturing
Additive manufacturing is presently used in a variety of industries. However, specific sectors make the best use of it. Thus, we will examine the industries embracing additive manufacturing technology and emerging with new life easing solutions.
In the healthcare industry, dentistry is the critical application of additive manufacturing. Technology helps it create bridges, crowns, braces, and dentures, always in high demand.
Additive manufacturing has also been used to create tissues and organs, surgical tools, patient-specific surgical models, and personalized prosthetics. For example, many medical equipment companies employ 3D printing to build patient-specific organ replicas that surgeons can practice before completing complex surgeries.
Additive manufacturing is utilized to fabricate metal brackets that serve as structural components within airplanes. Prototypes are increasingly being printed in three dimensions, allowing designers to fine-tune the shape and fit of finished parts. In addition, interior airplane components such as cockpit dashboards and door handles are manufactured using 3D printing services.
3D printing can manufacture molds and thermoforming tools, grips, jigs, and fixtures for the automotive industry. Automakers utilize additive printing to customize parts for specific vehicles or drivers (e.g., seats for racing cars).
An appealing colored dashboard, efficient fuel systems, and complicated braking mechanisms are all possible with 3D printing in the automotive industry. Therefore, it is best suited for pre-production, manufacture, and modification of automotive parts.
How Does NASA use additive manufacturing in its space projects?
The space environment has always been unpredictable, and scientists must be adequately prepared before embarking on any space mission. They must consider the durability and weight of all the objects they propose to transport into space. To land any object on a planet that does not have a flat surface or similar weather conditions to earth, scientists must design each object with these considerations in mind.
“You always want it to be as light as possible, but you also want it to be strong enough.”
-Chris Chapman, NASA Test Engineer
It is not conceivable to make items capable of dealing with all the changes on other planets and achieving these project objectives using conventional materials and production processes. However, scientists do require a technique that will enable them to manufacture lighter and stronger objects for their space missions.
3D printing has played a significant part in meeting this demand and has provided space projects to manufacture objects that would withstand any unexpected events during space missions. For example, NASA employed 3D-printed metal components in their Mars project.
NASA's specialized engineers are utilizing additive manufacturing to create rocket engines and possible Moon and Mars outposts. NASA used the 11 3D printed metal components on its Mars mission as well. It employed 3D printed components for the first time in the Curiosity rover, which landed on Mars in 2012. It was a successful project, and NASA has since begun employing 3D printed parts in its space missions to make machines lighter while remaining robust and functional.
Additive manufacturing technology is making a real difference in the manufacturing process, and it is becoming the trending technology in the manufacturing industry. The benefits of additive manufacturing make the manufacturing process more advanced, easy, and customer-oriented. Additive manufacturing is the major transformation in the manufacturing industry and will take it to new heights of precision.
Why is additive manufacturing critical?
Additive manufacturing reduces the time and cost of prototyping and reduces the scraps amount during the manufacturing process of any object. In addition, it simplifies multiple processes from various industries.
Are additive manufacturing and 3D printing the same?
Yes, additive manufacturing and 3D printing are the same processes with different names as per the choice of the different industries. For example, in some industries such as space missions, It is also referred to as Fused Deposition Modelling (FDM).
Which is the most applied sector for additive manufacturing?
Healthcare is the industry that utilizes additive manufacturing technology the most. It also helps medical practitioners practice surgery on any critical body part with its 3D printed model from human tissues.
"name": "Why is additive manufacturing critical?",
"text": "Additive manufacturing reduces the time and cost of prototyping and reduces the scraps amount during the manufacturing process of any object. In addition, it simplifies multiple processes from various industries."
"name": "Are additive manufacturing and 3D printing the same?",
"text": "Yes, additive manufacturing and 3D printing are the same processes with different names as per the choice of the different industries. For example, in some industries such as space missions, It is also referred to as Fused Deposition Modelling (FDM)."
"name": "Which is the most applied sector for additive manufacturing?",
"text": "Healthcare is the industry that utilizes additive manufacturing technology the most. It also helps medical practitioners practice surgery on any critical body part with its 3D printed model from human tissues."
