Industry 4.0 in 2019: From now to next

CHRIS JOHNSON| December 18, 2019
INDUSTRY 4.0 IN 2019: FROM NOW TO NEXT
It’s hard to believe it’s been a year since I first blogged about Nokia’s Go Allwhere vision and the incredible possibilities of industrial digital transformation. Yet here we are, 12 months later, and everywhere you turn companies have begun converting those possibilities into smarter, leaner, greener, safer and more productive operations.

Spotlight

SOCEM Group

With more than thirty years of experience we have managed to develop our own global network of enterprises. The SOCEM Group is multicultural and diversified, with a unique and innovative market approach as far as mold manufacturing is concerned. We do understand the meaning of globalization and the importance of being present at strategic locations.

OTHER ARTICLES

How to Improve Production Scheduling: The 5 Crucial Elements

Article | December 8, 2021

The manufacturing production schedule is a critical aspect that enables the manufacturing business to complete each production activity precisely and on time. Allocating different raw materials, resources, or processes to distinct project phases is called a production schedule. Its goal is to make your manufacturing process as efficient and cost-effective as possible in terms of resources and labor — all while delivering products on schedule. 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 So, how is the overall production schedule managed? According to businesswire, the global APS (Advanced Production Planning and Scheduling) software market was valued at $1,491.22 million in 2020 and is anticipated to raise $2,941.27 million by 2028 expanding at an 8.86 percent CAGR from 2020 to 2028. Some software and tools are available to assist manufacturing organizations in properly scheduling production planning, including MaxScheduler, TACTIC, MRPeasy, and Gantt charts. Though there are numerous software programs available on the market for production scheduling, the most crucial aspect is determining which elements to consider when planning production. This blog will look at the five most important factors to consider while planning the production schedule. Five Elements to Consider When Scheduling Production As we saw in the introduction, production scheduling is used in the manufacturing process to assign plant and machinery resources, schedule human resources, plan production processes, and purchase materials. So, what are the primary components or stages of this production scheduling process? Let's take a quick look at each of them. Planning to Make the Best Use of the Company's Resources The role of planning in production scheduling is to use the company's resources to maintain a regular production flow. As a result, downtime is decreased, and bottlenecks are minimized, allowing production to be optimized. For production scheduling, two forms of planning can be used: Dynamic Planning: Dynamic planning is carried out under the idea that process stages will alter. So, materials must be ready, but production cannot begin until demand is decided. Static Planning: Static planning is done keeping in mind that all process steps will be completed on schedule and without adjustments. Routing to Determine the Order of Actions A “bill of materials” is used in discrete manufacturing to specify what things are needed and in what quantities. Routing determines the path and sequence of required phases of the process. It may involve in-house operations, but it may also comprise sub-contracted components that must be returned to the production flow for final assembly. Scheduling to Make Use of Predetermined Planning Levels To manufacture products from components or raw materials, scheduling makes use of the previously set planning level. As a result, it is time-dependent and must meet the demand outlined at the planning level. Each department, product, and procedure can have their own unique set of timetables. Sub-schedules for sub-assemblies or mixes and blends may be defined by department-specific master production schedules, utilized at the highest level to define product timeframes. Dispatching to Decide on Immediate Actions Dispatching assigns the following jobs to be done from a subset of the production queue. Dispatching is utilized to make quick decisions. This is in contrast to planning, which involves the planning of future actions. Dispatching is utilized in both pull and push production systems. Execution to Ensure that all Processes are Carried out Correctly Production scheduling must rely on proper execution to ensure that all processes are completed appropriately and in the sequence planned. It requires everyone to know what they are expected to do and when they are expected to do it. Execution requires knowledgeable management decisions, well-trained employees, correct data in the manufacturing plan and schedule, and consistent sales statistics and forecast numbers. All must be present for the organization to carry out its production plan and fulfill orders. How MRPeasy – A Production Scheduling Software Assist Manufacturing Companies in Scheduling Their Production? MRPeasy is a cloud-based material requirements planning (MRP) application explicitly designed for small manufacturing units. Its primary functions are purchase order management, forecasting, and inventory management. This software simplifies the process of scheduling production. It enables you to evaluate all of your anticipated manufacturing orders (MO). The bill of materials (BOM), purchasing, and stocking are all maintained in one location, allowing you to quickly book inventory and increase purchase orders (PO) for acquired parts. MRPeasy enables you to: Obtain all of the detailed information on all of your MOs Consider MOs as a single block or as distinct operations. Drag-and-drop operations and operations to reschedule Calendar or Gantt chart views are available for monitoring scheduled orders. Additionally, you can manage MOs smoothly. With the production planning component, you may create, amend, and update MOs. This app compiles an exhaustive list of all your MOs. You can track their progress based on the status of an order or a part's availability. Additionally, you can search for, filter, and export your MOs. Final Words How to schedule production for your organization requires extensive research, planning, and analysis of overall product demand as well as a grasp of the time required to meet the demand. Production scheduling techniques such as job-based planning, batch method, flow method, and others help develop a productive manufacturing production schedule. Include the elements mentioned above in your manufacturing scheduling to get the best possible benefits, such as better production efficiency, lower production costs, and on-time product delivery for your manufacturing in 2022. FAQ How production planning differ from production scheduler? Production planning and scheduling are often mixed. But there is a difference. Planning decides what and how much work must be done, whereas scheduling specifies who and when the work will be done. What is real-time manufacturing scheduling? Real-Time Scheduling is a production planning, scheduling, and tracking tool that enables manufacturing organizations to improve customer satisfaction and achieve optimal operational performance cost-effectively. How can scheduling be improved? Communication with staff is a great way to improve scheduling. This is true for all businesses, software or otherwise. However, management should not burden employees with ambiguous or unclear communication, and vice versa. { "@context": "https://schema.org", "@type": "FAQPage", "mainEntity": [{ "@type": "Question", "name": "How production planning differ from production scheduler?", "acceptedAnswer": { "@type": "Answer", "text": "Production planning and scheduling are often mixed. But there is a difference. Planning decides what and how much work must be done, whereas scheduling specifies who and when the work will be done." } },{ "@type": "Question", "name": "What is real-time manufacturing scheduling?", "acceptedAnswer": { "@type": "Answer", "text": "Real-Time Scheduling is a production planning, scheduling, and tracking tool that enables manufacturing organizations to improve customer satisfaction and achieve optimal operational performance cost-effectively." } },{ "@type": "Question", "name": "How can scheduling be improved?", "acceptedAnswer": { "@type": "Answer", "text": "Communication with staff is a great way to improve scheduling. This is true for all businesses, software or otherwise. However, management should not burden employees with ambiguous or unclear communication, and vice versa." } }] }

