When an email account with a nonsensical address pretends to be your CEO asking you to buy gift cards, you might deduce that it’s a phishing scam, right? That attempt probably won’t get far, but cyberattacks are a more sophisticated threat and potentially much more damaging to manufacturers of all sizes than they might imagine, warns eSentire Vice President of Industry Security Strategies Mark Sangster.
In a recent webinar produced by the NAM’s Leading Edge program, titled “Go Phish: Building Cyber-Resilience with Managed Phishing and Security Awareness Training,” Sangster laid out some useful advice for businesses. Here’s some of what he had to say.
The threat: Cyberattacks pose a threat to manufacturers of all sizes. While there is a widespread assumption that attackers are only interested in larger corporations, the truth is that small and medium-sized businesses make up a significant number of targeted organizations. Lest manufacturers imagine that they don’t have anything a hacker or attacker would want, Sangster made clear that a great deal of information held by manufacturers is extremely valuable to attackers.
- “If you look at the insurance data on claims, it’s small and medium-sized businesses, and in particular manufacturers, that are targeted,” said Sangster. “In fact, about a third of those attacks generally focused on manufacturers.”
- “You have data and assets worth stealing,” said Sangster. “You have secret recipes and manufacturing automation controls, and data that’s involved in that. And personally identifiable records and intellectual property. And depending on the type of business you’re in, it might be health care records and so on.”
The approach: While stereotypes often suggest that most phishing emails and other scams are obviously fake, many cyberattacks are extremely sophisticated, using specifically targeted methods to gain access to vulnerable networks, Sangster noted.
The good news: Even nation states and powerful ransomware gangs tend to leave a trail before an attack that can help manufacturers identify looming problems and thwart a breach.
- “There are signs and symptoms that something’s going on,” said Sangster. “There are steps you can take to prevent this from happening. And if you get into a hand-to-hand battle with these guys, there is an opportunity to identify it before it metastasizes throughout your organization and becomes those massive business-disrupting ransomware outages that we sadly read about.”
Some low-hanging fruit: Sangster highlighted a few protocols that manufacturers use to prevent most cyber attackers from gaining access, including multifactor authentication or a secure remote connection, like a VPN, or a software-defined perimeter that verifies the identity of a device before it is granted access to application infrastructure.
- “Following these recommendations knocks away 90% of the risks that you face,” said Sangster.
Roll tape: For more information about the stakes of this moment, the importance of cybersecurity and the steps that you can take to protect yourself and your business, check out the full webinar here and learn more about eSentire here.
The next step: Solid cybersecurity is a must for any organization. To help manufacturers protect themselves, the NAM created NAM Cyber Cover, a risk-mitigation and cyber-insurance program that helps manufacturers detect and cover any vulnerabilities. Check it out here.
What is the biggest cybersecurity threat to manufacturers today? It’s ransomware, according to the experts who spoke at a recent NAM webinar.
What they’re saying: “Ransomware … has really become the biggest threat to a lot of organizations,” said ABB Global Cyber Security Manager of Power Generation Jim Lemanowicz during the “The State of Cybersecurity,” a webinar hosted by the NAM’s Leading Edge program. Ransomware is malicious software that encrypts a victim’s data until a ransom is paid to the attacker.
- “It’s not intended to necessarily attack the industry” it’s victimizing, he continued. “It’s purely a financial incentive, and it’s indiscriminate.”
No more small-time hits: Up until recently, one-time hacks into computer systems were more the norm among hackers seeking an illegal payday. “One thing that’s drastically changed is, now [cybercriminals] recognize that massive operational outages are the way to go,” said eSentire Vice President and Industry Security Strategist Mark Sangster. “And they can elicit seven-figure payments. It’s been professionalized. You can hire a freelancer.”
Assess your risks: What does all this mean for manufacturers? Assessment is key, said Lemanowicz.
- “Address the risk based on the criticality of the system—you know, what’s going to really cause you to have something that you can’t recover from, something that’s going to be a lasting problem,” he said. “Some systems you may be able to take offline” or use once a week or once a month.
- In cases where the isolation of a device would wreak operational havoc on your business, consider building redundancies into the system to isolate the devices effectively in the event of a breach. “Controlled access points between systems [mean] a ‘cascading effect’ is less likely,” Lemanowicz continued.
The way in: As the saying goes, an ounce of prevention is worth a pound of cure. Beware of often legitimate-looking spear-phishing attacks, which will appear to come from someone you or your employees know.
