Article | November 20, 2021
Modern manufacturing methods are pioneering and adopting manufacturing industry advancements. To remain competitive in the present era and provide the most excellent industry solutions to your organization and target customer group in 2022, you must employ new manufacturing technologies in your manufacturing processes.
Additionally, embracing current technologies is the ideal approach to tackle the industry's current challenges such as workplace safety, digitalization of operations, and a lack of skilled workers.
This article will discuss some of the leading manufacturing technologies that transform traditional manufacturing facilities into smart manufacturing factories. So, let us begin.
Manufacturing Technology & Innovations for 2022
To better understand industry 4.0, let's look at some of the manufacturing technologies that will dominate the manufacturing industry in 2022.
Numerous industries, including aerospace, healthcare, electronics, and architecture, utilize 3D printing in manufacturing. It is the most widely used technology across industries and will remain so in 2022 and in the years to come.
We may also anticipate more advancements in this technology to help overcome current barriers to 3D printing adoption, including equipment costs, material constraints, lengthier manufacturing times, a lack of knowledge, and legal issues.
Additionally, it would assist manufacturers in overcoming current manufacturing challenges such as increasing product demand, increasing automation, and locating and retaining the workforce in manufacturing plants. It is vital to incorporate 3D technology into production processes to achieve greater precision and accuracy in manufacturing.
The Internet of Things is a critical component of the industry 4.0 revolution. It has altered the environment of data collection and analysis across sectors. For example, the Internet of Things is assisting manufacturers in better understanding manufacturing and supply chain operations, forecasting product demand, and boosting customer experiences.
Implementing IoT in your manufacturing plant will also help you avoid production delays and increase the performance of your production lines. Additionally, it will decrease equipment downtime and improve process efficiency. It also enhances worker safety and enables more effective labor management.
To begin implementing IoT in your manufacturing plant, you must first examine your manufacturing processes and research how other organizations have implemented IoT in their manufacturing processes or products. This method will assist you in determining the optimal location to begin integrating the IoT in your manufacturing plants and transforming them into smart ones.
“Once you start to look at yourself in the right way and realize that projects are at the core of your business, it is easy to see how you should use technology to support your business.”
– Matt Mong, VP of Market Innovation and Project Business Evangelist at Adeaca.
GD & T
The model created in the CAD program for any product is not exactly replicated with the exact dimensions during the production procedures. Thus, manufacturers or engineers utilize GD&T (Geometric Dimension &Tolerancing) to manage and communicate the permissible variation within a product assembly to manufacturing partners and inspectors.
GD&T is a programming language that enables developers and inspectors to optimize functionality without incurring additional costs. The primary advantage of GD&T is that it expresses the design intent rather than the final geometry. However, as with a vector or formula, it is a representation of the actual item.
AR & VR
The two primary transformation aspects in the industry 4.0notion are augmented reality (AR) and virtual reality (VR). AR technology in manufacturing enables firms to operate more efficiently by reducing production time. Additionally, it discovers and resolves manufacturing process difficulties.
Virtual reality technology benefits the industrial business in a variety of ways. It enables product designers to mimic their prototypes or models using powerful virtual reality software. This enables them to correct faults at the first stage of production and minimize production time and cost. Additionally, the technology provides additional benefits, such as increased workplace productivity and safety.
Enterprise Resource Planning (ERP) refers to a comprehensive end-to-end software solution that is used across sectors. It assists the manufacturing business in successfully maintaining production processes and other operational data by avoiding numerous roadblocks along the way. ERP technology enables enterprises to improve process efficiency and product quality by tackling industry-specific difficulties such as insufficient data, operation integration, inventory control, supply chain management, and on-time delivery.
Discover How John Deere Manufactured Their Tractors Using Cutting-edge Technologies
John Deere is a significant firm that embraces innovation and the Internet of Things. The company integrates Internet of Things sensors, wireless communication, and intelligent land management systems. It further integrates IoT tools into its manufacturing process, bridging the gap between technologies. Additionally, the company is a pioneer in GPS technology. Its most modern technology, which it incorporates into tractors, is accurate to within two centimeters. Additionally, the organization has implemented telemetry technology for predictive maintenance.
Manufacturing innovations are assisting manufacturers in modernizing their traditional manufacturing processes. Modern manufacturing is equipped with modern technologies that aim to improve the processes and goods, increasing the manufacturers' commercial revenues. So, to remain competitive in this age of technological innovation, manufacturers must update their manufacturing processes to remain relevant in today's manufacturing world.
What is manufacturing innovation?
