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The US Air Force will investigate how the 3D printing technology may reproduce components for outdated aircraft.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
An agile manufacturing strategy is one that places a strong priority on responding quickly to the needs of the customer, resulting in a major competitive advantage.
It is a captivating method to build a competitive work system in today's fast-moving marketplace. An agile organization must be able to adapt quickly to take advantage of limited opportunities and rapid shifts as per client demand. Agile manufacturing is gaining favor among manufacturers due to its several benefits, including increased work productivity and good control over the final deliverable. Furthermore, the shorter time to market is expanding the global market for enterprise agile transformation services.
According to Market Watch, with a CAGR of 17.9% from 2019 to 2026, the US enterprise agile transformation services market is predicted to reach $18,189.32 million by 2026.
So why is agile manufacturing gaining traction? What challenges do manufacturers encounter when implementing agile manufacturing, and how have industry leaders like GE, Adobe, and Accenture effectively implemented agile methodology in their organizations and become the best examples of agile manufacturing? In this article, we'll take a closer look at each point.
What Is the Importance of Agile Manufacturing?
The term "agile manufacturing" refers to the use of a variety of different technologies and methodologies in the production process. In order to meet market standards and criteria, organizations must be able to adapt quickly and effectively to their customers' needs by bringing agility to manufacturing. To ensure the quality of products and the cost of production are kept to a minimum, agile manufacturing helps firms to regulate their end product.
Because it immediately addresses the needs and worries of the clients, it is an effective strategy as well. By using this method, firms may better understand the market and use it to their advantage by creating products that meet the needs of their customers.
Challenges While Adopting Agile Methodologies on a Project
When we talk about agile challenges when implementing it on any project, some will be routine and some will be unique. So, let's get a quick grasp on the agile challenges.
Communication about the project: Clear communication between the development team and the product owner is critical throughout the project development life cycle. Any miscommunication can have an impact on the product's quality and the end result of the entire process.
Managing the day-to-day operational challenges: Throughout the project, daily minor or large operations play a significant impact on the overall project output. Any obstacles encountered when working on everyday chores should be resolved immediately to avoid any delays or halts in the process.
To make it function, you'll need experience: Any inexperienced product owners, scrum masters, or individuals new to the agile approach may have a negative impact on the project's expected output.
Various project contributors' buy-in: Inadequate training, a lack of motivation to show up from project participants, keeping customers in the loop, and a lack of departmental management are some of the problems that may hinder the accurate implementation of the agile methodology. The presence of one or more of these obstacles in any business or project may jeopardize the agile methodology and its total output.
Though there are many online training courses and books available on how to integrate agile practices into your project, each organization's scenario is unique, as are the challenges they encounter. As a result, handling the situation with experienced personnel that have a can-do attitude is what is required to make it work.
Following that, we'll look at some manufacturing business agile examples and how they've successfully implemented agile methodology in their organizations.
Agile Manufacturing Examples
We'll look at one of the most well-known industrial examples of agile manufacturing that has successfully implemented the methodology and achieved great outcomes. Take a peek at it.
One of the most popular agile manufacturing examples in performance management revamps is Adobe. When Donna Morris was Senior Vice President of People Resources in 2012, she thought the annual performance evaluation and the stack-ranking process were bureaucratic, paperwork-heavy overly complicated, taking up too many management hours for the company. Aside from this, she discovered that it set barriers to joint efforts, creativity, and development.
The Adobe team ditched annual performance reviews and encouraged managers and employees to regularly discuss performance via a system called “Check-in.” Adobe has reduced voluntary turnover by 30% and increased voluntary departures by 50% since making the transition. Moreover, the company saved 80,000 management hours annually.
General Electric famously overhauled its performance management system in 2015, paving the path for other global firms to follow in the electronics industry. Annual performance evaluations and the infamous rank-and-yank performance rating system (ranking employees and regularly eliminating the bottom 10%) had GE decide they needed to update their performance management system. The annual appraisals lasted a decade longer than the ranking system. They are now a more agile organization.
Instead of directing employees to attain goals, managers now guide and coach them. GE also decided to deploy an app they designed called PD@GE to facilitate regular employee feedback and productive performance discussions.
Using the app, each employee establishes priorities and solicits feedback. They can also give real-time feedback. Employees can request a face-to-face meeting at any time to discuss transparency, honesty, and continuous improvement.
These traits will not arise quickly and will require motivation and commitment for self-growth.
According to Accenture's previous system, employees who perform well tend to be the most narcissists and self-promoters. Accenture wanted to revamp their system and reward genuine employees. So they started using on-going performance conversations while focusing on performance development.
Because it required employees to compete with coworkers who may have had a different position, Accenture decided that forced ranking was illogical. The new system is more centered on the employee and aims to assist them in becoming the best version of themselves.
Agile manufacturing is a way to get the finest results and exceed client expectations on every project. Businesses are benefiting from agile manufacturing because it improves the end product and helps them better utilize their resources. The necessity of agile manufacturing in business is vital, and organizations must overcome the challenges they encounter while applying the agile approach to any of their projects in order to reap the benefits of agile production.