- Today’s cybercriminals “have lists,” Lemanowicz said. “They map out the different industries. They have an understanding of who’s involved in what levels in that organization.”
What else can you do? The panel experts had some additional tips for manufacturers looking to keep their systems free of cybercriminals.
- Use multifactor authentication.
- Use a virtual private network (VPN).
- Train all team members—including the C-suite—on good “digital hygiene” practices.
- Regularly update all systems.
The last look: One of the best ways to view cyberattacks is by “using a cooking analogy,” Sangster said. “People think of state-sponsored actors and criminal gangs as being highly sophisticated, [but] what they don’t necessarily understand is that the ingredients they might use aren’t sophisticated. It’s salt, and it’s pepper, and it’s chicken. But it’s how they combine those” that can make a situation dangerous to companies.
- The top way to avoid falling victim to these “recipes”? Said Sangster: “Having the basic [digital] hygiene in place.”
Artificial intelligence offers manufacturers a host of benefits. These include better visibility into supply chains, insights from predictive analytics and the ability to respond to unexpected changes in demand more efficiently and quickly. Here’s a six-step roadmap for manufacturers looking to integrate AI into their business.
Six-Step AI Roadmap for Manufacturers
- Acknowledge AI’s potential
Engage the C-suite in dialogue about how best to use AI. Allocate resources for specific AI projects and set priorities across the business. Pick company AI “agents” who can create business cases, develop metrics and put AI solutions into action.
- Transform and plan
Create an AI plan that includes key performance indicators in line with your business strategy. Establish a special data unit to address needs AI could help support, such as data collection and cleansing.
- Build your data foundation and structure
Convert any remaining nondigital data, “clean up” other data sources so they don’t contain errors or duplicates and add structure to boost your data quality and effectiveness.
- Create an external “partnership ecosystem”
If your business doesn’t have in-house AI expertise, engage outside experts such as start-ups, academic specialists and consultancies.
- Leverage in-house AI expertise
Employ outside AI experts to teach other staff members about data science. Your existing workforce will need this information to learn new skills and fulfill new responsibilities.
- Create architecture and infrastructure
Consider using standardized infrastructure service offerings that can slot easily into your existing business setup. This will make integration much smoother.
Why does AI matter? Manufacturers that create AI-friendly cultures today are positioning themselves to boost customer and employee satisfaction tomorrow—and they’re gaining a competitive edge to boot.
Did you know that several of the components in your car may have passed under high-intensity UV light prior to your purchase? You may have heard that manufacturers coat headlights with a UV protective film to keep them from getting scratched by road debris, but several other components are also manufactured using UV—including windshield borders and the protective coating on interior trim. The process is called UV “curing,” which dries coatings consistently, efficiently, durably—and without releasing harmful chemicals into the atmosphere, as other drying processes do.
The NAM got a firsthand look at this technology recently, thanks to manufacturer Miltec UV of Stevensville, Maryland. The company manufactures UV systems that cure products like optical fiber, semiconductors, prefinished hardwood floors and cars, supplying this technology across the country and around the world. NAM Director of Photography David Bohrer visited Miltec’s facility to check it out.
Here, an employee at the Bulb division is making a UV bulb. Miltec manufactures thousands of bulbs each year for export around the globe:
When dealing with UV technology, safety comes first. Here, an employee working in the Li-ion Battery Research and Development lab is assembling coin cell batteries in a glove box. The batteries will be used as test samples.
The set of a sci-fi movie? Nope. It’s just the testing of a 16-lamp UV curing system that produces more than 530 KW of UV power. Ultimately, the customer will use this system to cure inks and coatings on a high-speed printing press that manufactures outdoor packaging bags, such as for Miracle-Gro.
Of course, you can’t go through an entire story about UV light without a cool picture of UV light—so here it is. This is a UV bulb after it’s been filled with an inert gas, which helps it illuminate its powerful UV light.
Miltec says: “Miltec UV is proud to be a member of the NAM and extremely grateful for all of the work that the NAM does to protect the jobs of our team members that do so much to help our company grow and succeed in the international market,” said Miltec President Bob Blandford. “We are also honored and blessed to have such a dedicated manufacturing team that truly understands the importance of making products in the USA and satisfying customers with reliable and high-performance products. With the help of tax cuts, Miltec UV is doing its part by creating more jobs, increasing salaries and offering end-of-year bonuses for its employees.”