Manufacturing innovation includes new technology, supply chain modifications, and product and process improvements. As a result, businesses can benefit significantly from innovation and typically surpass their competitors.
Which technologies are considered to be a component of advanced manufacturing?
3–D printing, robotics, IoT, nanotechnology, cloud computing, robotics, and big data are the significant components of advanced manufacturing.
How are cutting-edge technologies assisting the manufacturing sector?
The cutting-edge technology can precisely estimate demand to set production objectives, analyze machine data to predict when parts will break before a human operator can detect, and more.
"name": "What is manufacturing innovation?",
"text": "Manufacturing innovation includes new technology, supply chain modifications, and product and process improvements. As a result, businesses can benefit significantly from innovation and typically surpass their competitors."
"name": "Which technologies are considered to be a component of advanced manufacturing?",
"text": "3–D printing, robotics, IoT, nanotechnology, cloud computing, robotics, and big data are the significant components of advanced manufacturing."
"name": "How are cutting-edge technologies assisting the manufacturing sector?",
"text": "The cutting-edge technology can precisely estimate demand to set production objectives, analyze machine data to predict when parts will break before a human operator can detect, and more."
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.
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.
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.
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
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
Paid ads and PPC
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 creative posts
Connect with in-market participants
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:
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.
"name": "WHAT IS THE ROLE OF MARKETING IN THE MANUFACTURING INDUSTRY?",
"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."
"name": "HOW TO USE SOCIAL MEDIA MARKETING IN MANUFACTURING?",
"text": "Social media marketing in manufacturing can be ideally used in these ways:
Choose right platform
Share useful content
Create creative posts
Connect with in-market participants
Create videos and share
Address problems and provide solutions through content"
"name": "WHAT ARE THE IMPORTANT ASPECTS OF MARKETING FOR THE MANUFACTURING INDUSTRY?",
"text": "Being the crucial part of any company in the manufacturing industry, essential aspects of marketing are:
"name": "HOW CAN EMAIL MARKETING HELP TO MARKET IN THE MANUFACTURING INDUSTRY?",
"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."
Article | December 21, 2021
Consumer demand has shifted dramatically in recent years, and manufacturers are trying to adapt to this shift. To maintain high product quality, minimize costs, and optimize supply chains, manufacturing analyticshas become essential for manufacturers.
Manufacturing analyticsis the process of gathering and analyzing data from various systems, equipment, and IoT devices in real-time to get essential insights.
As technology takes over and enhances many of the processes we used to handle with manual labor, we are freed up to use our minds creatively, which leads to bigger and better leaps in innovation and productivity.
– Matt Mong
Manufacturing analyticscan assist in maintaining production quality, boost performance with high-profit returns, decrease costs, and optimize supply networks.
This article will outline manufacturing analyticsand present a list of possible application cases. It will also highlight the benefits of manufacturing analyticsfor any shop floor or factory.
Manufacturing analytics: An Overview
With manufacturing analytics, we can streamline and speed up the entire process. Data interchange and automation helps in speeding up the production process. Manufacturing analyticsuses predictive manufacturing, big data, Industrial IoT, network virtualization, and machine learningto produce better scalable production solutions.
Manufacturing analyticscollects and analyses data from many sources via sensors embedded in machinery to identify areas for improvement. Data is collected and presented in an easy-to-understand structure to illustrate where difficulties emerge throughout the process.
In short, manufacturing analyticscollects and analyses large volumes of data to reveal insights that might improve performance. Users can also obtain automated business reports to reply in real-time.
Why Manufacturing analytics is Vital for Leading Businesses
There are numerous benefits of manufacturing analyticsthat drive any company’s production and overall manufacturing business growth. The benefits of manufacturing analyticsfall into three distinct categories as below.
It reduces the overall cost: Analytics may save a significant amount of money if used more efficiently. Labor costs are also reduced due to automation and semi-autonomous machinery. Similarly, preventive and prescriptive maintenance programs may save money while enhancing productivity.
It boosts profits for businesses: Manufacturers can respond swiftly to changes in demand using real-time insights in production, inventory management, and demand and supply forecasting. For example, assume the data indicates that they are approaching their maximum capacity. In such instances, they can increase over time, increase capacity, modify procedures, or tweak other production areas to adapt and maintain delivery times.
Other unforeseen benefits: There are several advantages to the increased capabilities enabled by manufacturing analytics. These benefits include lower energy use, safer environmental practices, fewer compliance failures, and more customer satisfaction.
Five Real-world Applications of Manufacturing Analytics
A machine's analytics uses aggregate data from real-time detectors to anticipate when it needs to be replaced or functioning irregularly. This process helps predict machine failure or equipment defects.