Article | November 20, 2021
Additive manufacturing in America plays a significant part in reviving the manufacturing industry and establishing the country as a leader in applying additive manufacturing technology. The United States was formerly the industrial leader, but it fell out of favor between 2000 and 2010 for many reasons, including recession and structural and financial instability.
In this challenging time, technology interventions such as additive manufacturing in the manufacturing business have allowed the industry to survive. As per the recent report by A.T. Kearney, the USA, the industry leader in manufacturing, has worked hard to reclaim its top position in manufacturing and has also been named the leader in additive manufacturing.
Let's look at which fields of America are utilizing the benefits of additive manufacturing technology to reclaim its position as the industry leader.
Additive Manufacturing in America
The manufacturing industry is gravitating toward additive manufacturing, sometimes known as 3D printing. The numerous advantages of additive manufacturing, such as the reduction of material waste, the reduction of prototyping time, the reduction of prototyping costs, the creation of lightweight objects, and the ease with which it can be implemented and recreated, are making it more popular around the world, including in the United States.
In the United States, the additive manufacturing and material industry is expected to be worth $4.1 billion by 2020. China is the world's second-largest economy and is expected to reach a projected market size of US$14.5 billion by 2027, with a CAGR of 27.2 percent from 2020 to 2027.
How does America Leverage the Additive Manufacturing?
US Airforce has launched research into 3D printing
The US Air Force has begun researching 3D printing replacement parts for old planes utilizing a 3D printing platform.
The project initiative credit goes to 3D Systems, Lockheed Martin, Orbital ATK, and Northrop Grumman. America Makes will observe the project in its third stage and be led by the University of Dayton Research. The Air Force Laboratory financed the Maturation of Advanced Manufacturing for Low-Cost Sustainment (MAMLS) program.
The US Air Force will investigate how the 3D printing technology may reproduce components for outdated aircraft. Using additive manufacturing, the replacement parts may be created faster and in smaller batches, with no minimum order quantity. In addition, applying additive manufacturing will reduce the aircraft ground time and eliminate the need for parts warehousing.
American Manufacturing Companies and Additive Manufacturing
3D Systems, Inc.
3D Systems is an additive manufacturing company. Their work goes beyond prototyping. The company's experts use their deep domain expertise in aerospace and healthcare industries to produce competitive additive manufacturing solutions. This global leader in additive manufacturing helps you define business needs, verify manufacturing flow, and scale manufacturing flow.
GE has seen the benefits of additive manufacturing and its options for product design, such as the potential to build lighter, more vital components and systems. As a result, they created goods that are better performing, more sophisticated in design, and easier to produce.
Ford's advanced manufacturing center in Michigan is all about additive manufacturing. The company employs 3D printing extensively in product development and is looking to integrate it into manufacturing lines. As a result, additive manufacturing is now a critical aspect of the Ford product development cycle, enabling prototype parts and product engineering exercises.
The American manufacturing industry has experienced a renaissance as a result of the advent of additive manufacturing. Additionally, it has built its national accelerator and leading collaborative partner in additive manufacturing, "America Makes," which is the largest manufacturing industryglobally in terms of revenue and operates in a variety of areas. However, it is mainly focused on 3D printing or additive manufacturing, which is undoubtedly reviving the country's manufacturing sector.
What are the significant challenges in additive manufacturing?
Limitations in terms of size, consistency of quality, scalability, a limited variety of materials and high material costs, and limited multi-material capabilities are only a few of the prevalent issues associated with additive manufacturing technology.
Which company is leading in additive manufacturing technology in the USA?
3D Systems Corp. is the leading company in additive manufacturing technology with a revenue of $566.6 million.
"name": "What are the significant challenges in additive manufacturing?",
"text": "Limitations in terms of size, consistency of quality, scalability, a limited variety of materials and high material costs, and limited multi-material capabilities are only a few of the prevalent issues associated with additive manufacturing technology."
"name": "Which company is leading in additive manufacturing technology in the USA?",
"text": "3D Systems Corp. is the leading company in additive manufacturing technology with a revenue of $566.6 million."
Article | December 8, 2021
A digital twin is a virtual model of an object or system that comprises its lifecycle. It is updated with real-time data and aids decision-making through simulation, machine learning, and reasoning for the production system.