Eastman may be a specialty materials company, but its focus these days is expansive: the well-being of the planet and the sustainability of manufacturing practices.
“We have three main pillars,” Eastman Executive Vice President and Chief Technology & Sustainability Officer Steve Crawford told us. “How do you improve the climate? How do you care for society? And how do you eliminate waste?”
Eastman means to do all three.
Circular economy: Among Eastman’s goals for the foreseeable future is making major strides toward the creation of a circular plastics economy, a model of production and usage that emphasizes the reuse and refurbishment of plastic products over new creation.
- Eastman encourages traditional, also known as mechanical, recycling when it can be used. However, “300 million metric tons of plastic get produced in the world every year, with less than 20% collected for mechanical recycling. In the U.S., less than 10% actually gets recycled,” said Crawford, who has been with Eastman for 35 years. “Most of it ends up in landfills, incinerated or worse.”
Under construction: Eastman, which plans to make its operations carbon-neutral by 2050, is constructing what will be one of the world’s largest plastic to plastic molecular recycling facilities in Kingsport, Tennessee. It is slated for completion by the end of 2022.
- Eastman estimates that by 2025, the facility will be diverting 250 million pounds of plastic waste every year. By 2030, the company plans to make that figure 500 million.
Why it’s important: “Mechanical recycling—where you go out and take items like single-use bottles, chop, wash and re-meld them and put them back into textiles or bottles—can only really address a small portion of the plastics that are out there,” Crawford said. After a few cycles, the polymers in the products degrade and the process is no longer possible.
- Instead, Eastman uses advanced, also known as molecular or chemical, recycling. “We unzip the plastic back to its basic building blocks, then purify those building blocks to create new materials,” Crawford said. This “creates an infinite loop because that polymer can go through that process time and time again.”
Additional measures: Eastman also makes use of carbon renewal technology, in which hard-to-recycle mixed plastics are brought into the recycling stream, broken down to the molecular level and reformed into textiles and other materials. Fully 40% of the material in Eastman’s Naia Renew cellulosic fiber, in fact, comes from the plastic reclaimed through this process, Crawford said.
- The company is involved in polyester renewal technology as well. Using colored soda bottles, old carpet and a variety of other mixed plastic waste streams, Eastman creates new materials that can be used to make everything from reusable containers to electronics to eyeglass frames.
First do no harm: Before implementing any new technology, Eastman makes sure of one thing: that it has a lower greenhouse-gas footprint than the process it will replace. Said Crawford: “We fundamentally believe that solving the waste issue should not hurt the climate.”
- The company also has a long-term goal regarding emissions: it plans to reduce its greenhouse-gas output by one-third by 2030.
The policy angle: To make a real difference where plastic waste is concerned, the U.S. needs “smart” policies in place, Crawford said. Eastman’s recommendations include:
- Incentives, mandates and infrastructure investment that will increase all recycling;
- Cooperation between companies, nonprofits and local and state governments that have effective models for aggregating and collecting plastic waste; and
- Legislation to ensure the definition of recycling includes advanced-recycling techniques.
The last word: “There is no one company that’s going to be able to create the circular economy by themselves,” Crawford said. “It’s going to take partnerships across the value chain and really smart public policy. We can’t solve this issue alone.”
The human side of digital transformation was on full display at a recent virtual plant tour of BASF Chemical Intermediates Geismar, Louisiana, facility. Hosted by the NAM’s Manufacturing Leadership Council, the tour gave participants an inside look at how the company is using Voovio’s enhanced-reality technology to transform employee training.
Who they are: BASF Chemical Intermediates, a division of German multinational chemical manufacturer BASF, makes approximately 600 distinct products sold worldwide to the chemical, plastics, agricultural and consumer goods industries, among others.
What is Voovio? The company has partnered with simulation-software maker Voovio to design a customized training solution for its employees: a virtually accessible digital replica of the BASF plant.
- Using a computer or other digital device, employees can select plant components such as valves, pumps and control panels to get a detailed view of each. These components respond and perform virtually the same way they would in real life.
- Using the software, trainees can click on any piece of equipment in any workflow to see how it fits into each process.
Why use it? BASF wanted to make worker training faster, more interactive and more self-directed so employees could learn new skills and review existing ones more quickly and easily.
Scalable training model: The tailorable Voovio software offers different training-module levels based on each worker’s experience level and skills.
- Training modules include an equipment replica, tasks to be performed and an action checklist for completing a series of tasks.
