Companies are divided into each categories by their major business field on Kobe Port Island. In the case they have other business fields, it is shown in the miner field. We have a top-class share in air conditioner market in Japan and acquired a high share overseas such as Europe, China and so on. Fluorochemical is also our primary business. We started to industrialize fluorochemical for the first time in Asia.
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High-tech equipment and sophisticated technologies
At the start of FormNext, Additive Industries has presented the results of an independent benchmark study and launched a new We are very proud to announce the purchase of 6 MetalFAB1 systems by a prestigious aerospace company located in California Would you like to find out why? Our MetalFAB1 defines a new category of industrial additive manufacturing equipment in terms of reproducibility, productivity and flexibility.
Additive Industries is lucky to have assembled a true dream team. Highly experienced engineers from the diverse high-tech equipment ecostructure around Eindhoven are complemented with a broad range of other professionals. We are professionals, personal in our approach, fun to work with and always looking for new colleagues! Our MetalFAB1 system is fully integrated with the Additive World Platform, supporting the complete 3D metal printing workflow and allowing our customers to store, share and analyse all relevant data.
Additive Industries is working on systems, software and applications to further refine additive manufacturing for industrial use, while also offering the right service and support to our customers, to make sure we keep moving forward together.
Additive Industries targets customers in demanding markets. Typically these customers design and produce high-end equipment OEM, B2B or other capital investment goods in a more or less vertically integrated business model. We share our experience, link our partners and inspire the industry to bring metal additive manufacturing for functional parts from lab to fab. Working closely together with suppliers and customers, boundaries blur and everyone joins the Additive Industries team for an enduring and long-term partnership.
Curious to find out more, please see this short video! Read more. Save the date and hopefully meet you during this conference. Industrial solutions for metal additive manufacturing. Our systems. Read more At the start of FormNext, Additive Industries has presented the results of an independent benchmark study and launched a new Read more We are very proud to announce the purchase of 6 MetalFAB1 systems by a prestigious aerospace company located in California More information.
World wide offices and partners Additive Industries is accelerating its global footprint! Discover the metalfab1. We're always hiring talent! Take a look at our vacancies! The Additive World Platform Our MetalFAB1 system is fully integrated with the Additive World Platform, supporting the complete 3D metal printing workflow and allowing our customers to store, share and analyse all relevant data. Development and support Additive Industries is working on systems, software and applications to further refine additive manufacturing for industrial use, while also offering the right service and support to our customers, to make sure we keep moving forward together.
Learn all about our services. Markets we specialise in Additive Industries targets customers in demanding markets. High Tech Equipment. Oil and Gas. Additive Industries believes in close cooperation We share our experience, link our partners and inspire the industry to bring metal additive manufacturing for functional parts from lab to fab.
The latest News and Press Did you talk to our customers at Formnext? Additive Industries on the cover of the TCT Magazine 03 December, Read more Additive Industries launches unique co-operative to improve quality and reduce cost of consumables for 3D printing 19 November, Read more Additive Industries confirms productivity leadership and teams up with 3D metal printing pioneer Fraunhofer to accelerate 19 November, Read more Additive Industries celebrates first system handover in China 01 November, Read more.
Additive Industries B. Additive Industries Copyright
Like the Industrial Revolution impacted manufacturing, digital transformation is now responsible for changing the industry. Not since Henry Ford introduced mass production has there been a revolution to this scale. Consumer expectations and the advent of connected devices and platforms are driving the persistent digitization of the manufacturing. The industry continues to evolve in response to the challenge of ensuring the right products are delivered at the right price to the right person through a process of improved sophistication. The manufacturing industry is leading in the IoT because of the revolutionary ways this connected technology has streamlined and simplified various manufacturing processes.
What Is Production Technology in Manufacturing?
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Not a MyNAP member yet? Register for a free account to start saving and receiving special member only perks. To turn design ideas into reality, production e. Iron ore is converted into steel in a foundry; steel is converted into sheets, rods, and bars in a mill; these various forms of steel are fabricated into wire, screws, the structural support for buildings, washing machines, automobile bodies, and so on. Sand is transformed into elemental silicon, which is layered on a ceramic substrate to form an electronic circuit; these circuits are connected or assembled into a vast array of more complicated parts and devices such as radios, televisions, and controls for washing machines, automobiles, and spacecraft. Sophisticated information technology is enabling increased automation of traditional production techniques, as well as new techniques such as stereolithography and material deposition. This chapter presents a vision of the shop floor and production systems of a factory in the year in light of these changes, and it describes research needs to achieve the vision.
