Dive into this comprehensive exploration of six prime examples of discrete manufacturing to deepen your understanding of this essential process.
Quick Recap on Discrete Manufacturing
As the backbone of many modern industries, discrete manufacturing is a production method that’s both fascinating and fundamental. These items can be counted, touched, and seen and are often easily disassembled back into their original components. As an integral part of the modern manufacturing landscape, discrete manufacturing offers efficiency, quality, and flexibility. In this article, we’ll explore five real-life examples of discrete manufacturing.
Related: Discrete Manufacturing: The Ultimate Guide for Manufacturers
Key Features and Benefits of Discrete Manufacturing
Discrete manufacturing’s primary features include the production of distinct, countable items, and the ability to break down these items into their original components. This method offers several benefits:
- Efficiency: Advanced technology and automation have streamlined discrete manufacturing, reducing waste and enhancing productivity.
- Quality: Each product is individually assembled, allowing for rigorous quality control and customization.
- Flexibility: Discrete manufacturing accommodates variations in product design and customer demand, making it adaptable to market changes.
5 Examples of Discrete Manufacturing
Now, let’s delve into five examples of discrete manufacturing:
Industrial Manufacturing
Industrial manufacturing is responsible for producing goods that serve as the foundation for numerous other industries. This sector is characterized by the production of a wide variety of items, including everything from heavy-duty machinery to precise tools and equipment.
Discrete manufacturing plays an indispensable role in industrial manufacturing. The inherent ability of discrete manufacturing to produce distinct, countable items makes it a favorable method in this sector. It allows for the efficient production of high-quality machines and tools, each tailored to meet specific requirements.
According to a report by PwC, the evolution and performance of modern manufacturing are largely guided by discrete manufacturing processes. These processes enable the creation of specific, countable products, allowing for the efficient production of high-quality machines and tools tailored to meet precise industry requirements.
High Tech
The high-tech industry, known for its innovation and rapid growth, also heavily relies on discrete manufacturing. This sector includes companies that manufacture products in IT, electronics, and software services. Worldwide IT spending had been projected to total $4.6 trillion in 2023, an increase of 5.5% from 2022, according to the latest forecast by Gartner, Inc.
The high-tech industry’s reliance on discrete manufacturing is also evident in the production of electronic components. The global Discrete Semiconductor Market, which held a valuation of $45.43 billion in 2021, is projected to witness substantial growth, reaching an estimated worth of $78.33 billion by 2028. This represents an impressive compound annual growth rate (CAGR) of 8.1% throughout the forecast period.
Automotive
The automotive industry is one of the most prolific examples of discrete manufacturing. Each vehicle, a complex amalgamation of various components such as engines, body panels, tires, and more, is meticulously assembled based on precise models and customer specifications. This intricate process underlines the core principles of discrete manufacturing, where each product is distinct and can be broken down into its constituent parts.
An article by Monarch Bird highlights the complexity of the automotive industry’s manufacturing process, which involves numerous tier-one suppliers. The intricate supply chain, coupled with the diverse range of components needed for each vehicle, underscores the industry’s reliance on discrete manufacturing methods.
Aerospace and Defense
The aerospace and defense industry presents a compelling case study for discrete manufacturing, a process that involves creating distinct items that can be touched, seen, and cost individually. This sector is responsible for the creation of complex machinery such as airplanes, spacecraft, and defense equipment, each of which is a unique assembly of numerous components such as engines, wings, and control systems.
In an article published by Assembly Magazine, it’s emphasized that the aerospace and defense manufacturers rely on centralized Manufacturing Execution Systems (MES) to gain real-time information from across their factories. This intricate system of operation underscores the industry’s dependence on discrete manufacturing methods, which enable the precise assembly of individual parts into complex whole units.
Moreover, the aerospace and defense sector is bound by stringent quality control, safety standards, and precision requirements. For instance, the engineering tolerances in this sector are held to a higher standard of accuracy than traditional discrete manufacturing, as highlighted by Aerospace Manufacturing and Design.
Toys
Discrete manufacturing is also prevalent in the toy industry, where toys are typically produced as distinct items. Regarding economic impact, the toy industry is a significant player. According to Bonafide Research, the global toy market is projected to reach USD 167.26 billion by 2027, growing at a Compound Annual Growth Rate (CAGR) of 6.66%.
As toy designs continue to evolve to meet changing consumer demands, the role of discrete manufacturing in this industry will only grow more pivotal.
Shoplogix and Discrete Manufacturing
Shoplogix is a platform that helps with discrete manufacturing by providing a set of software tools to improve manufacturing operations. It offers services like the Smart Factory Suite, Analytics Suite, and MES Suite, which include specific modules such as SPC, Messaging, Digital Andon, Quality, Action Plan, Energy, and Labor.
These services aim to connect all parts of the manufacturing process, allow for quick deployment, ensure operations can be maintained and grown, and give advanced analytics for manufacturing. Shoplogix provides real-time data on operational performance, which manufacturers can use to make informed decisions.
What You Should Do Next
Explore the Shoplogix Blog
Now that you know more about some examples of discrete manufacturing, why not check out our other blog posts? It’s full of useful articles, professional advice, and updates on the latest trends that can help keep your operations up to date. Take a look and find out more about what’s happening in your industry. Read More
Request a Demo
Learn more about how our product, Smart Factory Suite, can drive productivity and overall equipment effectiveness (OEE) across your manufacturing floor. Schedule a meeting with a member of the Shoplogix team to learn more about our solutions and align them with your manufacturing data and technology needs. Request Demo