- Employees get feedback from the software as they perform each virtual procedure, letting them know whether they’ve performed a task correctly.
Real-world application: Voovio also lets companies take the training into the production facility. Using an approved digital device, employees can perform test runs at any time to ensure they’re prepared to complete a job on the ground.
The verdict: BASF has already begun to reap the benefits of the software. Since implementing Voovio, it has seen a marked increase in both worker competency and productivity.
Sign up for a virtual plant tour: Don’t miss the MLC’s upcoming tour of Johnson & Johnson’s facilities on Wednesday, Dec. 1, from 11:00 a.m. to 1:00 p.m. EST. You will see how Johnson & Johnson uses mobility tools, advanced robotics and material handling, as well as adaptive process controls to drive improvements. After the tour, stay for the panel discussion on how to scale advanced manufacturing technologies to ensure a sustainable, reliable and adaptable product supply chain. Sign up today!
If you can buy anything online, how can you make sure that what you’re buying is genuine?
That’s a problem facing consumers and manufacturers alike. According to the NAM’s research, fake and counterfeit products cost the United States $131 billion and 325,000 jobs in 2019 alone—and estimates suggest that global trade in counterfeits exceeds $500 billion per year. The explosive rise of counterfeit goods has heavily impacted manufacturers, requiring them to fight back on a range of fronts.
For Clint Todd—the chief legal officer at Nite Ize, Inc., a manufacturer of mobile, pet and key accessories, as well as hardware, lighting and other products—that challenge is very real and only getting worse.
“In 2019, we took down 75,000 counterfeit listings and websites,” said Todd. “And we’re a small business, so you can guess how large the problem is countrywide.”
Why it’s happening: First, the online nature of e-commerce makes it more difficult to ensure accountability. Many counterfeit products are purchased through third-party sellers that may or may not provide real contact information.
- In practice, many platforms have not been held liable for counterfeit products sold on their platforms by these third-party sellers, even as they facilitate their sale. That means there’s often little manufacturers can do beyond asking the platforms to remove the listing.
- Second, a large proportion of the sellers of counterfeit goods are located in China and Hong Kong, making it much more challenging for U.S. companies to bring effective lawsuits, even if they do have accurate seller contact information.
“You have this odd confluence of laws and tech development and the involvement of another country that has driven this exponential increase in counterfeits,” said Todd. “You don’t have to be a rocket scientist to see how the inability to fight the problem has been detrimental to U.S. businesses.”
How manufacturers respond: Manufacturers and others have been forced into a piecemeal strategy that includes using software tracking services to find fraudulent trademarks and images; working with third-party sites to remove listings for knockoff merchandise; bringing lawsuits against counterfeiters where possible; and coordinating with the International Trade Commission. That strategy is challenging for lots of manufacturers but is particularly hard on small and medium-sized companies that may have fewer resources yet can be devastated when their products are ripped off.
What we need: The NAM’s report, “Countering Counterfeits,” details solutions for the federal government and the private sector, including:
- Requiring e-commerce platforms to reduce the availability of counterfeits;
- Modernizing enforcement laws and tactics to keep pace with counterfeiting technology;
- Streamlining government coordination;
- Improving private-sector collaboration; and
- Empowering consumers to avoid counterfeit goods.
As Todd put it, “It’ll take a multi-stakeholder approach. It’s not just the government. It’s not just manufacturers. It’s not just the online platforms. It has to be a coordinated approach with all those stakeholders to get to the heart of the matter.”
What the NAM is doing: The NAM is leading the effort against counterfeiting and has already made significant headway with policymakers. Among its recent highlights:
- After years of NAM advocacy, the Department of Homeland Security has implemented the Synthetics Trafficking and Overdose Prevention (STOP) Act of 2018, which steps up screenings for international mail shipments—one way in which counterfeits get into the U.S.
- In late 2020, Congress also implemented several NAM recommendations, including bolstering federal oversight at U.S. ports; cracking down on scammers and other bad actors exploiting the pandemic by producing fake goods or engaging in price gouging; and allowing the FDA to seize and destroy dangerous counterfeit medical devices.
- Both the Senate and House have seen the introduction of bipartisan bills that incorporate NAM recommendations on addressing the sale of counterfeits through online platforms.
The last word: “People need to understand the scope of the problem and how pervasive it has become,” said Todd. “Everyone needs to know how often counterfeits and knockoffs are affecting U.S. companies and how expensive and difficult it is to combat the problem with the tools we have at our disposal now.”