Read More

Top Five Industries That Are Leveraging Additive Manufacturing

Article | October 20, 2021

Additive manufacturing has advanced significantly in recent years and is currently used in nearly every area to improve both products and processes in the manufacturing business. As a result, manufacturers have been more imaginative and innovative in offering relevant products to their target customer group due to this technological advancement. Mr. Matt Mong, a prominent business executive, also mentioned in one of his Media7 interviews, 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 The use of additive technology provides several advantages, including creating unique shapes and low production costs. In addition, the increasing application of additive manufacturing technologies is accelerating the growth of the additive manufacturing market. According to recent research conducted by Metal AM, the value of additively produced components is expected to increase by 15% annually from $12 billion in 2020 to $51 billion in 2030. Thus, additive marketing is the way forward for all industries. This article will cover the top five industries that utilize additive manufacturing and are advancing their businesses every day by overcoming the prevailing challenges such as production errors, downtime, and skilled labor shortage with the benefits of additive manufacturing. Five Industries Utilizing Additive Manufacturing Though additive manufacturing or 3D printing has penetrated almost all the industries, we have picked up a few of the prevailing industries that have started using additive manufacturing and excelling in it. Additive Manufacturing in Aerospace Aerospace has always been the first sector to adopt new technology. Precision is critical in this sector, as a failure of any component is not an option in aerospace. In aircraft production, dimension, weight, and temperature tolerance are critical, and additive technology provides every solution around this. As a result, additive manufacturing has evolved into a critical technology that adds value throughout the supply chain for prominent aircraft firms like Airbus, GE, Boeing, and TTM. Additive Manufacturing in Healthcare Healthcare or medical is one of the industries that is maximizing the benefits of additive manufacturing. Technology enables the medical sector to be more innovative, accurate, and capable of offering the most excellent medical solutions available today. It enables medical practitioners to rehearse before procedures and medical researchers to study functioning human tissues for basic biological research. In addition, it is utilized to fabricate tissues and organoids, surgical instruments, patient-specific surgical models, and bespoke prostheses. Thus, additive technology has altered the face of medicine, elevating it to a more sophisticated and solution-oriented state. Additive Manufacturing in Architecture As with other industries, additive manufacturing reshapes the architectural and construction sectors by eliminating conventional industrial barriers such as production time and cost, material waste, and design constraints. By utilizing 3D printing, designers can now quickly construct and demonstrate how structural parts will function and appear when combined. It also assists designers in seeing how the plan will seem subsequent execution. Additive Manufacturing in Manufacturing Nowadays, additive manufacturing, or 3D printing, is a significant part of the manufacturing process. For example, rather than fabricating a product from solid blocks, additive manufacturing may build a three-dimensional model utilizing fine powder, various metals, polymers, and composite materials as raw materials for constructing a 3D model with a three-dimensional printer. Additive Manufacturing in Education Additive manufacturing is reshaping the educational industry by introducing a new teaching trend and transforming the classroom experience for students. It is being used in various disciplines, including engineering, architecture, medicine, graphic design, geography, history, and even chemistry. They may produce prototypes, three-dimensional models, and historical objects, among other things. Thus, technology enables learners to get more practical information about their respective courses directly on the floor. How has General Electric (GE) been pioneering the use of Additive Manufacturing for 20 years? GE's primary competency is additive manufacturing (3D printing), and the company has made significant investments in the technology. It utilizes additive technology to manufacture a range of components for aviation and other sectors. This article will look at one