How does agile manufacturing help businesses?
An agile manufacturing process enables organizations to respond to client requests with flexibility when market conditions change, as well as regulate their intended production while preserving product quality and minimizing costs.
What is an agile organization?
Unified alignment, accountability, specialization, transparency, and cooperation are key elements in an agile organization. To guarantee these teams can work efficiently, the organization must maintain a solid environment.
What are the core elements of agility?
Individuals and interactions over processes and tools are the four values of the Agile Methodology. A working program is preferable to in-depth documentation. During contract negotiation, the customer's cooperation is valued.
"name": "How does agile manufacturing help businesses?",
"text": "An agile manufacturing process enables organizations to respond to client requests with flexibility when market conditions change, as well as regulate their intended production while preserving product quality and minimizing costs."
"name": "What is an agile organization?",
"text": "Unified alignment, accountability, specialization, transparency, and cooperation are key elements in an agile organization. To guarantee these teams can work efficiently, the organization must maintain a solid environment."
"name": "What are the core elements of agility?",
"text": "Individuals and interactions over processes and tools are the four values of the Agile Methodology. A working program is preferable to in-depth documentation. During contract negotiation, the customer's cooperation is valued."
Article | December 2, 2021
The world of manufacturing is continuously evolving in the 21st century, and companies have to combat competition, altering consumer demands, and unexpected events to be able to deliver in today’s experience. Global connectivity, innovation, and disruption are all reshaping the manufacturing industry, but a world-class business platform can help companies transform operations digitally to keep up with an evermore digitized world. The factory of the future will allow manufacturers to enhance production through the convergence of information technology with factory operations, combining the effectiveness of the virtual world with the materiality of the physical world to lower costs, increase flexibility, and better meet customer expectations.
The factory of the future functions on four dimensions: resource planning, manufacturing planning, planning and optimization, and manufacturing operations. Resource planning involves defining and simpulating the plant layout, flow, assets, and resources needed to efficiently develop products in a safe environment. Normal production change requests can be quickly validated by using 3D virtual experience twin technology. This technology could also quickly pivot operations to alternative products in the case of disruptive events. Manufacturing planning enriches the resource and product definition by defining and validating a process plan and creating work instructions that meet production goals.
Digital visualization of resource and process changes can also help speed up time-to-production in any scenario no matter the location by leveraging the cloud. Planning and optimization of supply chains across planning horizons will help manufacturers gain visibility with planning and scheduling by having the ability to model, simulate, and optimize alternative supply and production plans to reduce disruptions. Lastly, manufacturing operations management can transform global production operations to attain and maintain operational excellence. Manufacturers can create, manage, and govern operational processes on a global scale while maintaining operational integrity to meet altering demands.
For the factory of the future to come about successfully, there needs to be connected technology and shared data. Technology has to be adaptable with robotics and equipment that can be reconstructed to house changes and new products. An AI-powered product demand simulation is necessary to maintain agility and boost productivity. A versatile, cross-functional workforce with the ability to explicate data and function well in AR environments is also required along with smart factory technology such as wearable sensors and virtual prototypes. Through all this, the factory of the future can connect technologies across the product life cycle while optimizing the workforce and increasing sustainability.
Although achieving the factory of the future has several benefits, creating a feasible factory of the future plan can be challenging. In 2018, only 12% of companies had a mature factory of the future plan. One of the main challenges that companies face is a lack of internal skills to devise digital solutions. However, this can be combated by carefully considering how you can utilize digital technologies to deliver improved performance, resiliency, and flexibility. It is easier to begin with small steps and to collaborate with a partner who could support your efforts to build toward your desired transformation goal. It is important to always be prepared by evaluating your next steps, industry trends, and progress metrics. It is also crucial to focus on the people, process, and technology you’re using to have a successful transformation journey.
Manufacturing with the factory of the future can provide savings in a wide range of categories. For example, it can reduce virtual vehicles build time by 80%, increase on-time performance of industrial equipment by 45%, and reduce modular construction time of construction, cities, and territories by 70%. Leading the transformation of the manufacturing space towards the direction of the factory of the future will allow manufacturers to work smart and better meet the needs of the end consumers.
Article | May 25, 2021
Additive manufacturing offers the potential to accelerate the pace of electronics manufacturing by creating a number of unique opportunities, such as the ability to combine multiple materials in single print jobs. The technology is also much more accessible than it previously was. Plus, it enables faster prototyping, which could speed the time to market and prevent costly mishaps that disrupt the production process. Here’s a look at some of the many benefits additive manufacturing brings to the electronics sector.
One Giant Leap
Adoption rates for electronics made with additive manufacturing will continue to climb as people realize its versatility. Thanks to a new project associated with students at Embry-Riddle Aeronautical University, we could see materials made with additive manufacturing are as well-suited for use in space as on Earth.