IoT sensor data from the original object is used to create a digital twin of the system. This cloud-connected data allows engineers to monitor systems and model system dynamics in real-time.
Modifications can be tested on the digital twin before making changes to the original system.
Considering that digital twins are supposed to replicate a product's complete lifecycle and are used throughout the production process, it's not unexpected that digital twins have become prevalent in all stages of manufacturing.
“More than a blueprint or schematic, a digital twin combines a real-time simulation of system dynamics with a set of executive controls,”
– Dr. Daniel Araya, consultant and advisor with a special interest in artificial intelligence, technology policy, and governance
Companies will increasingly embrace digital twins to boost productivity and decrease expenses. As per recent research by Research and Markets, nearly 36% of executives across industries recognize the benefits of digital twinning, with half planning to implement it by 2028.So how does this digital twin technology benefit modern manufacturing? Let's have a look.
How the Digital Twin Drives Smart Manufacturing
Digital twins in manufacturing are used to replicate production systems. Manufacturers can develop virtual representations of real-world products, equipment, processes, or systems using data from sensors connected to machines, tools, and other devices.
In manufacturing, such simulations assist in monitoring and adapting equipment performance in real-time. With machine learning techniques, digital twins can predict future events and anticipate potential difficulties.
For maintenance, digital twins allow for quick detection of any problems. They collect real-time system data, prior failure data, and relevant maintenance data. The technique employs machine learning and artificial intelligence to predict maintenance requirements. Using this data, companies can avoid production downtime.
Digital Twin and Artificial Intelligence (AI) in manufacturing
Using digital twins and AI in production can enhance uptime by predicting potential failures and keeping equipment working smoothly. In addition, there are significant cost savings in the planning and design process as digital twins and AI can be used to replicate a specific scenario.
Maintenance is another area that has seen significant progress with the use of digital twin manufacturing. A Digital Twin powered by AI can predict when a piece of equipment will fail, allowing you to arrange predictive maintenance that is not simply taking information from OEM manuals but can significantly cut maintenance expenses along with reducing downtime.
Using the digital twin, it is feasible to train virtual workers in high-risk functions, similar to how pilots are trained using flight simulators. It also frees up highly skilled workers to upgrade the plant and streamline operations.
General Electric Created the Most Advanced Digital Twin
General Electric Company (GE) is a multinational business based in Boston that was founded in 1892. It has developed the world's most advanced digital twin, which blends analytic models for power plant components that monitor asset health, wear, and performance with KPIs (Key Performance Indicators) determined by the customer and the organization's objectives. The Digital Twin is powered by PredixTM, an industrial platform built to manage huge amounts of data and run analytic algorithms. General Electric Company provides extra "control knobs" or "dimensionality" that can be utilized to improve the operation of the system or asset modeled with GE Digital Twin.
Given the numerous advantages of digital twin manufacturing, the potential for digital twins to be used in manufacturing is virtually endless in the near future. There will be a slew of new advancements in the field of digital twin manufacturing. As a result, digital twins are continually acquiring new skills and capabilities. The ultimate goal of all of these enhancements is to create the insights necessary to improve products and streamline processes in the future.
What is a digital twin in manufacturing?
The digital twins could be used to monitor and enhance a production line or perhaps the whole manufacturing process, from product design to production.
How digital twin benefit manufacturers?
Using digital twins to represent products and manufacturing processes, manufacturers can save assembly, installation, and validation time and costs.
What is a digital thread?
A digital twin is a realistic version of a product or system that replicates a company's equipment, controls, workflows, and systems. The digital thread, on the other hand, records a product's life cycle from creation to dissolution.
"name": "What is a digital twin in manufacturing?",
"text": "The digital twins could be used to monitor and enhance a production line or perhaps the whole manufacturing process, from product design to production."
"name": "How digital twin benefit manufacturers?",
"text": "Using digital twins to represent products and manufacturing processes, manufacturers can save assembly, installation, and validation time and costs."
"name": "What is a digital thread?",
"text": "A digital twin is a realistic version of a product or system that replicates a company's equipment, controls, workflows, and systems. The digital thread, on the other hand, records a product's life cycle from creation to dissolution."