Analytics can assist in determining a plant's capacity and how many products are produced by the unit in every production cycle, which is helpful in capacity planning. In addition, analytics may help determine the ideal number of units to create over time by considering capacity, sales predictions, and parallel schedules.
Predictive analytics solutions can automate maintenance requests and readings that shortens the procedure and reduce maintenance expenses.
Product development is an expensive process in manufacturing. As a result, businesses must invest in R&D to develop new product lines, improve existing models, and generate new value-added services.
Earlier, this approach was in place by repeated modeling to get the finest outcome. This approach can now be modeled to a large extent, with the help of data science and technologically superior analytics. Real-world circumstances can be replicated electronically using "digital twins" and other modeling approaches to anticipate performance and decrease R&D expenses.
Many factors that might help in the plan significant capital expenditures or brief breakdowns can be explained using historical data and a few high-impact variable strategies. For example, consider the seasonality of products like ice cream. As a result, historical market data and a few high-impact factors can help explain numerous variables and plan major capital expenditures or short-term shutdowns.
In addition to demand forecasting, predictive analytics incorporates advanced statistical techniques. With predictive analytics, a wide range of parameters, including customer buying behavior, raw material availability, and trade war implications, may be taken into consideration.
Warranty support may be a load for many manufacturers. Warranties are frequently based on a "one-size-fits-all" approach that is broader. This approach introduces uncertainty and unanticipated complications into the equation.
Products may be modified or updated to decrease failure and hence expense by using data science and obtaining information from active warranties in the field. It can also lead to better-informed iterations for new product lines to minimize field complaints.
Managing Supply Chain Risks
Data may be recorded from commodities in transit and sent straight from vendor equipment to the software platform, helping to enable end-to-end visibility in the supply chain.
Manufacturing analyticsallows organizations to manage their supply chains like a "control tower," directing resources to speed up or slow down. They may also order backup supplies and activate secondary suppliers when demand changes.
Businesses should adapt to changing times. Using analytics in manufacturinghas altered the business industry and spared it from possible hazards while boosting production lines. Industry 4.0's route has been carved. Manufacturing analyticsis the key to true Industry 4.0, and without it, the data produced by clever IoT devices is meaningless. The future is data-driven, and success will go to those who are ready to adopt it. The faster adoption, the sooner firms go ahead of the competition.
How can data analytics help manufacturers?
Data analytics tools can help manufacturers analyze machine conditions and efficiency in real-time. It enables manufacturers to do predictive maintenance, something they were previously unable to accomplish.
Why is data so crucial in manufacturing?
Data helps enhance manufacturing quality control. Manufacturers can better understand their company's performance and make changes by collecting data. Data-driven manufacturing helps management to track production and labor time, improve maintenance and quality, and reduce business and safety concerns.
What is Predictive Manufacturing?
Predictive manufacturing uses descriptive analytics and data visualization to offer a real-time perspective of asset health and dependability performance. In addition, it helps factories spot quality issues and takes remedial action quicker by eliminating the waste and the cost associated with it.
Article | November 12, 2021
Robotics industry growth has accelerated rapidly across several industries. It has aided manufacturers in overcoming numerous barriers related to real-time communication, workplace safety, and overall manufacturing cost and timeliness. However, if we trace its history back to 1961 when George Charles Devol introduced the first robot, dubbed 'UNIMATE,' it has exponentially grown and utilized across sectors to make operations more effortless, precise, and faster.
“As technology takes over and enhances many of the processes we used to handle with manual labor, we are freed up to use our minds creatively, which leads to bigger and better leaps in innovation and productivity.”
– Matt Mong, VP Market Innovation and Project Business Evangelist at Adeaca.
However, the industry has seen snags or difficult times due to market fluctuations, unfavorable situations, and the need to remain competitive in the drive for expansion. To thoroughly understand the robotics industry, let us examine each component that surrounds it.
Industrial Robotics Global Market Size
According to recent Allied Market Research studies, the global industrial robotics market was worth $37,875 million in 2016 and is expected to reach $70,715 million by 2023, rising at a 9.4% compound annual growth from 2017 to 2023.
Industrial Robotics Market Analysis
The global industrial robotics market is primarily driven by a global increase in labor costs, which has compelled firms to replace human labor with robots. As a result, Asia and Europe are the world's fastest-growing areas, with top companies such as ABB, Fanuc, KUKA, Kawasaki, and Yaskawa Electric Corporation headquartered in the region.
The global market of robotics has been segmented by its type, industry, and function.