The rise of new digital industrial technology, known as Industry 4. This manufacturing revolution will increase productivity, shift economics, foster industrial growth, and modify the profile of the workforce —ultimately changing the competitiveness of companies and regions. Advanced digital technology is already used in manufacturing, but with Industry 4. It will lead to greater efficiencies and change traditional production relationships among suppliers, producers, and customers—as well as between human and machine. Nine technology trends form the building blocks of Industry 4. In an Industry 4. Robots will eventually interact with one another and work safely side by side with humans and learn from them. These robots will cost less and have a greater range of capabilities than those used in manufacturing today. Simulations will be used more extensively in plant operations to leverage real-time data and mirror the physical world in a virtual model, which can include machines, products, and humans. This will allow operators to test and optimize the machine settings for the next product in line in the virtual world before the physical changeover, thereby driving down machine setup times and increasing quality.
Top 5 Digital Transformation Trends In Manufacturing
The cartridge production technology is based on the use of high-performance automatic rotor lines, modern automatic press machines and thermochemical equipment of technological continuous action. Complete integrated automation on the basis of automatic rotor lines allows:. The main advantage of the offered technology on the basis of automatic rotor lines over the traditional technology is that the processing and control of parts is carried out in the process of transport movements of work pieces and working parts.
Hitachi Group Corporate Information. Providing a total seamless solutions by connecting with digital technology, we resolve your business issues Digitally link and optimize your entire supply chain, from management to workplaces. We use digital technologies to connect entire manufacturing businesses, from manufacturing sites to management. This improves productivity and quality, enabling efficient manufacturing operations that can respond immediately to the changing needs of markets. We utilize data throughout the entire value chain, from procurement to sales and after-sales services. This enhances the functionality of distribution centers and delivery, leading to optimization of the supply chain. By collecting data and analyzing it through the use of AI, we improve the visualization of consumer needs. This makes one-to-one marketing more accurate and contributes to an increase in sales. By providing high added value to after-sales services for the manufacturers and owners of production equipment, we contribute to increased profits, labor-saving efforts, and improved operating rates of equipment.
Industrial solutions for metal additive manufacturing
Since the time of the Industrial Revolution, manufacturing industries have accumulated a huge experience in creating different machines and systems for fabricating various goods, work parts, and products. All these diverse machines and systems, with different designs to solve pivoted economic problems, increased the productivity rate of manufacturing processes and generated high-quality products. In the area of productivity theory for industrial engineering, there are numerous publications that describe the fundamental approaches and the mathematical models of productivity rate for the different designs of industrial machines and systems. Known theories consider the physical productivity rate as the number of products fabricated over a given time ASME that is a component of economic productivity. However, known mathematical models are simplified with assumptions and not well developed analytically, which can lead to severe errors in computing the output of manufacturing systems. Modern industrial machines and systems are complex in design and in structure with serial, parallel, and serial-parallel arrangements, and any failure of any component leads to downtime of expensive production systems. For this reason, industries need a productivity theory that enables accurate predicting of the output of manufacturing systems at the preliminary stages. Offers fundamental principles of productivity theory for industrial machines and systems based on mathematics, technology, design, reliability, probability, and management Presents the conceptual principles of productivity theory for industrial machines and systems Provides methods for computing productivity losses in real industrial environments Closes the gap between theory and practice for computing productivity rates of manufacturing systems Incudes a comparative analysis of productivity rates for manufacturing systems of serial, parallel, and serial-parallel arrangements. Productivity Theory for Industrial Engineering presents analytical approaches and methods to define maximal productivity rates, optimal machining regimes, and optimal structure of manufacturing machines and systems based on the parameters of technological processes, structural design, reliability of mechanisms, and management systems.
Electronics production machines
Additive Manufacturing refers to a process by which digital 3D design data is used to build up a component in layers by depositing material. The term "3D printing" is increasingly used as a synonym for Additive Manufacturing. However, the latter is more accurate in that it describes a professional production technique which is clearly distinguished from conventional methods of material removal. Instead of milling a workpiece from solid block, for example, Additive Manufacturing builds up components layer by layer using materials which are available in fine powder form. A range of different metals, plastics and composite materials may be used. Additive Manufacturing is now being used increasingly in Series Production. It gives Original Equipment Manufacturers OEMs in the most varied sectors of industry the opportunity to create a distinctive profile for themselves based on new customer benefits, cost-saving potential and the ability to meet sustainability goals.
PRODUCTION OF TECHNOLOGICAL EQUIPMENT
This article presents information on the medical equipment industry in India-on production, procurement and utilization related activities of key players in the sector, in light of the current policies of liberalization and growth of a "health-care industry" in India. Policy approaches to medical equipment have been discussed elsewhere. Users Online:
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One of the most important application areas for automation technology is manufacturing. To many people, automation means manufacturing automation.
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