One small component is creating big delays in global supply chains: the ubiquitous semiconductor or chip. These components are not only essential to our phones, laptops and other electronics, but to the production process in just about every sector of the manufacturing industry. So, what would help us produce more of these desperately needed parts? According to Birlasoft Vice President and Global Business Head of Communications, Media & Technology Nitesh Mirchandani, the answer is cloud computing.
Why the shortage? As COVID-19 unfolded, millions of consumers purchased new laptops, smartphones, game consoles and other devices as they spent more time at home. This shortfall was compounded by the existing high demand for chips brought on by the growth in smart products—everything from thermostats and appliances to robot vacuum cleaners and GPS-enabled dog tags. COVID-19 also caused a wave of semiconductor factory closures that also exacerbated the problem. The result? A shortage that industry experts say could last through 2022.
Why the cloud? Cloud computing is the on-demand delivery of resources like data storage, software, networking and other services via the internet. Users either purchase a set subscription or pay by their level of usage—both cheaper and more flexible options than maintaining an on-site IT team for all needs. Cloud computing has several advantages for semiconductor manufacturers, according to Mirchandani:
- It speeds up time to market through swifter design and development. Because they can be accessed anywhere, cloud services enable teams to connect and collaborate more easily. Development cycles become quicker as teams connect better internally and with other parts of the business, including partners and suppliers.
- It enables data-driven business decisions. Thanks to the faster processing and analysis of cloud computing, manufacturers can get instant information on things like factory performance, supply disruptions or customer demand. Likewise, workers can be alerted to a machine that needs maintenance or to potential defects in materials or products.
- It provides service continuity. Internal IT teams often have limited resources. Cloud infrastructure is managed by specialists who can ensure uninterrupted service, so in-house IT teams don’t need to continuously maintain software through updates and patches.
Why it matters: Semiconductor shortages threaten to drag down the economy just as recovery is getting underway. Businesses rely on chip-enabled technologies for creating products, managing operations and maintaining the flow of goods and services. Consumers rely on them for smarter, safer homes and connections to work or school. Unless chip manufacturers can shore up production to meet demand, the ripple effect will create added distress for many sectors of the economy.
Consumer goods manufacturer Church & Dwight found that it needed to boost performance to meet customer demand. To meet this goal, it embarked on an ambitious Lean initiative at all of its 13 production facilities.
“We look at all challenges through the lens of Lean manufacturing—it’s the only way that we can operate,” said Bruno Silva, vice president of manufacturing operations.
What’s Lean? Researchers James Womack and Daniel Jones first defined the concept of Lean manufacturing as “a way to do more with less … while coming closer to providing customers exactly what they want.” Many manufacturers see mastering Lean as an essential springboard to operational initiatives like digital manufacturing and other advanced production practices.
Setting the stage: In developing its Lean program, Church & Dwight first held a weeklong leadership summit to decide on standards and expectations. The company’s leaders came up with a Lean assessment system with 16 standards and a definition for achievement at the gold, silver and bronze levels. But the essential part was ensuring frontline employees were driving improvement from the bottom up—not the other way around.
- “This is not corporate pushing it down,” said Felipe Vilhena, director of Lean manufacturing – global operations. “We help workers overcome challenges and give them the right tools to do that. We created a mindset and expectation that improvements are part of the work.”
Putting it into practice: Initially, each worker was asked to list five potential improvements at his or her site, and then go out and make them. The company provided training and support to help with these fixes, while managers kept employees fully informed of their progress according to key indicators.
- Workers formed self-directed teams and continued to seek out improvements, which they began making more and more frequently. Thanks to the trust and autonomy that employees were given, engagement and retention measurably increased at the same time.
Receiving recognition: The company’s achievements have received recognition from its peers in the industry. One of its top-performing facilities in Green River, Wyoming, earned the company a 2021 Manufacturing Leadership Award in the Operational Excellence category from the NAM’s Manufacturing Leadership Council.
The last word: “It was important to create the right expectation and mindset,” Vilhena said. “From big to small improvements, we are seeing them happen every day.”
The NAM’s Makers Series is an exclusive interview series featuring creators, innovators and trailblazers in the industry sharing their insights and advice. In this episode, you’ll meet Matt Lipsitz and Adam Lebovitz of Formlabs, who discuss how PTC Onshape helps Formlabs improve their 3D-printer design. Learn how PTC has helped Formlabs “try out new ideas that weren’t possible in the past.”