Soldering and Welding
Electrical & Electronics
Healthcare & Medicine
Assembling & Disassembling
Rubber & Plastics
Painting and Dispensing
Others if any
Machinery & Metals
Cutting and Processing
Food & Beverages
Precision & Optics
Others if any
Others if any
Industries That Are Pioneering the Use of Robotics
As we have observed, the global robotic market will continue to rise in the future years. Therefore, let us examine which industries will extend their use of robotics in their operations.
Healthcare & Medicine
Medical robots help surgeons optimize hospital logistics and free up the working staff to focus on patients. In the healthcare field, robots are revolutionizing surgery by speeding supply delivery and disinfection and freeing up time for doctors to interact with their patients.
da Vinci System – A General Surgical Robot
The da Vinci System is a surgical robot that focuses on a wide range of urological, bariatric, and gynecological surgical treatments. In addition, Stryker's MAKO System also specializes in orthopedic surgery, specifically partial and total knee replacements.
The da Vinci SP system is cleared for use in the United States exclusively for single-port urological procedures, lateral oropharyngectomy (often referred to as radical tonsillectomy), and tongue base excision.
Police robots are meant to gain access to areas inaccessible or dangerous to first responders, and they are capable of manipulating items and gathering data using several technologies. It encompasses robots capable of operating in various conditions and displaying a range of data and communication capabilities.
Agriculture & Food Industry
Farm equipment is now routinely equipped with sensors that utilize machine learning and robotics to identify weeds, compute the appropriate quantity of herbicide to spray, or learn to detect and pick strawberries, for instance.
Additionally, in the food business, robotics has been used to do repetitive tasks such as picking and placing food items and cutting and slicing food items during any given food item. For instance, the modern bakery business uses robotics to perform traditional craft skills and produce any product in large quantities while maintaining high quality and hygiene standards.
The transportation sector is highly leveraging robotics. The powerful transport capability, advanced control technology, and sensing precision are some of the benefits that make the transportation robots widely utilized in this sector. These benefits from robotics help the sector convey various commodities in factories, restaurants, and medical institutions, among other locations.
Robots are employed in manufacturing to do repeated jobs and streamline the overall assembly process. Additionally, robots and humans can also collaborate on product making. Robots can replace humans for hazardous tasks or processes that need large quantities of materials, which might be hazardous for a human employee to handle.
Factors Sustaining the Growth of the Robotics Industry
Reduces Manufacturing Costs: Robotics application in all industries reduces the overall manufacturing process running costs.
Improves Product Quality: The precision of robotics throughout the manufacturing process helps produce high-quality items that meet target client needs.
Offers Competitive Market: Increased income due to utilizing the benefits of robotics applications makes any industry more competitive.
Speed-ups Production Time: Robotics speeds up production and helps manufacturers increase output.
Offers Task or Process Flexibility: Robotics can weld, cast, mold, assemble, machine, transfer, inspect, load, and unload items, among other duties. So, it gives the manufacturer process flexibility.
Reduces Excessive Use and Waste of Production Materials: Robotics employs the exact quantity of material required for the manufactured product, reducing waste and overuse of materials.
Offers a Safe Working Place: Robotics improves employee health and safety by performing tasks that humans find risky. For example, in the chemical industry, a human employee may not do a hazardous task. In such instances, robots can replace people.
The rise of the robotics industry has accelerated dramatically, and it is now spreading its wings across industries. Research firm IDC provided a projection for the commercial robot market, forecasting that the market will exceed $53 billion by 2022, with a compound annual growth rate of more than 20%. In addition, several advantages of robotics such as safety, productivity, uniformity, and perfection are pushing its expansion and making it an essential element of industry 4.0.
Why are robots the future of the manufacturing industry?
The use of robots in manufacturing has improved process efficiency and product quality. As a result, robots are gaining favor in production and becoming the future of manufacturing.
Which industries make the most use of robotics?
Healthcare, agriculture, food, and manufacturing are the industries that are embracing robotics to get the most out of it.
How is manufacturing utilizing robotics?
Manufacturing uses robotics for repetitive tasks. This helps in the reduction of errors and human efforts. It also improves production efficiency.
"name": "Why are robots the future of the manufacturing industry?",
"text": "The use of robots in manufacturing has improved process efficiency and product quality. As a result, robots are gaining favor in production and becoming the future of manufacturing."
"name": "Which industries make the most use of robotics?",
"text": "Healthcare, agriculture, food, and manufacturing are the industries that are embracing robotics to get the most out of it."
"name": "How is manufacturing utilizing robotics?",
"text": "Manufacturing uses robotics for repetitive tasks. This helps in the reduction of errors and human efforts. It also improves production efficiency."