of their manufacturing case studies and how additive technology enabled them to get the desired result from the end product. CASE STUDY: OPTISYS Optisys modified a vast, multi-part antenna assembly into a palm-sized, lighter, one-piece additive metal antenna. The antenna's aluminum material was chosen because of its surface conductivity, low weight, corrosion resistance, and stress and vibration resistance. Optisys was able to break even on machine acquisition within one year after acquiring its first Direct Metal Laser Melting (DMLM) equipment by utilizing additive technologies. (Source: General Electric) Benefits and Outcomes Non-recurring expenditures were reduced by 75%. Weight loss of 95% The size was reduced by 80%. Part-to-part reduction of 100-to-1 Cycle duration shortened from 11 to 2 months 5 product lines were created for AM, a new market growth Final Words Additive manufacturing benefits a wide variety of businesses. Industries must recognize the advantages of additive manufacturing and begin using the technology in their manufacturing processes to cut production time and costs while increasing product accuracy. This game-changing expansion of the additive manufacturing market across several industries is upgrading both products and production processes. FAQs How do you define additive manufacturing? Additive manufacturing (AM), more generally referred to as 3D printing, is a ground-breaking manufacturing technique that enables the creation of lighter, more robust components and systems. As the name implies, additive manufacturing is adding material to an item to create it. Is additive manufacturing the same as 3D printing? Both terms are interchangeable. Additive manufacturing and 3D printing manufacture components by connecting or adding material from a CAD file. Which companies specialized in additive manufacturing? American Additive Manufacturing, Forecast 3D, Sciaky, Inc., 3 Axis Development, Inc., Jonco Industries, Inc., Polyhistor International, Inc., and Caelynx, LLC are renowned companies for additive manufacturing in the United States of America. { "@context": "https://schema.org", "@type": "FAQPage", "mainEntity": [{ "@type": "Question", "name": "How do you define additive manufacturing?", "acceptedAnswer": { "@type": "Answer", "text": "Additive manufacturing (AM), more generally referred to as 3D printing, is a ground-breaking manufacturing technique that enables the creation of lighter, more robust components and systems. As the name implies, additive manufacturing is adding material to an item to create it." } },{ "@type": "Question", "name": "Is additive manufacturing the same as 3D printing?", "acceptedAnswer": { "@type": "Answer", "text": "Both terms are interchangeable. Additive manufacturing and 3D printing manufacture components by connecting or adding material from a CAD file." } },{ "@type": "Question", "name": "Which companies specialized in additive manufacturing?", "acceptedAnswer": { "@type": "Answer", "text": "American Additive Manufacturing, Forecast 3D, Sciaky, Inc., 3 Axis Development, Inc., Jonco Industries, Inc., Polyhistor International, Inc., and Caelynx, LLC are renowned companies for additive manufacturing in the United States of America." } }] }

Read More

Is Additive Manufacturing the Key to Restore American Manufacturing?

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. General Electric 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 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. Final Words 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. FAQ 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. { "@context": "https://schema.org", "@type": "FAQPage", "mainEntity": [{ "@type": "Question", "name": "What are the significant challenges in additive manufacturing?", "acceptedAnswer": { "@type": "Answer", "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." } },{ "@type": "Question", "name": "Which company is leading in additive manufacturing technology in the USA?", "acceptedAnswer": { "@type": "Answer", "text": "3D Systems Corp. is the leading company in additive manufacturing technology with a revenue of $566.6 million." } }] }

Read More

4 Ways Additive Manufacturing Will Optimize Electronics

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.

Read More

Spotlight

SOCEM Group

With more than thirty years of experience we have managed to develop our own global network of enterprises. The SOCEM Group is multicultural and diversified, with a unique and innovative market approach as far as mold manufacturing is concerned. We do understand the meaning of globalization and the importance of being present at strategic locations.

Events